memòria activitats ceec 2010 ang
DESCRIPTION
Memòria Activitats CEEC 2010 ANGTRANSCRIPT
ANNUAL REPORT OF ACTIVITIES 2010Annual Report of Activities for 2010 of the non-profit innovative business-es association, Clúster d’Eficiència Energètica de Catalunya (Catalonia Energy Efficiency Cluster, or CEEC)
Clúster d’Eficiència Energètica de Catalunya (CEEC)
Josep Pla, 2, Planta Baixa, Torre B3
08019 Barcelona
T. 933.560.980
F. 933.562.823
www.clustereficiencia.org
Published by the Clúster d’Eficiència Energètica de Catalunya (CEEC)
(Catalonia Energy Efficiency Cluster, CEEC)
Josep Pla, 2, Planta Baixa, Torre B3 - 08019 Barcelona
Tel. 933 560 980 - Fax: 933 562 823
www.clustereficiencia.org
2010 Edition
Project and Coordination
Image and Communication Department of the Col·legi Oficial d’Enginyers Industrials de Catalunya (Indus-
trial Engineers’ Association of Catalonia)
Fundació b_TEC
Clúster d’Eficiència Energètica de Catalunya (CEEC)
Linguistic Correction
Teresa Puig
Translation into English
Catalina Girona
Disseny i maquetació
Anna Carrió
Impressió
GAM Impremta Digital
Index1. Introduction
2. Executive Summary
3. Association Organization
Organizational Structure
Objectives
Members
4. Working Groups
Master Group on Buildings
Master Group on Buildings
Working Group on Thermally Activated Cooling (TAC WG)
GT en Sistemes de Gestió Working Group on Energy Management Systems
GT en HVAC
Working Group on HVAC
Working Group on Intelligent Façades
Working Group on ESCO’s for Schools and Other Educational Institutions
Master Group on Mobility
Working Group on Electric Vehicle Infrastructure (EVI WG)
Working Group on Efficient Mobility
Master Group on Public Services
Working Group on ESCO Tenders in Public Lighting
Working Group on ESCOs in the Public Lighting Industry
Working Group on District Heating and Cooling (DHC WG)
Working Group on Energy-Efficient Tunnels (Energitúnels WG)
Working Group on Fostering Cogeneration in the Hospital Sector
Master Group on Industry
Working Group on Micro-Cogeneration in the Industrial Sector
Working Group on Energy Efficiency on Livestock Farms
Working Group on Energy Efficiency in Industrial Processes
Working Group on ESCO’s in the Food Industry
Master Group on Training
5. External Communication Activities
6. EU Projects
7. Summary of Accounts
7
11
19
20
21
22
27
31
32
34
40
42
46
50
55
56
60
65
66
68
74
78
82
87
88
92
94
96
99
105
115
121
125
5
6
7
01Introduction
8
ASSOCIATION ORGANIZATION
The role of the Catalonia Ener-gy Efficiency Cluster in the face of economic change At a difficult economic time like the present it is urgent to find
new roads for economic growth and job creation. Often innovation,
added value and training are mentioned as the keys to a new, more
productive and sustainable economic model. We at the Clúster
d’Eficiència Energètica de Catalunya (Catalonia Energy Efficiency
Cluster, CEEC), an association with over 80 member companies
that represent a turnover of more than 10 billion euros within the
country, wish to foster energy efficiency as one of the fields that
can contribute to accelerating the desired model while meeting
important challenges for the future.
Consumers observe how the cost of energy rises day by day. In
the face of this challenge, the CEEC has already been working
for 3 years to foster the implementation of technologies available
through the energy service companies (ESCOs) model. This model
will allow the financing of projects whose magnitude or complexity
can best be handled by private investment, with a partial or total
return in efficiency. At CEEC, we are fostering ESCOs in differ-
ent applications, among them public lighting. Moreover, there are
working groups oriented towards the ESCO Model in a multitude
of sectors and applications, in both the public sphere (schools,
primary health care centres, tunnels, etc.) and the private sphere
(supermarkets, corporate buildings, the meat industry, the wine
sector, etc.). The potential for energy efficiency is enormous.
The CEEC is also a source of new solutions and technological
developments for low-energy buildings or in the field of electric
mobility, whether through plug-in hybrids or purely electronic ve-
hicles. The use of information and communication technologies in
vehicles and infrastructures will certainly allow greater efficiency in
mobility and intermodal transport, with particular emphasis on the
rail transport sector, highly efficient from the energy perspective.
The energy efficiency sector is ever gaining in importance, as dem-
onstrated by CEEC activity. In this regard, CEEC members are in
9
ASSOCIATION ORGANIZATION
a privileged position to provide solutions to the energy and competi-
tiveness problems before us. Moreover, we can do so in innovative
ways, generating added value and helping to create new, more high-
ly-qualified jobs. We therefore present what we were able to accom-
plish through joint work in 2010 as proof of what we can do together
in the future.
Albert Cot and Roger Casellas
President and Vice-President of CEEC
10
YEAR-END BALANCE
11
02 ExecutiveSummary
12
EXECUTIVE SUMMARY
The CEEC has created a new monitoring tool for keeping up with the progress of
association activities, the CEEC Control Panel, which is available to its members on
the website. The aim is to allow all members to see the goals set for 2011 and the
progress made towards achieving them, as well as to follow in detail the different
projects and activities on which the association is working.
The CEEC Control Panel is divided into the Cluster’s 5 general areas of action:
•Modification of Regulatory Frameworks or Environments. Participation in de-
bate forums for drawing up regulatory proposals and amendment proposals to
legal norms, regulations and ordinances. The following indicators are defined
on the Control Panel:
(1) Number of government institutions with whom CEEC is in contact.
(2) Number of initiatives in the regulatory sphere (proposals, drafting or amend-
ments) in which CEEC is participating.
(3) Agreements signed with private organizations or institutions.
Communication – Commercial Projection. Dissemination of information on
CONTROL PANEL
The Clúster d’Eficiència Energètica de Catalunya (Catalonia Energy Efficiency Clus-
ter) has defined a series of priorities for 2011, among them:
• Working group access to the market and project execution
• Attracting new members in accordance with the preliminary 2011 budget
• Holding meetings or open days for members to inform them of what CEEC is
doing and what it could do
• As well as to get their input on possible CEEC action
• Planning on publicising the CEEC and positioning it before the new Catalan
Administration.
To allow an overview of all CEEC activities, we have created a “control panel” tool,
described below.
CEEC PRIORITIES FOR 2011
13
EXECUTIVE SUMMARY
Energy Efficiency and CEEC activities. The following goals and their cor-
responding indicators are defined on the Control Panel:
(4) New members joining during a given year
(5) Informative Events
(5.1) EXTERNAL Informative Events. Number of open days, seminars and
trade fairs with CEEC participation
(5.2) EXTERNAL Informative Events. Number of people reached.
(5.3) INTERNAL Informative Events. Number of people reached.
(6) Newsletter. New subscriptions to the Newsletter in a given year
(7) Number of appearances in the media in a given year
•The Business Exchange: Innovation and Market Access. Identification and de-
velopment of lines of business. Introduction of products and services on the
market. The following indicators are defined on the Control Panel:
(8) Number of active working groups
(9) Number of CEEC documents drafted and disseminated
(10) Working group projects with access to the market
(11) Number of commissions to the CEEC for drawing up projects and studies.
•Detection of RDI and collaborative development opportunities. The following
indicators are defined on the Control Panel:
(12) Number of pilot projects carried out by WGs
(13) Research, Development & Innovation (RDI) Projects
(13.1) Number of RDI Projects submitted to calls & tendering processes
(13.2) Number of projects awarded
• Training. Training sessions for energy efficiency professionals. The following in-
dicators are defined on the Control Panel:
(14) Training initiatives carried out by CEEC
(14.1) Number of training initiatives on which CEEC collaborates
(14.2) Total number of students being trained
(14.3) Number of class or workshop hours taught by CEEC
Below is the CEEC Control Panel, showing the values attained for each indicator in
2010 and the goals the association has established for 2011.
GO
ALS
. IN
DIC
ATO
RS
FIG
UR
ES
20
10TA
RG
ETS
20
11
DE
GR
EE
OF
SU
CC
ES
S/
AC
HIE
VE
ME
NT
2011
DE
TAIL
S, I
NFO
RM
ATIO
N -
201
0FO
RE
CA
STS
- 2
011
MO
DIF
ICAT
ION
OF
RE
GU
LATO
RY
FR
AM
EW
OR
KS
OR
EN
VIR
ON
ME
NTS
(1) C
onta
ct w
ith G
ov-
ernm
ent
Inst
itutio
ns:
Num
ber
of g
over
nmen
t in
stitu
tions
with
who
m
CE
EC
is in
con
tact
(2) P
artic
ipat
ion
in t
he
Reg
ulat
ory
Sp
here
: P
rop
osal
s, D
raft
ing
or
Am
end
men
ts -
Num
ber
of
initi
ativ
es in
whi
ch
CE
EC
is p
artic
ipat
ing
(3) A
gree
men
ts s
igne
d
with
priv
ate
orga
niza
tions
or
inst
itutio
ns
INTE
RN
AL
& E
XTE
RN
AL
CO
MM
UN
ICAT
ION
(4) M
emb
ers:
New
m
emb
ers
join
ing
dur
-in
g a
give
n ye
ar (v
s.
mem
ber
s at
the
sta
rt o
f th
e ye
ar)
8 2 3
15 4 4
1- IC
AE
N (C
atal
onia
Ene
rgy
Inst
itute
)2-
Dip
utac
ió d
e Ll
eid
a (L
leid
a P
rovi
ncia
l Cou
ncil)
3-
Agè
ncia
de
l’Ene
rgia
de
Llei
da
(Lle
ida
Ene
rgy
Age
ncy)
4-
Dip
utac
ió d
e B
arce
lona
(Bar
celo
na P
rovi
ncia
l Cou
ncil)
5- D
MA
H (C
atal
an D
epar
tmen
t of
the
Env
ironm
ent
and
Hou
sing
)6-
IDA
E (I
nstit
ute
for
Ene
rgy
Div
ersi
ficat
ion
and
Con
serv
atio
n)7-
AC
C1Ó
(Cat
alan
age
ncy
for
com
pan
y co
mp
etiti
vene
ss)
8- A
gènc
ia C
atal
ana
de
l’Aig
ua -
AC
A (C
atal
an W
ater
Age
ncy)
1. IC
AE
N (C
atal
onia
Ene
rgy
Inst
itute
)2-
5. P
rovi
ncia
l Cou
ncils
(Dip
utac
ions
):
Llei
da,
Giro
na, T
arra
gona
, Bar
celo
na6-
9. L
ocal
Ene
rgy
Age
ncie
s: L
leid
a,
Giro
na, T
arra
gona
, Bar
celo
na10
. Cat
alan
Dep
artm
ent
of t
he E
nvi-
ronm
ent
and
Hou
sing
div
ides
into
tw
o (th
e D
MA
H c
ease
s to
exi
st)
11. H
ousi
ng A
genc
y of
Cat
alon
ia (f
or-
mer
ly A
DIG
SA
+ H
ousi
ng S
ecre
taria
t)12
. AC
C1Ó
(Cat
alan
age
ncy
for
com
-p
any
com
pet
itive
ness
)13
. Agè
ncia
Cat
alan
a d
e l’A
igua
- A
CA
(C
atal
an W
ater
Age
ncy)
- O
ther
s (ID
AE
- In
stitu
te fo
r E
nerg
y D
iver
sific
atio
n an
d C
onse
rvat
ion,
C
DTI
- C
entr
e fo
r In
dus
tria
l Tec
hno-
logi
cal D
evel
opm
ent.
..)
1- “
Ana
lysi
s of
Ele
ctric
Veh
icle
C
harg
ing
Sol
utio
ns a
t P
rivat
e P
arki
ng F
acili
ties”
doc
umen
t.
2- A
men
dm
ent
to t
he H
oriz
onta
l P
rop
erty
Act
1- D
raft
pro
pos
al o
n re
visi
ng t
he S
pan
ish
Com
ple
men
tary
Te
chni
cal I
nstr
uctio
ns (I
TC) s
pec
ific
to e
lect
ric v
ehic
les
and
EV
re
char
ge.
2- A
naly
sis
of h
ealth
-rel
ated
sec
tions
in t
he R
egul
atio
ns o
n Th
erm
al In
stal
latio
ns in
Bui
ldin
gs (R
ITE
), p
ossi
ble
IRE
C -
Wor
k-in
g G
roup
on
HVA
C p
roje
ct
1- C
OE
IC2-
CE
TIB
3- In
stitu
t C
erd
à
1- R
AIL
GR
UP
(Clú
ster
Fer
rovi
ari d
e C
atal
unya
- C
atal
onia
Rai
lway
Clu
ster
)2-
LIV
E (L
ogis
tics
for
Imp
lem
enta
tion
of E
lect
ric V
ehic
les)
Offi
ce3-
UP
C (T
echn
ical
Uni
vers
ity o
f Cat
alon
ia) a
nd o
ther
s
32 (2
1)64
32 n
ew m
emb
ers
join
ing
and
3 m
emb
ers
leav
ing
the
Clu
ster
(5.1
) EX
TER
NA
L In
for-
mat
ive
Eve
nts:
Num
ber
of
op
en d
ays,
sem
i-na
rs, c
ollo
qui
ums
and
tr
ade
fairs
with
CE
EC
p
artic
ipat
ion
1012
(5.2
) EX
TER
NA
L In
for-
mat
ive
Eve
nts:
Num
ber
of
peo
ple
rea
ched
(ap
-p
roxi
mat
ely)
1.00
01.
000
Mar
ch 2
010:
1. 9
/03/
2010
: Bus
ines
s in
Cle
an-
tech
& E
nviro
nmen
t S
umm
it (B
iCE
), E
SA
DE
2. 1
0/03
/201
0: S
emin
ar: O
pp
ortu
ni-
ties
and
Tre
nds
in t
he In
fras
truc
ture
an
d R
enew
able
s S
ecto
r in
the
US
May
201
03.
11/
05/2
010
Mee
ting
for
ex-
chan
ge b
etw
een
Cat
alan
clu
ster
s or
gani
zed
by
AC
C1Ó
; att
end
ance
: ap
pro
x. 5
0 p
eop
leJu
ne 2
010:
4. 0
9/06
/201
0: In
form
ativ
e M
eetin
g on
ICA
EN
sub
sid
ies
for
rene
w-
able
ene
rgy
and
ene
rgy
effic
ienc
y p
roje
cts
in 2
010
5. 1
4-15
/06/
2010
: Bar
celo
na T
ech
Sum
mer
Ses
sion
s, F
und
ació
b_T
EC
6. 1
6/06
/201
0: H
it B
arce
lona
-
Wor
ld In
nova
tion
Sum
mit
7. 1
8/06
/201
0: T
echn
ical
Sem
inar
: “E
nerg
y S
ervi
ce C
omp
anie
s”,
ICA
EN
Oct
ober
201
0:8.
14/
10/2
010:
Foc
us E
spai
s S
es-
sion
, AC
C1Ó
; att
end
ance
(ses
sion
d
ivid
ed in
to 4
the
mes
): : a
pp
rox.
25
peo
ple
.9.
25/
10/2
010:
Sem
inar
on
DH
C,
ICA
EN
; att
end
ance
: 120
peo
ple
Nov
emb
er 2
010:
10
. 15/
11/2
010:
Sem
inar
: Fór
mul
a-e,
CE
TIB
; att
end
ance
: 199
peo
ple
Janu
ary
2011
:1.
20/
01/2
011
Exc
hang
e m
eetin
g b
etw
een
INN
OVA
CC
and
C
EE
C c
lust
ers
Mar
ch 2
011:
2. E
nerg
y C
onse
rvat
ion
and
Effi
cien
cy a
t S
por
ts F
acili
ties
- M
icro
-Cog
ener
atio
n +
TA
C (I
CA
EN
)
Ap
ril 2
011:
3. 1
4/04
/201
1- E
V B
atte
ry F
orum
- In
tern
atio
nal C
ongr
ess
May
201
1:4.
3/0
5/20
11: E
nerg
y E
ffici
ency
in C
atal
onia
(Uni
dad
Ed
itoria
l p
ublis
hing
hou
se)
5. 1
6-21
/05/
2011
: Con
stru
mat
(Con
stru
ctio
n Tr
ade
Fair)
(5.3
) IN
TER
NA
L In
form
a-tiv
e E
vent
s: N
umb
er o
f p
eop
le r
each
ed (a
pp
roxi
-m
atel
y)
100
200
May
o 20
10:
3. 5
/05/
2010
: CE
EC
Wor
king
Gro
ups
pre
sent
atio
n d
ay; a
tten
-d
ance
: ap
pro
x. 1
00 p
eop
le
Febr
uary
201
1:1.
15/
02/2
011:
Mem
ber C
ompa
ny E
xecu
tives
Bre
akfa
st
D
ate
pend
ing:
2. C
EE
C W
orki
ng G
roup
s pr
esen
tatio
n da
y
(6) N
ewsl
ette
r: N
ew s
ub-
scrip
tions
to
the
New
s-le
tter
in a
giv
en y
ear
300
100
(New
slet
ter
laun
ched
in 2
010)
(7) P
rese
nce
in t
he M
e-d
ia: N
umb
er o
f ap
pea
r-an
ces
in t
he m
edia
in a
gi
ven
year
410
1. “
Ana
lysi
s of
Ele
ctric
Veh
icle
Cha
rgin
g S
olut
ions
at
Priv
ate
Par
king
Fac
ilitie
s” d
ocum
ent
2. W
orki
ng G
roup
s p
rese
ntat
ion
day
3. C
EE
C O
rdin
ary
Gen
eral
Ass
emb
ly
4. In
terv
iew
on
RA
C1
Ene
rgy
Pro
gram
me
1- G
uid
e to
Inst
alla
tion
of R
egul
atio
n E
V C
harg
e P
oint
s2-
Pos
ition
ing
of t
he E
SC
O b
usin
ess
sect
or o
n p
ublic
ligh
ting
- si
g-na
ture
of a
gree
men
t w
ith t
he B
arce
lona
Pro
vinc
ial C
ounc
il (D
IBA
)3-
CE
EC
Ord
inar
y G
ener
al A
ssem
bly
4- P
rese
ntat
ion
of IV
EA
pro
ject
res
ults
Oth
ers:
Pos
ition
ing
on t
he la
test
in e
nerg
y ef
ficie
ncy
on t
he r
adio
, TV
and
pre
ss
THE
BU
SIN
ES
S E
XC
HA
NG
E: I
NN
OVA
TIO
N A
ND
MA
RK
ET
AC
CE
SS
(8) N
umb
er o
f act
ive
wor
king
gro
ups
(con
sid
-er
ing
the
crea
tion
of n
ew
grou
ps
and
the
win
d-
ing
up o
f oth
ers
havi
ng
serv
ed t
heir
pur
pos
e)
1720
BU
ILD
ING
S:
1- T
herm
ally
Act
ivat
ed C
oolin
g (C
OM
SA
-EM
TE)
2- E
nerg
y M
anag
emen
t S
yste
ms
(CIR
CU
TOR
)3-
HVA
C -
Hea
ting,
Ven
tilat
ion
& A
ir C
ond
ition
ing
(SO
LER
&PA
LAU
)4-
Inte
llige
nt F
açad
es (A
BA
NTI
A)
5- E
SC
Os
for
Ed
ucat
iona
l Ins
titut
ions
(EN
ER
TIK
A)
MO
BIL
ITY:
6- In
fras
truc
ture
for
EV
Rec
harg
e (G
M)
7- E
ffici
ent
Mob
ility
(SIE
ME
NS
)P
UB
LIC
SE
RV
ICE
:8-
Pub
lic L
ight
ing
ES
CO
(GM
) 9-
Lig
htin
g E
SC
O (
CO
MS
A-E
MTE
)10
- 22
@ p
roje
ct (E
ND
ES
A)
11-
DH
C -
Dis
tric
t H
eatin
g &
Coo
ling
(AG
EFR
ED
) 12
- E
nerg
y E
ffici
ency
in T
unne
ls (G
PO
)IN
DU
STR
Y:13
- E
nerg
y E
ffici
ency
at
Live
stoc
k Fa
rms
(KR
OM
SC
HR
OE
DE
R)
14-
Ene
rgy
Effi
cien
cy in
Ind
ustr
ial P
roce
sses
(KR
OM
SC
HR
O-
ED
ER
)15
- Fo
od In
dus
try
ES
CO
(PA
MIA
S)
16-
Mic
ro-C
ogen
erat
ion
in t
he In
dus
tria
l Sec
tor
(SA
LIC
RÚ
)TR
AIN
ING
:17
- W
orki
ng G
roup
on
Trai
ning
(Sch
neid
er E
lect
ric)
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of c
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19
03 Association Organization
20
ASSOCIATION ORGANIZATION
ORGANIZATIONAL STRUCTURE AND OPERATIONAL REGULATIONSThe Regulations on the Organizational Structure and Operation of the Clúster
d’Eficiència Energètica de Catalunya (CEEC) association establish the Cluster’s or-
ganization and how it operates, in keeping with the applicable legislation in force
and the association’s Charter.
The cluster’s governing bodies consist of the General Assembly and the Board of
Directors, which defines the CEEC’s strategic lines. In addition, there is an Execu-
tive Committee, which carries out the executive functions delegated by the Board
of Directors, and a Technical Secretariat, which takes care of the Cluster’s adminis-
trative, accounting and fiscal tasks, as well as effecting the necessary image and
communication tasks.
In 2010, the position of Cluster Manager was created as part of the CEEC’s organi-
zational structure. The Manager’s main duties include managing the working groups
and serving as CEEC representative in communication activities and for institutional
relations.
At the CEEC Ordinary General Assembly on 21 September 2010, elections were
held for the new Board of Directors, which is now comprised of Circutor, Cofely,
Comsa-Emte, Istem Copcisa Industrial, Fundació b_TEC, ICAEN, IREC, Gas Natu-
ral, Kromschroeder, PGI Engineering, Salicrú, Schneider Electric, Siemens and
Soler&Palau.
BOARD OF DIRECTORS
CLUSTER MANAGER
TECHNICAL SECRETARIAT
EXECUTIVE COMMITTEE
PRESIDENT
GENERAL ASSEMBLY
21
ASSOCIATION ORGANIZATION
CEEC GOALSThe Clúster d’Eficiència Energètica de Catalunya (CEEC) was set up as a non-
profit Innovative Business Cluster (Agrupació Empresarial Innovadora, AEI)
comprised of companies that supply, promote or develop products and ser-
vices associated with energy efficiency. One of CEEC’s main lines of action is
to carry out joint research, innovation and technological development projects
focussing on energy efficiency.
CEEC Goals
• Strengthen the Catalan energy efficiency sector and its international
profile
• Increase member companies’ competitiveness and business opportuni-
ties on the energy efficiency market
• Ensure greater participation of member companies in energy efficiency
projects
• Achieve synergies through collaboration
• Foster innovation and its implementation in the marketplace.
• Serve as a flagship and represent the interests of the energy efficiency
sector as well as of individual members before public authorities, official
bodies and other corporations
• Establish a unified position in the sector such that it can play a more
important role in society as a whole.
• Promote training for energy-efficiency professionals
22
ASSOCIATION ORGANIZATION
MEMBERSThe CEEC closes the year 2010 with a total of 70 members, divided among founding,
full, collaborating and entrepreneurial members, its membership thus having grown
by 33 since 2009.
FOUNDING MEMBERS
FULL MEMBERS
23
COLLABORATING MEMBERS
ENTREPRENEURIAL MEMBERS
ecoterm
24
ASSOCIATION ORGANIZATION
As you can see from the list of members, the CEEC is comprised by com-panies in all the sectors involved in energy efficiency products, services and facilities:
INSTALLATIONS
CONSTRUCTION
ENGINEERINGELECTRICITY
CONSULTING
ENERGY
MAINTENANCE
FACILITIES
CONTROL AND
AUTOMATIONMOBILITY
RESEARCH
AUDITINGARCHITECTURE
MACHINERY PUBLIC
ADMINISTRATION
ENERGY
SERVICES
26
WORKING GROUPS
04 Working Groups
28
WORKING GROUPS
Initially, the 12 founding companies that launched the CEEC formed 7 working
groups. As the association has grown, other groups have joined with the aim of fos-
tering collaborative innovation among companies, such that in December of 2010,
the CEEC had 17 active working groups (WGs). The Institut Català d’Energia (Cata-
lan Energy Institute, ICAEN) also participates actively in all of these groups, created
on initiative of the companies involved.
In 2010, several working groups were discontinued because they had reached their
goals: the b_EFIEN project (MG Buildings), the LIMA project (MG Buildings) and the
22@ project (GM Public Services). However, they may be reinstated should new
motivations and/or related projects arise.
In 2011, several new working groups are planned and others may arise over the
course of the year on the initiative of CEEC member companies. By the same token,
the working groups having attained their established goals shall be shut down while
other groups emerge. Below is a description of the work carried out by the different
groups in 2010.
29
WORKING GROUPS
Màster en Edificació
MASTER GROUP ON MOBILITY
MASTER GROUP ON PUBLIC SERVICES
MASTER GROUP ON INDUSTRY
MASTER GROUP ON BUILDINGS
Thermally Activated Cooling(COMSA – EMTE)
Energy Management Systems(CIRCUTOR)
HVACSOLER&PALAU
Intelligent Façades(ABANTIA)
ESCOs for Educa-tional Institutions(ENERTIKA)
Electric Vehicle Charging Infrastructure
Efficient Mobility(SIEMENS)
ESCO Tenders in Public Lighting
ESCOs in the Public Lighting Industry(COMSA – EMTE)
District Heating and Cooling (AGEFRED)
Energy-Efficient Tunnels (GPO)
Fostering Cogene-ration in the Hospi-tal Sector(COFELY)
Micro-Cogeneration in the Industrial Sector(SALICRÚ)
Energy Efficiency on Livestock Farms(KROMSCHOEDER)
Energy Efficiency in Industrial Processes(KROMSCHOEDER)
ESCOs in the Food Industry(PAMIAS)
MASTER GROUP ON TRAINING
Training(SCHNEIDER ELECTRIC)
31
MASTER GROUP ON BUILDINGS
Working Group on Thermally Activated Cooling (TAC WG)
Working Group on Energy Management Systems (EMS WG)
Working Group on HVAC
Working Group on Intelligent Façades
Working Group on ESCOs for Schools and Other Educational Institutions
32
WORKING GROUPS
MASTER GROUP ON BUILDINGS - Master Group on Buildings
During 2010 this group did not carry out any specific actions as part of CEEC.
In 2011, the Buildings Department of the Catalonia Institute for Energy Research
(IREC) will take on the leadership of the Master Group (MG) on Buildings.
This Working Group will begin its activity during the first quarter of 2011, when a
global meeting of the working groups active within the Master Group on Buildings
framework will be held in order to identify synergies and possible shared points of
interest among the different companies participating.
Proposals for Launching the Groups
To begin debate and as a guiding theme, reflection is proposed on zero-energy
buildings, one of IREC’s main lines of work at present. Along the same lines as
European Directive 2002/91/EC of the European Parliament and of the European
Council on the energy performance of buildings (recast as Directive 2010/31/
EU), the aim is to work towards achieving the ‘20-20-20’ goals established by
the European Union by the year 2020:
• Reduce total greenhouse gas emissions by 20% with respect to 1990 levels
• Increase energy efficiency by 20%
• Increase the share of renewables in the energy mix by 20%
• Identify information on exemplary projects and good practices in Catalonia
and set up a system of collecting data or documentation that could be up-
loaded onto the website under the Master Group’s section as a database.
COMPANIES INVOLVED IN THE WORKING GROUP
Companies in the Master Group on Buildings interested in participating in the group.
MASTER GROUP ON BUILDINGS
•Name of the MG: MG Buildings
•Master Group: Buildings
•Date WG established: March 2011
WORKING GROUP GOALS
•Explore the possibility of submitting different research projects to calls for projects on both a national and
a European level, with the participation of one or several working groups of the CEEC’s Master Group on
Buildings.
• Identify information on exemplary projects and good practices in Catalonia and create a system of compil-
ing the information that could be in the form of an ‘information container’ (database) on the CEEC website,
under the Master Group section.
ACTIVITIES PLANNED FOR 2011
• Identifying synergies and possible connections and joint RDI projects between different members of the WG
• Reflecting on zero-energy buildings
• Analyzing national and European calls for projects, detecting lines concordant with the WG’s topics of inter-
est, preparing joint projects as collaborative efforts among different WG companies and submitting them.
METHODOLOGY
•Holding a general meeting of the working groups active under the Master Group on Buildings in order to
discuss the goals of the group and the specific work methodology established.
• Holding sub-group meetings according to the projects undertaken.
•Working Group coordinator:
33
34
WORKING GROUPS
Background and Goals
The Working Group on Thermally Activated Cooling (TAC WG), led by Comsa Emte,
began operating in 2009. The reflections and motivations behind its creation were to
expand on knowledge and foster thermally activated cooling technology, given the
advantages it represents over conventional cooling technologies.
Thermal comfort means peaks in electrical demand during the hottest seasons (which
have the highest incidence of solar energy) and solar air conditioning can help man-
age this demand. The substitution of the mechanical compression system by thermo-
chemical compression technology, with a very low level of noise and vibration, keeps
maintenance costs very low (few moving parts) and allows energy savings (harness-
ing waste/renewable heat). Saving on the electricity bill is one of the goals, since at
peak hours (when price is highest) production is greater and the power taken from the
conventional system is lower.
To avoid heat evacuation problems, solar domestic hot water/heating and cooling
systems can be used for winter and summer seasons, respectively, thus expanding
the use of the solar thermal system. CFC and HCFC-free systems will also be consid-
ered in this Working Group.
Activities Carried Out
This working group has carried out different activities in the field of thermally activated
cooling (TAC), such as identifying barriers to the application of thermally activated
cooling technologies (returns on investment not high enough and the need for special-
ized operation and management); and identifying existing technologies (absorption,
adsorption, solid desiccants, liquid desiccants). The study of technological alterna-
tives for auxiliary equipment (such as substitution of cooling towers with air heaters,
geothermal systems, consumption of waste heat for industrial processes, etc.); solar
thermal energy obtained through collectors (flat plate, vacuum tube or concentrating
solar collectors, solar air heating collectors, etc.) and the heat from generator cooling
circuits, industrial waste heat and the like, are also objects of analysis.
Technical and economic analysis of technologies is useful for ascertaining their de-
gree of implementation and comparing them (CREVER, COMSA EMTE, COFELY,
IREC, AIGUASOL, KROMSCHROEDER, SALICRU...). This working group (WG) is
working on knowledge transfer on thermally activated cooling technologies in order
to ascertain results and conclusions of research projects on a European level (AIGUA-
SOL): ROCOCO project, SOLAIR project and the Pompeu Fabra Library facilities in
Mataró. It also focuses on researching equipment suppliers and presentation of their
MASTER GROUP ON BUILDINGS – Working Group on Thermally Activated Cooling
35
WORKING GROUPS
products and know-how relating to thermally activated cooling systems: Ecovat, Eco-
term, Sedical, Petra Inventum (Solar Item).
Analyses of the viability, both technical and financial, of possible applications focuses
on the tertiary sector: healthcare centres, shopping centres, sports centres, hotels,
prisons, large buildings with high energy consumption, etc., and in the industrial and
agricultural sectors: cooling, heating and industrial refrigeration.
To collect data and analyze it, various visits were made to facilities with possibly high
energy consumption. Facilities visited were: DMAH, Alella Municipal Sports Centre,
Masnou Municipal Sports Complex, Club Natació Granollers (Granollers swimming
pool), Club Natació Calella (Calella swimming pool), Hotel Àrea de Servei de Bellat-
erra, Consorci Sociosanitari de Viladecans (Viladecans Social & Health Consortium),
Centre Assistencial Sant Joan de Déu d’Almacelles (Almacelles Healthcare Centre),
Hotel Salou, Codorniu (Codorniu wine cellars) and the Àgora student residence hall
in Barcelona.
As part of the activities carried out in 2010, this working group effected a technical
and financial study for application on the ESCO level at specific facilities (COMSAE-
MTE + COFELY): in an office building (DMAH), at a student residence hall (ÀGORA)
and a sports centre (Alella).
Visits to facilities with thermally activated cooling systems have had a certain weight
in the WG activities. Specifically, Ges Siemsa Tarragona and the Pompeu Fabra Li-
brary in Mataró were visited. Both facilities’ thermally activated cooling systems were
out of order. Different companies and institutions of the Working Group are working to
get them operating again and thus verify and demonstrate their viability.
Through the WG’s participation in the CEEC project as an Innovative Business Cluster
(Agrupación Empresarial Innovadora, AEI), it has obtained a subsidy from the Spanish
Ministry of Industry, Tourism and Trade (MITyC). It has also participated in prepar-
ing the European-wide project EFFIBEST (Best available technologies for energy ef-
ficiency in non-residential buildings: energy management systems, HVAC and smart
lighting) to apply for a subsidy from the European Commission through the SAVE
programme.
Other activities carried out in 2010 were defining the elements necessary for monitor-
ing thermally activated cooling systems (KROMSCHROEDER), analyzing the legal
framework for application and researching subsidies and financing programmes.
Activities Planned
Currently, the group is working on getting thermally activated cooling systems that are
out of order or not operating back into operation. The WG’s goal is to carry out main-
tenance, management and operation of the systems according to the ESCO model
36
WORKING GROUPS
(or similar), and to carry out monitoring and remote data collection for analysis and
in order to gain in-depth knowledge of the technology and its real application. The
specific systems are: absorption machine technology (Ges Siemsa Tarragona, 34kWf)
and solid desiccant technology (Pompeu Fabra Library in Mataró).
In the sphere of research, the working group will focus on sports centres. Moreover, it
will study other possible locations or facilities with high energy consumption in order
to analyze the viability of implementing thermally activated cooling technology.
Other future group activities planned include research and analysis of operation data
from existing thermally activated cooling installations (Afrisol, Pere Camps, etc.);
monitoring and analysis of energy consumption in buildings, with the data broken
down to establish buildings’ needs (the energy demand); monitoring and analysis
of extant cooling installations to ascertain their capacities (supply); carrying out a
presentation for the Working Group on Thermally Activated Cooling showing techno-
logical solutions offered by the group and their possible applications, both in ESCO
format and as an investment by the client; and participating in the Catalan Energy
Institute’s Energy Efficiency at Sports Facilities seminar, to be held in May 2011.
With regard to specific facilities, monitoring is significant, both in the technical-eco-
nomic evaluation of the viability of installing a monitoring system for thermally acti-
vated cooling systems or the cooling systems themselves (KROMSCHROEDER and
IREC), and in processing the data from systems monitoring (IREC); also, the instal-
lation of thermally activated cooling technology via visits to feasible locations and
collection of energy consumption data; thermal-economic evaluation of the viability
of installing thermally activated cooling technology (ISUNO, COMSA EMTE, COFELY,
ECOTERM and SALICRU); and studying the dual-option business plan: ESCO / client
investment (EMTE and COFELY).
WORKING GROUP ON THERMALLY ACTIVATED COOLING (TAC WG)
•Name of WG: Thermally Activated Cooling
•Master Group: Buildings
•Date WG established: January 2009
WORKING GROUP GOALS
Gaining greater knowledge on and foster thermally activated cooling technology, given the advantages it has over
conventional technology (mechanical compression):
• Management of electricity demand
• Energy conservation (and subsequent savings on the electricity bill)
• Reduction of noise levels
• Harnessing the waste heat of solar thermal systems
• CFC and HCFC-free systems
ACTIVITIES CARRIED OUT IN 2010
• Identification of barriers to application of thermally activated cooling technology
• Identification of existing technologies
• Studies of alternative technology for auxiliary equipment
• Technical and economic analysis of the different technologies
• Knowledge transfer on thermally activated cooling technologies and results and conclusions of research proj-
ects of European scope
• Research on equipment suppliers and presentation of their products and know-how on thermally activated
cooling
• Analysis of possible applications that are technically and economically viable
• Visits to prospective sites with high energy consumption: data collection and analysis
• Technical and economic studies for ESCO-level application at specific sites
• Participation in the CEEC project as an Innovative Business Cluster (Agrupación Empresarial Innovadora, AEI)
and request for subsidy from the Spanish Ministry of Industry, Tourism and Trade - subsidy granted
• Participation in preparing the CEEC project of EU scope, EFFIBEST (Best available technologies for energy ef-
ficiency in non-residential buildings: energy management systems, HVAC and smart lighting), and request for
subsidy from the European Commission through the SAVE programme - subsidy not granted.
• Participation in preparing the CEEC project of EU scope, ICT4E (Bringing together energy-efficiency stake-
holders to foster the role of ICT in low or zero energy neighbourhoods), with an application for subsidies to the
European Commission through its FP7 - pending resolution.
• Definition of the elements necessary for monitoring thermally activated cooling systems.
• Analysis of the applicable legal framework
• Research on subsidies and financing
•Working Group coordinator:
37
COMPANIES INVOLVED IN THE WORKING GROUP
ACTIVITIES PLANNED FOR 2011
•Putting TACs that are currently not operating back into operation and monitoring them through remote data
collection in order to analyze them and obtain more in-depth knowledge of the technology and its real
application
•Researching prospective sites for viable installation of thermally activated cooling
•Researching and analyzing operation data collected from TAC systems
•Monitoring and analysis of the energy consumption of buildings and its breakdown in order to ascertain needs
(demand)
•Monitoring and analysis of existing cooling installations to ascertain their capacities (offer)
•Carrying out a presentation of the ACT Group
•Participating in the Catalan Energy Institute’s Energy Efficiency at Sports Facilities seminar
METHODOLOGY
•Technical visits to facilities, analysis of implementation of TAC systems in ESCO format
• Viability studies for new installations
• Carrying out projects through sub-groups
38
ecoterm
WORKING GROUPS
MASTER GROUP ON BUILDINGS – Working Group on Energy Management Systems
Generally speaking, the Working Group on Energy Management Systems, led by
Circutor and consisting of companies in energy services, installation and mainte-
nance, equipment manufacture and software supply, began operating in 2010. The
goals of this WG are to define a measurement equipment package allowing telema-
nagement of energy consumption in buildings and public or private facilities with
the aim of establishing energy consumption ratios and collaborating in defining the
types of service to offer the government bodies.
Given the evolution that energy services are experiencing and the plans existing to
carry out projects in the sphere of administration in general, the working group has
reoriented its goals for 2011 as follows:
1. Research and carrying out energy management projects in buildings used
for different purposes, this being understood as the entirety of the services and
equipment necessary. Moreover, we intend to carry out a study relating energy
consumption and perceived comfort.
2. Defining the scope and drawing up a technical guide for building manage-
ment that will cover the following aspects:
• Necessary Service
• Technological Contribution
• Key Sectoral Consumption Ratios
Currently, due to the number of members in the working group, we believe it ne-
cessary to reorganize its operation to speed up project progress. Thus, the WG
may begin operating in sub-groups to avoid the problems that could arise between
companies with similar functions on the market.
40
WORKING GROUPS
WORKING GROUP ON ENERGY MANAGEMENT SYSTEMS (EMS WG)
•Name of WG: Energy Management Systems
•Master Group: MG Buildings
•Date WG established: July 2010
WORKING GROUP GOALS
•Develop and carry out projects to implement energy management and carry out a study on the relation be-
tween comfort and energy consumption in different types of buildings
•Draw up a practical technical guide relating the different sectors, key consumption ratios and technology
ACTIVITIES CARRIED OUT IN 2010
•Creation of the working group and its configuration
•Definition of WG activities
•Contact with the Administration in order to carry out a pilot project
ACTIVITIES PLANNED FOR 2011
1. Two-pronged approach:
•Joint work to draw up the guide
•Creation of sub-groups to carry out projects
2. Definition of the scope and drawing up the technical guide for building management covering the following
aspects:
•Necessary Service
•Technological Contribution
•Key Sectoral Consumption Ratios
3. Research and carrying out energy management projects for different types of service:
•Drawing up explanatory notes on the projects
•Comparison between the different types of applications carried out
METHODOLOGY
•Meetings with users to define specific needs
•Monthly coordination meetings for the different points
• Carrying out the application projects via sub-groups
•Working Group coordinator:
41
COMPANIES INVOLVED IN THE WORKING GROUP
42
WORKING GROUPS
MASTER GROUP ON BUILDINGS – Working Group on HVAC
This working group is led by Soler&Palau and among its goals and main lines of
work are fostering energy efficiency projects in heating, ventilation and air condi-
tioning (HVAC) for residential, commercial and industrial space.
Heating, ventilation and air conditioning are undergoing major evolution and con-
vergence. The projects the WG will develop and carry out will use all the latest tech-
nology available on energy efficiency: adjustment of airflow according to need, ven-
tilation with heat recovery, air conditioning incorporated into the system as in-duct
devices, sensors for parameters such as humidity, temperature and CO2, regulation
devices, continuous airflow, use of high-performance motors, in particular brush-
less ones, etc.
One of the goals is to build an energy-efficient joint offer among the HVAC Group
members. The aim is to create a global HVAC offer for passive buildings, which
would mean that the companies in the group can supply all the equipment and
components required, as well as their installation, control and maintenance.
Although the passive house or passive building concept also includes (micro-) gen-
eration of energy (solar thermal, photovoltaic or mini wind turbine), the HVAC Work-
ing Group does not touch upon this aspect.
The technical and commercial synergies among members of the working group
must be discovered and fostered. Doubtless that among the group members syn-
ergies and collaboration opportunities will arise, both from a technical and a com-
mercial standpoint. The creation of offers will allow our group members to expand
their catalogue of products. Synergies may also arise with regard to expenses, as
members may be able to share certain expenses such as creation of specific web-
sites, publishing joint catalogues, shared attendance at fairs, etc.
The latest technologies and innovations in energy efficiency must be made known
and included in the CEEC’s HVAC projects. The inclusion of said latest technolo-
gies in energy efficiency in the companies’ product range will be accompanied by
the corresponding dissemination of information, which can be online, on paper, in
the form of presentations, conferences, seminars and so forth, aimed at different
groups such as installation engineers, customers, distributors, congresses, fairs,
professional associations, technical schools and universities, etc.
43
WORKING GROUPS
Among the established lines of work is to make the WG a flagship of HVAC effi-
ciency, with influence in the legal sphere and before the Administration.
This working group aims to become a depository of knowledge on energy efficiency
in HVAC, such that said knowledge will have to be made available to the gov-
ernment, in particular to the bodies passing laws and establishing regulations. In
particular, this WG should aim to influence or contribute to the Spanish Technical
Building Code (Código Técnico de la Edificación) and the Spanish Regulations on
Thermal Installations in Buildings (RITE). In addition to the regulations facet, the
group may contribute notably by drawing up a compendium of good practice in
energy efficiency.
Air Quality SOLER&PALAU
Energy Production BAXI ROCA HITECSA
Control and Use
ManagementDELTA DORE E-CONTROLS
Installation and Operation
COMSA EMTE ISTEM
Demand Reduction
SAAS
Design and Simulation
ABAC IBINSER
Innovative product with added value over individual solutions
Building Types
Dwellings and Hotels
Shopping Centres
Hospitals
Offices
INCREASE IN PROJECTS CARRIED OUT
IMPROVEMENT OF ENERGY EFFICIENCY
New Buildings
Renovation
WORKING GROUP ON HVAC
•Name of WG: Working Group on HVAC
•Master Group: MG Buildings
•Date WG established: June 2010
WORKING GROUP GOALS
•Carry out projects for implementation of HVAC management and a study on the relationship between comfort
and consumption.
• Foster energy efficiency in renovation and air conditioning of residential, commercial and industrial space.
• Build an energy efficient joint offer among the HVAC Group members.
• Discover and foster technical and commercial synergies among WG members.
• Dissemination on and inclusion of the latest technologies and innovations in energy efficiency in our HVAC
projects.
• Become a flagship of HVAC efficiency, with the capacity to exercise influence in the regulatory sphere and
before government institutions.
ACTIVITIES CARRIED OUT IN 2010
•Establishing, expanding and consolidating the working group
• Drawing up a document presenting the group, its goals and its member companies
• Preparation of the group’s participation in the international construction trade fair, Construmat, by organizing
a round table and a presentation
ACTIVITIES PLANNED FOR 2011
•Participating in the Construmat trade fair (May 2011)
• Carrying out a pilot project to demonstrate efficient HVAC technologies in an emblematic building (January -
June 2011)
• Analysis of weaknesses in the Regulations on Thermal Installations in Buildings (RITE) and proposals for
improvement (January - June 2011)
• Exploration of possible commercial synergies among group members (year 2011)
• Participating in fairs, forums and seminars allowing dissemination of knowledge on efficient HVAC technolo-
gies and innovations (year 2011)
METHODOLOGY
•Holding monthly general meetings
• Work in sub-groups according to the different tasks and discussion of work done and to be done at meetings
•Working Group coordinator:
COMPANIES INVOLVED IN THE WORKING GROUP
44
46
WORKING GROUPS
MASTER GROUP ON BUILDINGS – Working Group on Intelligent Façades
Goals
This working group, led by Abantia, which is the group’s company specializing in
building maintenance, began its activity in 2010 with the goal of developing prod-
ucts, equipment or systems for improvement of the energy efficiency of building
façades, integrating functions and automating functionality adapting it to outdoor
and indoor conditions; adding other improvements (soundproofing, indoor environ-
mental quality, etc.); focussing its activities on the thermal envelope, ventilation and
climate control, indoor natural lighting and energy, and seeking to develop systems
for façade renovation that can be easily integrated.
Activities Carried Out
In 2010, the working group carried out the following activities:
1. Configuration of the group, with Delta Dore immediate joining the group as a spe-
cialist in software for systems control and integration, and the subsequent joining
of PGI Engineering, an engineering and consulting company specializing in energy-
efficient buildings. The group considers that it also needs consultants specializing
in façades, and steps have been taken in this direction, with the hope that the inter-
est expressed by several companies will lead some of them to join the group.
2. Definition of priorities. The WG focussed on façade renovation, since this would
seem strategically the best step given the current economic climate. Specifically,
the group has begun to analyze the possibilities of buildings with glass façades,
since they generally display poor energy efficiency. The WG analyzed other types
of façades in the case of buildings with high energy consumption or a high degree
of indoor discomfort.
3. Commercial activities. The WG provided support to the Abantia Group to can-
vass prospective clients for whom it already takes care of building maintenance.
Activities Planned
The goals established by the working group for 2011 are as follows:
1. Final validation of the measures protocol and data collection at buildings belong-
ing to current clients (currently under development) in order to propose an energy
efficiency enhancement study, focusing on the group’s goals: the integration of
functions and automation of operation to adapt it to the indoor and outdoor condi-
tions of the building.
2. Completing the consolidation within the group of the teams necessary to advance
in the two lines of work that can produce best results under current circumstances:
glass facades or façades of a more industrial component, and conventional facades
of masonry with windows and balconies.
47
WORKING GROUPS
3. Establishment of appropriate procedures for advancing most effectively in at-
tracting potential clients or interested ESCO-type companies. The aim in each case
is to carry out a study and make a proposal for improvements to help clients decide
to invest in energy efficiency for facades (and other necessary action). This requires
analyzing the technology within the scope of CEEC member companies and using
creativity to include and propose innovative aspects.
4. There is also the possibility of developing new products, equipment or systems
for energy-efficient façades and integrating functions such as enhancing the ther-
mal envelope, ventilation and lighting.
5. Show the procedures followed and the acquisition of knowledge in the working
group in a guide covering different types of buildings that can serve in the future
as a reference work for implementing energy efficiency enhancement measures on
façades.
6. Be open to WG members’ proposals for new lines of work, group reorientation
according to specific circumstances, etc.
THERMAL ENVELOPE
NATURAL LIGHTING INSIDE
VENTILATION AND CLIMATE CONTROL
ENERGY
ACTION PLANNING AND INFORMATIVE
SHOPPING
ENERGY PRE-DIAGNOSIS AND
DIAGNOSIS
IMPLEMENTA-TION OF IM-
PROVEMENTS
STUDY AND SUGGESTIONS FOR
IMPROVEMENT
MONITORING AND ANALYSIS
WORKING GROUP ON INTELLIGENT FAÇADES
•Name of WG: Working Group on Intelligent Façades
•Master Group: MG Buildings
•Date WG established: July 2010
WORKING GROUP GOALS
Develop products, equipment or systems for improving the energy efficiency of façades:
1. Integrating functions and automating operation through adjustment to indoor and outdoor conditions
2. Adding other measures (sound insulation, indoor environmental quality, etc.)
3. Focussing measures on the thermal envelope, ventilation and climate control, natural indoor lighting and
energy
4. Seeking to develop easily deployable systems for façade renovation
ACTIVITIES CARRIED OUT IN 2010
•Configuration of the working group
•Definition of priorities: façade renovation
• Commercial action aimed at prospective clients
ACTIVITIES PLANNED FOR 2011
•Validation of the protocol of measures and data collection at buildings belonging to current clients
• Completing the consolidation of the group’s two main lines of work: glass facades or façades of a more
industrial component, and more conventional facades
• Establishment of appropriate procedures for attracting potential new clients, considering ESCO-type com-
panies as prospective clients as well
• Developing new products, equipment or systems for energy-efficient façades and integrating functions
• Show the acquisition of knowledge in the working group through a guide covering different types of buildings
METHODOLOGY
•Holding monthly working group meetings
• Individual work or in sub-groups according to the activities programmed at the meetings
•Working Group coordinator:
COMPANIES INVOLVED IN THE WORKING GROUP
48
50
WORKING GROUPS
MASTER GROUP ON BUILDINGS – Working Group on ESCOs for Schools and Other Educational Institutions
Goals
This working group (WG), established in 2010 and coordinated by Enertika, aims to
study and develop customized solutions for implementation of the Energy Service
Company (ESCO) business model at schools and other educational institutions.
Activities Carried Out in 2010
In 2010, through periodical meetings, the following activities were carried out: train-
ing on the ESCO business model, its principals and how it functions; identification
of competencies among the different group members and their potential contribu-
tions to the different tasks required in an ESCO project; identification of a network
of potential contacts and generation of prospective business opportunities.
Analyses and reflections made during the last quarter of 2010 have revealed the
need to segment potential clients and/or action with the aim of studying and cor-
rectly evaluating the most efficient, customized solutions. The group has thus es-
tablished two main categories:
1. Educational Centres with Small or Medium Surface Areas: Generally primary and
secondary schools (CEIP, IES). Such educational centres usually have surface areas
of some 3,000-4,000 m2 and are characterized by medium to low energy intensity
and simple facilities. They usually do not have cooling systems, with the exception
of possible stand-along cooling units for administrative and faculty offices.
2. Educational Centres with Large or Very Large Surface Areas: Business schools
and universities. Such educational centres usually have surface areas of more than
5,000 m2 and are characterized by medium to high energy intensity, often having
heating and air conditioning systems.
According to these categories, two potential sub-groups for project generation
have been identified:
1. Secondary Schools (IES)
Primary and secondary schools represent a challenge for the ESCO model, which
is normally implemented in large-scale projects at facilities with significant con-
sumption levels. The main doubt relative to this application of the ESCO model is
whether, given the initial consumption (usually between € 15,000 and € 30,000 per
year), it is possible to generate sufficient savings on energy costs to recoup the ini-
tial investments in improvements and justify ESCO interest. In the face of this chal-
51
WORKING GROUPS
lenge, secondary schools seem a priori more interested than primary schools, since
the corresponding energy costs are directly at the expense of the Catalan Govern-
ment’s Department of Education and not the City Council. This characteristic allows
consideration of a possible future pooling of assets (grouping together more assets
in a single project so as to enhance the average performance of projects as a whole)
in order to generate synergies and economies of scale for ESCOs.
The companies forming the working group –Istem, Dexma and Enertika– have vol-
unteered their availability to participate on a pilot project for basic monitoring of one
or two secondary schools. The centres will be selected with the collaboration and
monitoring of the Catalan Energy Institute (ICAEN), which will study the possibili-
ties of support and financial aid, since it is a project falling within its specific field
of interest.
Some of the general advantages that managing energy at government facilities
would be:
1. Education and awareness-raising on energy issues among school users allows
the creation and development of a generation of environmentally-conscious stu-
dents also aware of their social environment. These values, directly related to sus-
tainability, could form part of student’s educational program.
2. A possible centralized database of the assets assigned to such expenses in
Catalonia would serve as an informative and management tool as well as a guide
for other Autonomous Communities of Spain.
In conclusion, studying and implementing ESCO projects at primary and secondary
schools would be beneficial and are considered desirable measures.
2. Universities and Other Institutions of Higher Education
This area of work focussing on large-dimension institutions of higher education en-
joys the support of the UPC’s experience in its UPC02 project, focussing on moni-
toring energy consumption with subsequent handling of the inefficiencies detected
and which has contributed savings of approximately 30% on energy consumption
for heating. Indeed, universities are major energy consumers with a large margin for
energy efficiency improvement. Thus, they are a good opportunity for applying the
model of outsourced energy services.
The goal established by the working group is to extrapolate from the UPC’s solution
and experience and analyze its appropriateness for outsourcing energy services at
52
WORKING GROUPS
institutions of higher learning in ESCO contract format. Work is currently being done in this direction: the WG is
evaluating what the UPC’s collaboration should consist of and seeking centres with less economic resources
and the technical capacity necessary for carrying out projects of these characteristics without the need for an
ESCO.
In this sub-group, Enertika will contribute its knowledge and experience with schools; Dexma, the technology
(software); and Intem will be the energy service company responsible for monitoring and maintenance of instal-
lations.
53
WORKING GROUPS
WORKING GROUP ON ESCOS FOR SCHOOLS AND OTHER EDUCATIONAL INSTITUTIONS
•Name of WG: Working Group on ESCOs for
Schools and Other Educational Institutions
•Master Group: Buildings
•Date WG established: July 2010
WORKING GROUP GOALS
Study and develop customized solutions for implementing the Energy Service Company business model at
different types of educational institutes.
ACTIVITIES CARRIED OUT IN 2010
•Training on the ESCO business model, its principles and functioning in general.
• Identification of competencies of the working group’s different participants and their potential contributions to
the different activities of an ESCO project
• Identification of a network of potential contracts and generation of potential business opportunities
• Identification of two lines of work:
1.Small and Medium-Sized Educational Institutions: Primary and Secondary Schools
2.Large Educational Institutions: Universities and Other Institutions of Higher Learning
ACTIVITIES PLANNED FOR 2011
•Primary and Secondary Schools:
1.One or two pilot projects for basic monitoring of one or two secondary schools
2.Evaluation of potential energy savings
•Universities and Other Institutions of Higher Education:
1.Definition of collaboration with the UPC (Technical University of Catalonia)
2.Definition of the optimal adaptation of the UPC’s project to an ESCO contract model
3.Carrying out a project to outsource energy services at a university
METHODOLOGY
•Periodical meetings of sub-group members
• Visits to facilities, making offers, implementing measures
• Meetings of the entire working group to share sub-group experience and results
•Working Group coordinator:
COMPANIES INVOLVED IN THE WORKING GROUP
ASSOCIATION ORGANIZATION
55
MASTER GROUP ON MOBILITYWorking Group on Electric Vehicle Infrastructure (EVI WG)
Working Group on Efficient Mobility
56
WORKING GROUPS
MASTER GROUP ON MOBILITY – WG on Electric Vehicle Charging Infrastructure (EVC WG)
The main goal of this working group (WG), created in 2009, is to identify the non-
technological barriers associated with electric vehicle (EV) charging infrastructure
that can prevent proper implementation of this type of vehicles. This involves ana-
lyzing barriers of a regulatory type, lack of knowledge of the sector among non-
specialized groups, etc. Initiatives are then carried out via sub-groups to minimize
the impact of such barriers.
The great number of specialists comprising the working group from different sec-
tors related to electric vehicle implementation (manufacturers, equipment suppliers,
energy suppliers, users, etc.) ensures a sound selection of projects and their proper
execution, data interpretation and dissemination of results.
Activities Carried Out in 2010
The work carried out by the working group in 2010 focussed on reviewing regula-
tions affecting electric vehicles; preparing a version in article format of the docu-
ment, “Análisis de soluciones de recarga del vehículo eléctrico en aparcamientos
privados” (“Analysis of Electric Vehicle Charging Solutions at Private Parking Facili-
ties”, published by the working group in 2009 and available to the general public
through the CEEC website) for its publication in a specialized journal in the sector,
and a pilot project to install a regulation charge point in a multiple-user private
parking facility in Barcelona. The group also began to draw up a guide on installing
regulation EV charge points at private community parking garages, aimed at elec-
tric vehicle users, developers and building administrators; and fostering the IVEA
project (a study on electric mobility aiming to propose specific solutions and recom-
mendations for adaptation of mobility policy to fit electric vehicle needs).
Activities Planned for 2011
In 2011, the working group plans to: publish the article, “Análisis de soluciones
de recarga del vehículo eléctrico en aparcamientos privados” (“Analysis of Electric
Vehicle Charging Solutions at Private Parking Facilities”) in the ELECTRA journal;
adapt and publish the article in a construction sector journal (aimed at developers
and builders); revise the Spanish Complementary Technical Instructions (ITC) of the
Electrotechnical Regulations on Low Tension (REBT) specific to electric vehicles
and submit the final proposal to the Spanish Ministry in question, as well as moni-
toring progress on this issue.
57
WORKING GROUPS
The WG also plans on publishing the Guide to Installing Regulation EV Charge Fa-
cilities at Private Community Parking Garages and publicise it via seminars and by
carrying out at least two pilot projects to install EV charge points at multiple-user
private parking facilities, to be included in the Guide as practical examples and
covering cases of new as well as extant parking facilities.
The WG shall carry out a study on the costs of installing a recharge point in a private
parking facility according to the different stages of generalization of electric vehicle
use. Completion of the IVEA project, publication of the results and publicizing them.
Disseminating the knowledge generated within the framework of the working group
among the sectors involved in the proper development and deployment of electric
vehicles (government agencies, specialists, building administrators, developers,
etc.).
WORKING GROUPS
WORKING GROUP ON ELECTRIC VEHICLE CHARGING INFRASTRUCTURE
•Name of WG: Working Group on Electric Vehicle
Charging Infrastructure
•Master Group: Mobility
•Date WG established: 2009
WORKING GROUP GOALS
•Detecting non-technological barriers to the generalization of electric use in Catalonia relating to the necessary
EV charging infrastructure
•Minimizing these barriers by modifying regulations, disseminating knowledge on electric vehicle charging
infrastructure (drawing up guides, carrying out studies…)
ACTIVITIES CARRIED OUT IN 2010
•Revised regulations relating to electric vehicles
• Prepared a version in article format of the document, “Análisis de soluciones de recarga del vehículo eléc-
trico en aparcamientos privados” (“Analysis of Electric Vehicle Charging Solutions at Private Parking Facili-
ties” for publication in a specialized journal
• Pilot project to install an EV charge point in a multiple-user private parking facility in Barcelona
• Began drawing up a guide on installing regulation EV charge points at private community parking garages,
aimed at electric vehicle users, developers and building administrators
• Fostering the IVEA project: a study on electric mobility with the aim of producing specific solutions and
recommendations for adaptation of mobility policy to fit electric vehicle needs
•Working Group coordinator:
COMPANIES INVOLVED IN THE WORKING GROUP
58
WORKING GROUPS
ACTIVITIES PLANNED FOR 2011
•Publishing the article, “Análisis de soluciones de recarga del vehículo eléctrico en aparcamientos privados”
(“Analysis of Electric Vehicle Charging Solutions at Private Parking Facilities”) in the ELECTRA journal
•Adapting and publishing the article in a construction sector journal (aimed at developers and builders)
•Revising the Spanish Complementary Technical Instructions (ITC) of the Electrotechnical Regulations on
Low Tension (REBT) specific to electric vehicles and submitting the final proposal to the Spanish Ministry in
question, as well as monitoring progress on the issue
•Publishing the Guide to Installing Regulation EV Charge Facilities at Private Community Parking Garages
and publicising it via seminars
•Carrying out at least two pilot projects to install EV charge points at multiple-user private parking facilities,
to be included in the Guide as practical examples and covering cases of new as well as extant parking
facilities
•Carrying out a study on the costs of installing an EV charge point in a private parking facility according to
the different stages of generalization of electric vehicle use.
•Completing the IVEA project, publishing the results and publicizing them
•Disseminating the knowledge generated within the framework of the working group among the sectors
involved in the proper development and deployment of electric vehicles (government agencies, specialists,
building administrators, developers, etc.)
•Participating in seminars
METHODOLOGY
•Work in sub-groups and monthly meetings to discuss the progress made on the different projects
59
COMPANIES INVOLVED IN THE WORKING GROUP
60
WORKING GROUPS
MASTER GROUP ON MOBILITY – Working Group on Efficient Mobility
This working group (WG), established in 2010 and led by Siemens, focuses on proj-
ects for improving surface street traffic, analyzing mobility both with regard to the
vehicles (tramways, buses, cars, motorcycles) and to efficient management of the
infrastructures they use.
Activities Carried Out in 2010
In 2010, the WG carried out the following:
1. Researched possible projects for the 7th EU Framework Programme (FP7).
After surveying the calls for projects, the WG considered submitting the following
projects:
Energy Consumption Reduction in Urban Rail Systems, (SST.2011.1.1-4). Pilot proj-
ect for a station including a reversible substation and accumulation. After a series of
meetings with a Catalan business consortium, a proposal was devised and submit-
ted to the European Commission under the leadership of UITP and UNIFE.
ICT for Clean and Efficient Multi-modal Mobility (ICT 2011-6.6, b). After analyzing
an existing proposal put forth by the UPC’s Centre for Transport Innovation (CENIT)
and identifying working group members’ fields of interest, a sub-group was created,
led by CENIT and with the participation of COMSA-EMTE and SENER, to develop
a joint proposal. The project was not submitted due to lack of time and is now on
hold, awaiting submission to a future call for proposals.
2. White Paper on Efficient Mobility
In late 2010, the WG decided to focus its efforts on drawing up a White Paper to
present reflections on solutions allowing improved surface street traffic in the city
of Barcelona. The aim is to detect specific government needs from which project
opportunities may arise.
Activities Planned for 2011
In 2011, the WG plans on working on the following:
1. White Paper on Efficient Mobility
One of our goals in 2011 is to draw up and publish the stated White Paper and ef-
fect a round of interviews with agents in the mobility sector to identify the sector’s
specific needs.
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WORKING GROUPS
2. Energy-Efficient Tramway Project
The working group has contacted TRAMVIA METROPOLITÀ to take up a project
jointly initiated by SIEMENS and TRAMVIA METROPOLITÀ in the sphere of energy
efficiency. In this regard, we are receiving support from the Catalan Energy Institute
(ICAEN) in seeking subsidies and/or financing for the project.
3. Other Projects
Proposals for new projects in the sphere of efficient mobility will most likely be
generated on the basis of drawing up the White Paper or analyzing new energy ef-
ficiency in transport project calls, as well as through group member initiative.
WORKING GROUPS
WORKING GROUP ON EFFICIENT MOBILITY
•Name of WG: Working Group on Efficient Mobility
•Master Group: Mobility
•Date WG established: June 2010
WORKING GROUP GOALS
Improving surface street traffic, analyzing mobility both with regard to the vehicles (tramways, buses, cars,
motorcycles) and to efficient management of the infrastructures they use.
ACTIVITIES CARRIED OUT IN 2010
•Researched possible projects for the 7th EU Framework Programme (FP7). Worked on the following proposals:
1. Energy Consumption Reduction in Urban Rail Systems
2. ICT for Clean and Efficient Multi-modal Mobility
• Defined a new line of work for the group: White Paper on Efficient Mobility analyzing possible solutions for
improving surface street traffic in the city of Barcelona
ACTIVITIES PLANNED FOR 2011
•Drawing up the White Paper on Efficient Mobility
• Energy-Efficient Tramway Project
• Analyzing other possible projects for the working group
METHODOLOGY
•Work in sub-groups and monthly meetings to discuss the progress made on the different projects
• Periodical meetings with key sector agents
•Working Group Coordinator:
COMPANIES INVOLVED IN THE WORKING GROUP
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WORKING GROUPS
WORKING GROUPS
65
MASTER GROUP ON PUBLIC SERVICESWorking Group on ESCO Tenders in Public Lighting
Working Group on ESCOs in the Public Lighting Industry
Working Group on District Heating and Cooling (DHC WG)
Working Group on Energy-Efficient Tunnels (Energitúnels WG)
Working Group on Fostering Cogeneration in the Hospital Sector
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WORKING GROUPS
MASTER GROUP ON PUBLIC SERVICES – Working Group on ESCO Tenders in Public Lighting
This working group (WG) was set up in late 2010 to meet the need of certain com-
panies entering tendering processes to ascertain the position of the business sec-
tor with respect to tenders for public lighting energy services in order to adapt their
future schedules of terms and conditions to these positions. Indeed, a series of
conditioning factors exist that elicit the interest of the different market agents in
ascertaining the viewpoint of the ESCOs:
• Entrance of ESCOs onto the public lighting market, primarily due to the promo-
tion of the Government (Genercat 2000ESE plans, etc.)
• Major growth forecast in this sector once the projects undertaken demonstrate
the model’s advantages
• Need to establish the positioning of ESCOs in public lighting to orient the ten-
dering parties and increase the chances for success in the tendering process
• Evaluation of the possibly high economic impact of the tenderers’ having to
repeat the preliminary auditing process
• Need to optimize the tendering process and make it more efficient, with a gen-
eral vision of the resources allocated by both the city council and the tenderers
in the preliminary audits.
Thus, the group, comprised by energy service companies (ESCOs), has the follow-
ing goals:
1. Establishing the business sector’s position with respect to tenders for energy
service suppliers in public lighting
2. Drawing up a document on the ESCOs positions with respect to different the
aspects to be considered (technical, legal, contractual) in this type of tenders and
arriving at a common position
3. Publishing and disseminating the document. A document will be drawn up based
on consensus and reflecting the ESCOs’ position, which will be open to review
by other CEEC companies, such that they may contribute suggestions, comments
and/or modifications before the document is publicly disseminated
WORKING GROUPS
WORKING GROUP ON ESCO TENDERS IN PUBLIC LIGHTING
•Name of WG: Working Group on ESCO Tenders in
Public Lighting
•Master Group: Public Services
•Date WG established: November 2010
WORKING GROUP GOALS
•Establishing the business sector’s position with respect to tenders for energy service provision in public lighting
•Drawing up a document on the ESCOs’ position with respect to this type of tenders
•Publishing and disseminating the document
ACTIVITIES CARRIED OUT IN 2010
•The group was set up. Goals were defined and the first meetings held.
ACTIVITIES PLANNED FOR 2011
•Drawing up a document on the ESCOs’ position with respect to tenders for energy service provision in public
lighting (January-February)
•Making the document available to the rest of CEEC members for them to contribute proposals for revision
and/or modifications (March)
•Publishing and disseminating the final document (April-May)
METHODOLOGY
•Holding fortnightly meetings.
• Reaching a consensus on aspects regarding outsourcing energy services in public lighting for a specific mu-
nicipality at each meeting. Defining the aspects to discuss at the following meetings.
• Holding WG meetings in which each ESCO expresses its viewpoint on the different aspects to be considered
(technical, legal, contractual) in order to reach a consensus.
•Working Group coordinator:
COMPANIES INVOLVED IN THE WORKING GROUP
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WORKING GROUPS
MASTER GROUP ON PUBLIC SERVICES – Working Group on ESCOs in Public Lighting
Background and Goals
The CEEC’s Working Group on ESCOs in Public Lighting (Lighting WG), led by Comsa
Emte, began operating in late 2008. It continues pertinent and active, strengthened by
promotion of energy service company (ESCO) business models by the Government.
From the start, the group began working on a model outsourcing contract for energy
services relating to street lighting systems mainly oriented towards town councils as
potential clients, establishing the proposal of drawing up contracts and developing
ESCO projects. Once the decision was made to use this contract model, the situation
was analyzed and the most important aspects were established, as follows:
•Current economic climate
•Spanish Royal Decree 1890/2008 - Energy Efficiency in Public Lighting Systems
Regulations
•Age / Energy inefficiency of municipal lighting facilities
•New technologies and development of energy-efficient equipment (lamps, reac-
tance, management systems, etc.).
On the basis of this analysis, the Lighting WG proposed a model with a single final
goal: create an ESCO to renovate and/or improve public street lighting facilities in
different municipalities to make them fully energy efficient. In this contract model, the
ESCO makes the investment, recouping it through energy savings attained by imple-
menting its energy efficiency proposals.
With the aim of establishing an atmosphere of trust and transparency with the pos-
sible client, the model proposed by the Lighting WG includes a first stage during
which the following measures are carried out:
•Energy audit of the street lighting facilities
•Viability study and drawing up the technical and legal documentation for out-
sourcing energy facilities management to ESCOs
These measures are considered fundamental for setting up an ESCO that will be fully
operational, economically viable and energy efficient. That is, they must allow the
Lighting WG to gain real knowledge of the state of the facilities and their characteris-
tics and operation to establish the viability of an ESCO and define the measures to be
carried out by it, its scope and the targeted results.
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WORKING GROUPS
The second stage defined by the Lighting WG corresponds to the execution of the
ESCO according to the conditions described in the project for viable energy facilities
management for Energy Service Companies.
Activities Carried Out in 2010
In late 2009, after seeking prospective clients for the business model in question, the
Lighting WG provided support and orientation to two town councils in Catalonia to
apply for public aid from the Catalan Energy Institute (ICAEN) for energy efficiency and
conservation subsidies within the framework of the Action Plan for Energy Efficiency
and Conservation Strategy (DOGC 28/09/2009), in order for them to obtain subsidies
to carry out the studies enabling the Lighting WG model to be put into practice.
Two different subsidies were requested, for: Energy Audit of Outdoor Lighting Facili-
ties and Viability Study for Outsourcing Street Lighting Facilities to an ESCO.
These studies would allow the working group to gain real knowledge of the state of
the facilities and their characteristics and operation to establish the viability of an
ESCO and define the measures to be carried out by it, its scope and the targeted
results.
The town councils in question were:
•Vidreres Town Council (Province of Girona): Streetlights: ± 2,000 / Inhabitants: ±
5,500
•Cardedeu Town Council (Province of Barcelona): Streetlights: ± 4,500 / Inhabit-
ants: ± 17,000
Finally, ICAEN granted a subsidy for the viability study for an ESCO street lighting
outsourcing project to both town councils, which in turn had to select the company
to carry out the study.
The Lighting WG appointed EMTE Service S.A.U. as the company to carry out the
studies on its behalf. The Vidreres City Council entrusted the study to EMTE Service
S.A.U. Nonetheless, the WG was informed that the Cardedeu study had been en-
trusted to SECE, which was already carrying out the maintenance of the town’s street
lighting facilities.
Once the official confirmation from Vidreres was received for outsourcing the facilities
to the company EMTE Service S.A.U., it began carrying out the study. The deadline
for submitting the final study is 31 January 2011.
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WORKING GROUPS
The situation with the Cardedeu City Council was a disappointment for the Lighting
WG. The group has contacted the city council through several meetings with the
municipal technician and local government officials, the establishment and aim of the
CEEC’s working group had been explained, along with the benefits of undertaking a
study to implement an ESCO project in the municipality, and we had also provided
them with all of the documentation necessary to apply for and obtain a subsidy from
ICAEN. This notwithstanding, the municipality chose another company. On the basis
of this experience, the Lighting WG began to question the appropriateness of the
established model for attracting clients.
The basic model established defined the best prospective client, understood as those
with the greatest potential for doing business, small town councils with a department
of public works and services and not a maintenance company, for various reasons,
primarily:
• It was considered easier to obtain contracts as the town councils did not already
have a specialized maintenance company on hire capable of offering these ser-
vices.
•Facilities at such municipalities often have greater potential for improvement in
energy efficiency, since their state of conservation and maintenance is generally
lower than facilities serviced by specialized maintenance companies.
• Investment of resources (both in the study stage and in the actual ESCO project
stage) is usually lower, allowing several projects to be carried out at the same
time.
Finally, the Lighting WG decided to include SECE, one of the most important com-
panies in the specific sector of street lighting maintenance in Catalonia, as one of its
members in 2011. SECE is a member of CEEC and has shown an interest in joining
the WG on several occasions.
The Lighting WG considers that the presence of SECE can open doors for the Work-
ing Group in attracting other town councils as potential clients for the ESCO model
and will facilitate the work of generating a significant business volume.
By the same token, in late 2010, the CEEC decided to create a new WG on ESCO
Tenders in Public Lighting, whose goals are described above and which will work in
parallel to the Lighting WG. Both EMTE Service S.A.U. and ISTEM, two Lighting WG
member companies, will participate in the WG on ESCO Tenders in Public Lighting
and will serve as liaisons between the two WGs.
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WORKING GROUPS
Working Group Goals for 2011
GOAL 1
After submitting the viability study for the Vidreres Town Council, the Lighting WG will
contribute the necessary means for the Town Council to decide to go ahead with the
ESCO project.
Since the project execution will be assigned via a public tendering process, the Light-
ing WG will be available to provide counselling to the Town officials should they so
request, so as to raise the chances for success, with the support, if necessary, of the
ESCO Public Lighting Services WG.
GOAL 2
At the same time, with the inclusion of SECE in the Lighting WG, the base model es-
tablished to attract new clients will be reviewed.
In principle, the Lighting WG expects to maintain its premises based on:
•The current model of small town councils continues to be valid. Therefore, we
believe the modus operandi being used is correct. We believe that if we increase
our business capacity, other town councils may become interested.
•Defining a new model for town councils that already employ the services of an
external street lighting facilities maintenance company.
PROSPECTS
Since the Lighting WG believes that the model defined for small town councils is valid
and that it will also define another model for larger town councils, we hope that during
the course of 2011, we can carry out a broad range of viability studies for projects for
outsourcing street lighting facility services to ESCOs.
These prospects are mainly based on three conditioning factors:
•The CEEC wishes to make an agreement with the Barcelona Provincial Council
(Diputació de Barcelona) to carry out studies at a series of town councils having
shown an interest in participating in ESCO projects
• Including SECE in the WG will most certainly provide us with many contacts with
town councils
•The experience of the viability study for the Vidreres Town Council and the pos-
sible ESCO project will most likely open doors for us, at least at town councils of
similar characteristics
WORKING GROUPS
WORKING GROUP ON ESCOS IN OUTDOOR LIGHTING
•Name of WG: Working Group on ESCOs in Out-
door Lighting
•Master Group: Public Services
•Date WG established: November 2008
WORKING GROUP GOALS
Defining a model outsourcing contract for energy services relating to street lighting systems (renovation, ad-
aptation, maintenance) mainly oriented towards town councils.
Stages for rolling out the model:
1. Energy auditing of public lighting facilities
2. Viability study and drawing up the technical and legal documentation for outsourcing energy facilities
management to ESCOs
3. Executing the project according to the conditions established in the viability study
ACTIVITIES CARRIED OUT IN 2010
•Sought potential clients for the business model
• Support and orientation to two Catalan town councils to apply for public aid measures from the Catalan En-
ergy Institute (ICAEN) corresponding to energy conservation and efficiency subsidies in order to gain funds
for the studies allowing implementation of the Lighting WG’s model
• Applied for two different subsidies, for: Energy Audit of Outdoor Lighting Facilities and Viability Study for
Outsourcing Street Lighting Facilities to an ESCO
• Appointed EMTE Service S.A.U. as the company to carry out the studies on its behalf
• The Vidreres Town Council commissions EMTE Service S.A.U with the viability study and execution of the
project
• Defined an ESCO model for street lighting in small municipalities
ACTIVITIES PLANNED FOR 2011
•Submitting the final viability study for an ESCO project for outsourcing street lighting facilities management
in the municipality of Vidreres (deadline: 31/01/2011). Providing support to the Town Council for executing
the ESCO project via public tender
• Having SECE join the WG, as one of the most important companies in the specific sector of street lighting
maintenance in Catalonia
• Attracting new clients
• Participating in the WG on ESCO Tenders in Public Lighting, working towards allowing the introduction of
the ESCO model in municipal public lighting management and detecting prospective clients for the WG
• Defining an ESCO model for larger municipalities
•Working Group coordinator:
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WORKING GROUPS
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METHODOLOGY
•Effecting a study to become familiar with the particular street lighting facilities and compile the information
necessary for a viability study, either as a group or individually by a specific appointed company.
• Holding general group meetings according to progress made on the viability study
COMPANIES INVOLVED IN THE WORKING GROUP
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WORKING GROUPS
MASTER GROUP ON PUBLIC SERVICES – Working Group on District Heating and Cooling
This working group (WG), led by Ecoenergies (Agefred), began operating in 2010
with the aim of fostering the creation of district heating and cooling (DHC) networks
among government authorities and establishing an observatory of DHC projects in
Catalonia (data, trends, CO2 emissions reductions and so forth).
The following two projects were established as priorities for 2010:
•Carrying out a comparative study between a conventional solution and connec-
tion to DHC. The project is in its final stage: the last parameters are being defined
before proceeding to make a spreadsheet where, by entering a series of data,
the comparative study can be obtained on both the economic and environmental
aspects. The study includes such parameters as:
1. Economic and technical parameters: investment and operation costs (main-
tenance, energy expenses, etc.)
2. Useful space saved
3. Space saved according to the installed power capacity (m2/kW)
4. Cost of renting the space (€/m2).
5. Legal Regulations: A DHC facility can allow you to avoid installing the so-
lar panels required by the Spanish Regulations on Thermal Installations in
Buildings (RITE). This must be kept in mind in the case of housing and ho-
tels, but not in that of offices.
6. Environmental parameters: CO2 emissions
7. Energy certification of buildings: the connection of a building to a DHC net-
work can make the building’s energy certification go up a letter. In this re-
gard, the post CALENER tool can be used to enter several examples and
evaluate to what degree buildings will really rise in category.
8. Safety: the danger of fires and/or explosions in the building is eliminated
with the elimination of gas.
•DrawingupaguidetosimulateaDHCsystemwithCALENERsoftware.Distri-
clima and Ecoenergies (Agefred) drew up the guide, which has been validated by
the Catalan Institute for Energy (ICAEN) and has proven useful for developing an
extension of the CALENER software (i.e. post CALENER) that allows simulating
a connection to district heating and cooling networks based on the operational
parameters of the power stations.
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WORKING GROUPS
Goals for 2011
1. Completing the tool that will allow comparison between a conventional pro-
duction system and connection to a district heating and cooling network and
disseminating it
2. Raising awareness on the advantages of using district heating and cooling net-
works through participation in technical seminars
3. Collaborating with the ICAEN in promoting district heating and cooling net-
works and proposing the WG’s participation in technical committees
WORKING GROUPS
WORKING GROUP ON DISTRICT HEATING AND COOLING (DHC)
•Name of WG: Working Group on District Heating
and Cooling (DHC)
•Master Group: Public Services
WORKING GROUP GOALS
• Fostering DHC among government authorities (town, county and provincial councils, etc)
• Establishing an observatory of DHC projects in Catalonia (data, trends, CO2 emissions reductions and so
forth).
ACTIVITIES CARRIED OUT IN 2010
•Comparative study between a conventional solution and connection to a DHC network and creation of a
tool to enable its dissemination
•Guide for simulating connection to a DHC network using CALENER software
ACTIVITIES PLANNED FOR 2011
•Creating a tool that will allow comparison between a conventional solution and connection to a district
heating and cooling network
•Disseminating the tool
•Participating in technical seminars on the advantages of DHC
•Collaborating with ICAEN in promoting district heating and cooling networks and proposing the WG’s par-
ticipation in technical committees
•Working Group coordinator:
METHODOLOGY
•Holding periodical group meetings
• Individual work or work in sub-groups, depending on the activities established at meetings
COMPANIES INVOLVED IN THE WORKING GROUP
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WORKING GROUPS
MASTER GROUP ON PUBLIC SERVICES – Working Group on Energy Efficiency in Tunnels
This Working Group (WG), comprised by the companies GPO INGENIERÍA, ISTEM,
EMTE, SNELLOPTICS, SIEMENS, ESPACIO SOLAR and CONAU VENTILACIÓN,
has the final initial goal of “describing the design and operation criteria to consider
when projecting, constructing and operating a tunnel for it to be energy efficient.”
At the first meeting, since there is a diversity of tunnel types, the group decided
to study non-urban vehicular tunnels. The reason is that existing tunnels will soon
have to be adapted to the new regulations and therefore, the criteria arising from the
group’s conclusions will be able to be put into practice shortly.
Activities Carried Out in 2010
In 2010, five general working meetings were held, at an average of one a month be-
ginning in June. Several partial working meetings were also held to discuss specific
topics.
The meetings were attended by members of each of the WG’s participating compa-
nies, as well as senior officers from companies specializing in lighting, on occasion,
such as BJC and OSRAM. Attending habitually were also officials from the Catalan
Energy Institute (ICAEN), whose contributions have helped us gain a more global
perspective. Towards the end of the year, representatives of TABASA also began
attending meetings, offering us a very important perspective, i.e. that of the tunnel
operator.
Four sub-groups were created to deal with the following aspects:
• Artificial Lighting: SNELLOPTICS and EMTE. Studying the effects of lighting
colour and type and the colour of the walls and asphalt to find the most energy-
efficient system
• Ventilation: SIEMENS and CONAU. Laboratory tests have been carried out to
verify energy consumption of extractor fans working, not as conventional ele-
ments but as electricity generators using the natural air currents occurring in
tunnels.
• Electricity and Power: ISTEM, EMTE and SIEMENS
• Natural Lighting: ESPACIO SOLAR and GPO. Three lines of action were estab-
lished: Studying natural light shaft systems to light tunnel entrances, darkening
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WORKING GROUPS
structural elements at tunnel entrances and elongating the entrances to tunnels
lit by natural lighting.
Each sub-group worked independently and developed specific ideas to improve
tunnel efficiency. These ideas and measures are later discussed at the general
meetings, where results are shared.
Activities Planned for 2011
Basically, the ideas of each of the sub-groups will be developed and specified on
the basis of studies, as well as, in some cases, on-site experimentation. They will
then be included in a document establishing design criteria for projecting and oper-
ating road tunnels, as per the group’s initial goal.
WORKING GROUPS
WORKING GROUP ON ENERGY EFFICIENT TUNNELS (ENERGITÚNELS)
•Name of WG: Working Group on Energy Efficient
Tunnels (Energitúnels WG)
•Master Group: Public Services
•Date WG established: July 2010
WORKING GROUP GOALS
Introducing design criteria that take into account energy efficiency in both the construction and operation of a
road tunnel.
ACTIVITIES CARRIED OUT IN 2010
•Setting up the Working Group
•Setting up the sub-groups:
1.Artificial Lighting: SNELLOPTICS and EMTE. Studying the effects of lighting colour and type and the
colour of the walls and asphalt to find the most energy-efficient system
2.Ventilation: SIEMENS, CONAU. Laboratory tests have been carried out to verify energy consumption of
extractor fans working, not as conventional elements but as electricity generators using the natural air
currents occurring in tunnels
3.Electricity and Power: ISTEM; EMTE y SIEMENS.
4.Natural Lighting: ESPACIO SOLAR y GPO. Three lines of action were established: Studying natural light
shaft systems to light tunnel entrances, darkening structural elements at tunnel entrances and elongat-
ing the entrances to tunnels lit by natural lighting.
ACTIVITIES PLANNED FOR 2011
Basically, the ideas of each of the sub-groups will be developed and specified on the basis of studies, as well
as, in some cases, on-site experimentation. They will then be included in a document establishing design
criteria for projecting and operating road tunnels, as per the group’s initial goal.
•Working Group coordinator:
METHODOLOGY
•Holding monthly group meetings
COMPANIES INVOLVED IN THE WORKING GROUP
80
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WORKING GROUPS
MASTER GROUP ON PUBLIC SERVICES – Working Group on Fostering Cogeneration in the Hospital Sector
This working group (WG), led by Cofely, began its activity in December 2010, the main
goals being defined as follows:
•Promoting the outsourcing of energy services (ESCOs) with investment as a tool
to develop cogeneration in the Catalan hospital sector.
•Creating a market in Catalonia, where there is a potential of over 150 hospitals
where cogeneration could be implemented.
To reach these goals, we intend to work along the following lines in 2011:
Communication: Fostering the development of cogeneration projects at hospitals in
Catalonia:
1. Preparing a presentation on cogeneration at hospitals via ESCO contracts
2. Developing communication and promotional campaigns
3. Making an inventory of target hospitals with contact persons for cogenera-
tion development action
4. Planning presentations at hospitals and managing bodies
5. Preparing a list (“decalogue”) of historical prejudices (i.e. barriers) against
this type of contract
Analyzing past experiences:
1. Inventory of hospitals using cogeneration
2. Analysis of the causes of non-operativity
3. Cogeneration viability study for those cases
4. Plan for refloating the cogeneration system according to the study (invest-
ment and planning)
Analyzing potential:
1. Characterization of hospital habits
• Classification of hospitals according to:
• Type of hospital
• Number of beds
• Type of consumption
• Minimum periods necessary for the characterization of consumption
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WORKING GROUPS
• Questionnaire
• Field measurement plan: selected audits
• Establish the consumption profiles for each energy vector
• Definition of characteristic ratios (per number of beds, m2 of building
space, etc.)
• Inventory of hospitals with their associated consumption
• Determination of target hospitals for the implementation phase
2. General characteristics of technical solutions
• Standard framework for gas turbine cogeneration for each type of hospital
• Standard framework for gas engine cogeneration for each type of hospital
• Criteria for selecting each alternative
• Typologies of electrical and thermal connections
• Estimated investment
3. Developing a map of the cogeneration potential at hospitals in Catalonia
• Geographic evaluation and total electric power that could be generated
• Estimate of the investment required
• Amount of primary energy conserved
• Savings due to avoidance of distribution losses
• Carbon footprint reduction
Analyzing participative models in cogeneration companies. Seeking the successful model.
1. Basic contract
2. Specific cases regarding concerns detected among clients
Applying the established participative and technical models in pilot projects.
WORKING GROUPS
WORKING GROUP ON COGENERATION IN THE HOSPITAL SECTOR
•Name of WG: Working Group on Cogeneration in
the Hospital Sector
•Master Group: Public Services
•Date WG established: December 2010
WORKING GROUP GOALS
•Promoting the outsourcing of energy services as a tool to develop cogeneration in the Catalan hospital sector
•Creating a market in Catalonia, where there is a potential of over 150 hospitals where cogeneration could
be implemented
ACTIVITIES CARRIED OUT IN 2010
•The group was established and goals identified
ACTIVITIES PLANNED FOR 2011
•Communication: Fostering the development of cogeneration projects at hospitals in Catalonia
• Analyzing past experiences
• Analyzing potential
• Analyzing participative models in cogeneration companies. Seeking the successful model
• Applying the established participative and technical models in pilot projects
•Working Group coordinator:
METHODOLOGY
•Holding monthly group meetings
•Communication with the main agents in the sector
COMPANIES INVOLVED IN THE WORKING GROUP
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WORKING GROUPS
WORKING GROUPS
87
MASTER GROUP ON INDUSTRYWorking Group on Micro-Cogeneration in the Industrial Sector
Working Group on Energy Efficiency on Livestock FarmsWorking Group on Energy Efficiency in Industrial Processes
Working Group on ESCOs in the Food Industry
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WORKING GROUPS
MASTER GROUP ON INDUSTRY – Working Group on Micro-Cogeneration in the Industrial Sector
This working group (WG), led by Salicru, aims to introduce micro-cogeneration (mi-
cro combined heat and power) technology to sectors and applications where, due
to dimensions, energy source characteristics and so forth, the use of a micro-tur-
bine would optimize the overall energy efficiency of systems. The ultimate intention
is thus to offer integrated and innovative solutions on the market, increasing the
competitiveness of group companies and fostering a sustainable economy through
reduction in energy consumption and CO2 emissions.
The working group thus intents to become a leader in micro-cogeneration (micro
CHP) solutions, pursuing different projects that demonstrate the technical and eco-
nomic viability of micro-turbines, evaluating aspects such as returns on investment
and ease of replication on the market.
In 2010 the WG carried out the following activities:
•Analyzed possible processes or industries where application of micro-cogene-
ration technology would be appropriate.
•Evaluated thermal needs (maximum power, seasonality…).
•Carried out project viability studies
•Selected the equipment and design for the micro CHP system
•Proposed different sources of financing, including by the company itself or via
financing institutions, ESCOs, etc.
•Reliable, integrated and economically sustainable solution
•Defined priorities by sectors and primary energy source: biogas, natural gas,
biomass, etc.
•Presented the working group to the Catalan Water Agency (ACA) and the Solid
Waste Agency of Catalonia (Agència de Residus de Catalunya, ARC)
•Drew up a table for calculating project viability
•Submitted a project for harnessing biogas as a tender for the Mancomunitat
Penedès Garraf (Penedès Garraf Municipalities Agency) wastewater treatment
plants (EDARs) of Sant Pere de Ribes – Sitges and Vilafranca
•Obtained the contract for the wastewater treatment plant of Sant Pere de Ribes
– Sitges
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WORKING GROUPS
The activities to be carried out in 2011 are as follows:
•Participating in dissemination seminars: in early 2011, the CEEC – INNOVACC
Cluster Exchange Seminar (20/01/2011); the Micro-Cogeneration and Cogen-
eration Seminar organized by Cogen Spain; and the Energy Efficiency in Sports
Centres Seminar organized by the Catalan Energy Institute (ICAEN) in May
2011. In addition, the working group may participate in other initiatives arising
over the course of 2011.
•Creating a UTE (temporary association of companies) comprised by Comsa-
Emte and Salicru to execute the Mancomunitat Penedès Garraf project (waste-
water treatment plant of Sant Pere de Ribes – Sitges)
•Coordinating visits to the main wastewater treatment plants in Catalonia
•Submitting tenders for forthcoming wastewater treatment plant projects and/
or the like
•Analyzing alternatives for project financing: own sources, financing agencies,
ESCOs, etc.
•Planning a trip to visit wastewater treatment facilities and waste treatment
plants functioning with micro-turbines in Northern Italy to demonstrate their
operation to the main agents in the sector: ACA, CESPA, ICS
•Other activities that may arise over the course of 2011.
WORKING GROUPS
WORKING GROUP ON MICRO-COGENERATION IN THE INDUSTRIAL SECTOR
•Name of WG: Working Group on Micro-Cogenera-
tion in the Industrial Sector
•Master Group: Industry
•Date WG established: May 2010
WORKING GROUP GOALS
• Introducing micro-cogeneration (micro CHP) technology to sectors and applications where the use of a
micro-turbine would optimize overall energy efficiency
• Become a leader in micro-cogeneration solutions
• Carrying out projects that demonstrate the technical and economic viability of micro-cogeneration
ACTIVITIES CARRIED OUT IN 2010
•Analyzed possible processes or industries where application of micro-cogeneration technology would be ap-
propriate. Evaluated thermal needs
•Carried out project viability studies
• Analyzed different sources of financing: by the company itself or via financing institutions, ESCOs, etc.
• Defined priorities by sectors and primary energy source
• Presented the working group to the Catalan Water Agency (ACA) and the Solid Waste Agency of Catalonia
(Agència de Residus de Catalunya, ARC)
• Drew up a table for calculating project viability
•Obtained the contract for the wastewater treatment plant of Sant Pere de Ribes – Sitges
•Working Group coordinator:
90
COMPANIES INVOLVED IN THE WORKING GROUP
ACTIVITIES PLANNED FOR 2011
•Participating in technology dissemination activities
• Creating a UTE (temporary association of companies) comprised by Comsa-Emte and Salicru to execute the
Mancomunitat Penedès Garraf project (wastewater treatment plant of Sant Pere de Ribes – Sitges)
• Coordinating visits to the main wastewater treatment plants in Catalonia
• Submitting tenders for forthcoming wastewater treatment plant projects and/or the like
• Analyzing alternatives for project financing: own sources, financing agencies, ESCOs, etc.
• Planning a trip to visit wastewater treatment facilities and waste treatment plants functioning with micro-tur-
bines in Northern Italy to demonstrate their operation to the main agents in the sector: ACA, CESPA, ICS
METHODOLOGY
•Contacting with the main agents in priority sectors
• Individual/Sub-group work and follow-up at monthly group meetings
92
WORKING GROUPS
MASTER GROUP ON INDUSTRY – Working Group on Energy Efficiency on Livestock Farms
Background
Synergies among different CEEC member companies, knowledgeable of the market,
its processes and above all real opportunities for improving competitiveness in this
primary sector, so sensitive to variations in energy prices, brought about the emer-
gence of this working group.
The experience of participating companies, together with the government and poultry
integrators, will allow analysis of the difficulties and aspects requiring improvement,
allowing us to offer a package of measures ensuring improved energy use and man-
agement.
Activities Carried Out
Since the working group was created, the following activities have been carried out:
•Establishment of the group
• Study of processes and needs
• Visit to a standard farm
• Meeting with one of the major integrators in the sector
• Participation in the Municipàlia fair
• Follow-up meetings of the working group
• Study of a package of eco-solutions for energy efficiency
• Its presentation to integrators
Activities Planning
• Studying and analyzing standard facilities (farm sizes, technology employed,
etc.); visiting the most representative farms and main production companies
• Proposing solutions
• Integrating solutions into a package for energy efficiency enhancement in:
•Climate control (air conditioning / heating)
•Ventilation
•Energy monitoring (water, gas, electricity and other sources)
93
WORKING GROUPS
• Carrying out a comparative pilot project
• Analyzing the results
Activities Planned for 2011
•Participating in the course organized by CFEA-DAAM in collaboration with the
Catalan Energy Institute (ICAEN): “Energy Conservation at Farms”, with the fol-
lowing presentations:
• “Technology for Energy Conservation; Investment Costs”
• “Cost/Benefit Analysis of Investing in Energy Conservation at Farms”
•Visits to poultry farms in Catalonia in order to gain a better understanding of the
process and its variables
• Meetings with the integrators, Grup Agroalimentari Guissona and Core, to obtain
information on the sector, such as meat production on the group level, energy
costs, systems used for air climate control and estimated gas, water and elec-
tricity consumption. Managing these variables remotely using a data monitoring
system.
• Participating with Corporación Alimentaria Guissona (CAG) towards the use of
biogas as an energy source for the production of electricity and heating
• Conference with the CAG cooperative members on the cost-effectiveness of dif-
ferent heating systems
• Meeting with the project monitoring group on a bimonthly basis
• Seeking companies specializing in insulation who might be interested in joining
the working group
• Launching a pilot project at a farm in Cervera, Lleida (Spain). September 2011.
94
WORKING GROUPS
MASTER GROUP ON INDUSTRY – Working Group on Energy Efficiency in Industrial Processes
This working group (WG), led by Kromschroeder, began operating in 2010 with the
goal of offering energy-efficient solutions (ECO packages) for manufacturing pro-
cesses in the industrial sector. The aim is to improve the overall energy efficiency of
the industry without modifying the manufacturing process per se, through the tech-
nology and services that the different members of the group can supply. The areas
to be worked on are industrial heating and cooling, as well as any other process
affecting a company’s energy consumption. The group’s lines of work are:
1.Contacting prospective companies in the industrial sector likely to benefit from
improvements entailing reduced emissions, reduced consumption and in-
creased productivity
2.Effecting preliminary audits and collecting data to evaluate the degree of ef-
ficiency of the different manufacturing processes
3.Identifying the processes / services that can be optimized
4.Identifying technologies / services that can be supplied
5.Creating a customized “ECO package” for each case
6.Applying the improvements and checking the subsequent results
In 2010, the following activities were carried out:
1.Defining the working group’s specific goals insofar as its approach to industrial
manufacturing processes, disregarding all auxiliary services, which are the fo-
cus of another working group.
2.Reducing the WG’s number of members, according to each member compa-
ny’s characteristics
3.Defining the Eco packages with respect to stages or steps. See the above-
stated lines of work.
4.Review of the current scenario on the emissions market from the industrial
perspective, using the Spanish National Plan for Emissions Rights Assignment
(Plan Nacional de Asignación de Derechos de Emisión, PNA) of the current and
previous fiscal years as a reference
5.Definition and situation of subsidies from the Government of Catalonia appli-
cable to the Industrial Sector (ICAEN’s PAGE programme)
6.Participating in sessions with other clusters (INNOVAC), seeking synergies that
can be of mutual interest
The working group’s main goal for 2011 centres on executing a pilot project at an in-
dustrial company consisting of a viability study for enhancing the energy efficiency
of the manufacturing process, developing the corresponding ECO package and
applying it, exhaustively monitoring the results.
WORKING GROUPS
WORKING GROUP ON ENERGY EFFICIENCY IN INDUSTRIAL PROCESSES
•Name of WG: Working Group on Energy Efficiency
in Industrial Processes
•Master Group: Industry
•Date WG established: July 2010
GOALS
Using the experience of the working group’s member companies, tackle energy inefficiency in industrial manu-
facturing processes using:
• Innovative, efficient technology
•Maintenance services and preliminary and follow-up energy audits
ACTIVITIES CARRIED OUT IN 2010
•Creation of the Working Group
•Definition of customized ECO packages
• Industry survey (state of the emissions market and subsidies)
ACTIVITIES PLANNED FOR 2011
•Defining the WG’s “letter of introduction”
• Finding a location for the pilot project
• Developing and executing a real ECO package
•Working Group coordinator:
METHODOLOGY
Holding periodical meetings involving physical attendance. Incentivizing meetings via videoconferences.
COMPANIES INVOLVED IN THE WORKING GROUP
95
96
WORKING GROUPS
MASTER GROUP ON INDUSTRY – Working Group on ESCOs in the Food Industry
This working group (WG), led by the Pamias engineering firm, began operating in
2010 with the aim of studying the viability of creating an Energy Service Company
(ESCO) for the private industrial sector (specifically, the food industry) and analyzing
and making known any new products and services arising therefrom. The group’s
main lines of work are:
•Benchmarking real applications in Energy Service Companies;
•Studying the contract model for the ESCO and private industry;
•Determining the most appropriate technologies for ESCO implementation;
•Studying the benefits for the different agents involved, as well as their interrela-
tions.
There are two goals behind these activities: first of all, carrying out a project to
implement an energy service company in private industry; and secondly, drawing
up a guide for ESCO implementation in the private industrial sector.
In 2010, the WG carried out the following activities:
1.Setting up the group, comprised by companies specialized in the different areas
required for the group’s goals: Pamias (engineering), Cofely (energy services
company), Ecliman (climate control), Siemens (energy), EoEnergia (strategic
consulting) and Kromschroeder (services in the fields of measurement, safety,
regulation, control and use of gas)
2.Studying and discussing the contract and service models applied in the food
industry
3.Drawing up informative documentation on the group
4.Identifying target industries to whom the model should be publicized
5.Participating in exchange seminars with other clusters
WORKING GROUPS
WORKING GROUP ON ESCOS IN THE FOOD INDUSTRY
•Name of WG: Working Group on ESCOs in the
Food Industry
•Master Group: Industry
•Date WG established: July 2010
WORKING GROUP GOALS
•Carrying out a project to implement an energy service company (ESCO) in private industry
• Drawing up a guide for ESCO implementation in the private industrial sector
ACTIVITIES CARRIED OUT IN 2010
•Setting up the group and establishing its membership
• Studying and discussing the contract and service models applied in the food industry
• Designing a joint offer by group members for presentation to companies
• Drawing up informative documentation on the group
• Identifying target industries to whom the model should be publicized
• Participating in exchange seminars with other clusters
ACTIVITIES PLANNED FOR 2011
•Carrying out an ESCO implementation project
• Drawing up a guide for ESCO implementation in the private industrial sector
•Working Group coordinator:
METHODOLOGY
Monthly meetings + individual work according to needs
COMPANIES INVOLVED IN THE WORKING GROUP
97
WORKING GROUPS
WORKING GROUPS
99
MASTER GROUP ON TRAININGMASTER GROUP ON TRAINING – MG on Training
100
WORKING GROUPS
MÀSTER EN FORMACIÓ - GM en Formació
The Master Group (MG) on Training, led by the company Schneider Electric, aims
to contribute to training professionals in energy efficiency. The idea is to develop
training programmes focussing on technological and practical knowledge, market-
ing and implementing energy efficiency systems for industry, the tertiary sector and
residential applications. Seeking to promote training of a highly practical nature, it
is aimed at professionals wishing to enter the sector or improve their knowledge.
The intention is therefore to define various educational programmes according to
different professional profiles, as shown in the following figure:
In 2010, the Master Group on Training focused on establishing the training needs
of professionals in the sphere of energy efficiency as detected by companies in the
group with the aim of ensuring the existence of quality training options in the field.
Training in Energy
Efficiency
DESIGNED FOR:
• Heads of sales,
projects or services
interested in gaining
an overview of energy
efficiency solutions
• Specialists or techni-
cians in sales, projects
or services oriented
towards selling or
implementing inte-
grated energy-efficient
solutions.
CONTENT:
• General Module + Op-
tional Module (Module
by Segments)
• General Module +
Module by Segments
+ Practical Module
101
WORKING GROUPS
With this aim in mind, the Master Group on Training carried out an analysis of the
different training programmes relating to energy efficiency existing on the market.
The analysis revealed that the training option most in accordance with the group’s
perspective, lending emphasis to practical training, was the Master Group on En-
ergy Efficiency of the University of Barcelona’s IL3 (Institute for Lifelong Learning).
The pertinent contacts having been made with the directors of the UB’s Master
Group, the initiatives for the current 2010-2011 academic year consist of having
companies in the CEEC’s Master Group on Training design and set up practical
sessions.
The goals for the forthcoming academic year (i.e. 2011-2012) are to sign an IL3-UB
– CEEC collaboration agreement, and to negotiate an agreement for CEEC’s partici-
pation in the IL3-UB Master Group as co-director, which would allow it to influence
the training programme.
WORKING GROUPS
MASTER GROUP ON TRAINING
•Name of MG: Master Group on Training
•Master Group: Training
•Date MG established: March 2010
MASTER GROUP GOALS
•Develop a training programme focussing on technological and practical knowledge, marketing and imple-
menting energy efficiency systems for industry, the tertiary sector and residential applications:
1.Training with a significant practical component
2. Training aimed at professionals wishing to enter the sector or improve their knowledge
ACTIVITIES CARRIED OUT IN 2010
•Analysis of the different training programmes relating to energy efficiency existing on the market
• Identification of the training option most in accordance with the group’s perspective: the Master Group on
Energy Efficiency of the University of Barcelona’s IL3 (Institute for Lifelong Learning - UB)
• Holding meetings with IL3-UB to discuss the MG’s possible collaboration with the IL3.
• Developing and presenting proposals to the IL3-UB for practical sessions to be held as part of the IL3’s
current training programmes.
•Working Group coordinator:
COMPANIES INVOLVED IN THE MASTER GROUP
102
WORKING GROUPS
ACTIVITIES PLANNED FOR 2011
• For the 2010-2011 academic year:
1. Carrying out practical sessions as part of IL3-UB training programmes
• For the 2011-2012 academic year:
1. Signing an IL3-UB – CEEC collaboration agreement
2. Negotiating an agreement for CEEC’s participation in the IL3-UB Master Group as co-director
METHODOLOGY
•Periodical meetings to discuss progress made
• Development of a CEEC training programme
COMPANIES INVOLVED IN THE MASTER GROUP
104
EXTERNAL COMMUNICATION ACTIVITIES
05 External Communication Activities
EXTERNAL COMMUNICATION ACTIVITIES
In 2010, the Catalonia Energy Efficiency Cluster (Clúster d’Eficiència Energètica
de Catalunya) took its first steps in the spheres of external and internal commu-
nication to make its initiatives on energy efficiency known to the media, CEEC
member companies and the general public. Various working groups were created
in 2010 as well, which, together with those established in 2009, generated pro-
posals and activities appropriate for dissemination.
106
107
EXTERNAL COMMUNICATION ACTIVITIES
APPEARANCES IN THE MEDIAA strategic communication plan is being developed to make the Catalonia Energy
Efficiency Cluster (Clúster d’Eficiència Energètica de Catalunya - CEEC) present
in the media and generally heighten its visibility. With a view to 2011 and taking
advantage of the synergies existing between the two organizations, the CEEC has
commissioned the communication team of the Industrial Engineers’ Association
of Catalonia (Col·legi d’Enginyers Industrials de Catalunya) to draw up a Strategic
Communication Plan for the Energy Efficiency Cluster that will include both inter-
nal and external communication plans, an orientation manual for companies that
have recently joined, the creation of a brand and a style manual for its application,
a CEEC press kit for the media and an explanatory brochure.
108
EXTERNAL COMMUNICATION ACTIVITIES
LA VANGUARDIA16/06/2010
AVUI 16/06/2010
EXPANSIÓN16/06/2010
ABC16/06/2010
109
EXTERNAL COMMUNICATION ACTIVITIES
LA GACETA 16/06/2010
CINCO DÍAS16/06/2010
EMPRESAS&BOLSA16/06/2010
110
EXTERNAL COMMUNICATION ACTIVITIES
ONLINE COMMUNICATIONWEBSITE
The website of the Catalonia Energy Efficiency Cluster (Clúster d’Eficiència En-
ergètica de Catalunya) began operating in September of 2010. The page (www.
clustereficiencia.org) is available in Catalan, Spanish and English, and is struc-
tured according to 7 tabs:
•Home: Important news and excerpt from the agenda
•Master Groups: Information on the different groups and data for joining
•Join: Advantages of becoming a member of CEEC
•Newsletter: Newsletter subscription form and access to previous bulletins
•Announcements, News: News page that includes event-specific presen-
tations and documents.
•Contact Us: Contact information and form for sending in questions
•Agenda: Events, seminars and other CEEC activities
111
EXTERNAL COMMUNICATION ACTIVITIES
Bimonthly CEEC BulletinSeptember-October 2010
Bimonthly CEEC BulletinNovember-December 2010
NEWSLETTER
The Catalonia Energy Efficiency Cluster issues a bimonthly newsletter. Two were put out in 2010, reaching a
total of 400 people. The first was issued in September of 2010 (September-October issue), and the second
one in November of 2010 (November-December issue). The newsletter will continue to be issued in 2011. It
is drawn up according to topics of interest to the CEEC (WGs, interviews with CEEC members, editorials, an
agenda, upcoming seminars and congresses, etc.).
112
EXTERNAL COMMUNICATION ACTIVITIES
Date Event or Activity Document
AGENDA
01/02/2010 Introduction by CEEC
05/05/2010 Presentation of the Master Groups and Working Groups model
09/06/2010 Informative Session
Aid for promoting energy efficiency and conservation
06/09/2010 Meeting of the CEEC Executive Committee at the COEIC offices
01/10/2010 Meeting of the Master Group on Training
04/10/2010 ICAEN allocates 30.7 million Euros to subsidizing energy
conservation and efficiency activities
20/10/2010 CEEC Board of Directors Meeting
25/10/2010 Seminar
District Heating and Cooling Networks in Catalonia
05/11/2010 Publication in the official gazette of the Catalan government
(DOGC) of the Order on Subsidies in Training, Dissemination,
Information and Consulting.
13/11/2010 The CEEC sponsors the second edition of Fórmula-e
113
EXTERNAL COMMUNICATION ACTIVITIES
17/11/2010 Presentation on the Competitiveness Observatory 2010
15/11/2010 Seminar
Energy Management of Engines: Energy Conservation and Efficiency
Date Event or Activity Document
WORKING GROUPS
06 European UnionProjects
116
EUROPEAN UNION PROJECTS
EU PROJECTS 2010
One of the fields in which the CEEC is working in order to foster innovation and its market application is detecting opportunities for company collaboration on innovation and develop-ment. Thus, in 2010, it worked on developing the following energy efficiency projects, all of them aimed towards the buildings sector.
EFFIBEST – SAVE
Working Groups: Energy Management Systems in Buildings, Residential Heating &
Cooling (HVAC + TAC), Smart Lighting and MG on Training
Project Coordinator: CEEC
State: Project submitted in 2010, rejected via a resolution issued in 2011.
Partners: Centre of Applied Research – Sustainable Energy Technology (Germany) and
Environment Park S.p.A. – Parco Scientifico e Tecnologico per l’Ambiente (Italy).
Project oriented towards optimizing energy efficiency in operating or maintaining new or
existing buildings. Activities to be carried out by CEEC: coordinating and directing the
project, as well as carrying out pilot projects, effecting communication and disseminating
knowledge, and training end users.
ICT4E+
Project Coordinator: CEEC
State: Project submitted in 2010, rejected via a resolution issued in 2011.
On 2 December 2010, the CEEC and several of its member companies submitted the
project, Bringing Together Energy-Efficiency Stakeholders to Foster the Role of ICT in
Low or Zero-Energy Neighbourhoods (ICT4E+), to the European Union’s Seventh Frame-
work Programme (FP7) for technological research and development.
This project focuses on fostering the use of ICT to achieve low or zero-energy neighbour-
hoods. CEEC’s duties: coordinating and directing the project, effecting communication
and disseminating knowledge, and identifying areas for ICT standardization.
MARIE
Project Coordinator: ACC1Ó
State: Project approved in 2011, pending kick-off in April-May 2011.
117
EUROPEAN UNION PROJECTS
The European Union recently approved the MARIE project (Mediterranean Building
Rethinking for Energy Efficiency Improvement). The CEEC is participating together
with the ACC1Ó (the Catalan agency for support to enterprise), the Catalan Depart-
ment of the Environment and Housing (DMAH) and the Catalonia Institute for Energy
Research (IREC). This project aims to establish the socio-economic conditions for
enhancing energy efficiency in the stock of existing buildings in the Mediterranean
Region. The CEEC will be responsible for collaborating in drawing up modifications to
the Eco-Efficiency Decree of Catalonia and the pilot project for centralized domestic
hot water systems in housing with an ESCO contract model.
CEEC PROJECTS 2010As a result of the different activities carried out by the working groups over the course of 2010, the following projects were carried out:
• Drawing up a document on the analysis of electric vehicle charging solutions at pri-vate parking facilities. The document was submitted to the government user private parking facility in Barcelona. The document was submitted to the appropriate gov-ernment offices, specifically the Government of Catalonia and the Spanish Ministry of Industry. A press conference was also held and the following newspapers and television channels reported on it: AVUI, TV3, La Vanguardia, Cinco Días, ABC, Ex-pansión and others.
• Amendment to the Horizontal Property Act, 2010. “Establishment of electric vehicle charge points in general property managed by a council of owners as an exclusive element of said property by a vote of 1/3 of the owners.”
• Project under the auspices of CEEC on Fostering Electric and Advanced Vehicles (IVEA). This study on electric mobility has been entrusted to the Institut Cerdà by CEEC, Gas Natural Fenosa, Fundació Francisco Corell, the Catalan Energy Institute (ICAEN), the Greater Barcelona Metropolitan Transport Agency (EMT), the Barcelona Provincial Council and the Barcelona City Council with the aim of proposing specific solutions and recommendations for adaptation of mobility policy to fit electric vehicle needs. The project will be completed by the 1st or 2nd quarter of 2011.
• SALICRÚ and COMSA EMTE MEDIO AMBIENTE launched a new working group within the CEEC to analyze the market for 100kW micro-cogeneration (micro CHP) and fostering the use of biogas as a fuel, using 100kW micro-turbines. To present a
118
EUROPEAN UNION PROJECTS
solid, competitive offer, the companies decided to compete in the tendering process as a UTE (temporary association of companies) and won the contract for the waste-water treatment plant of Sitges – Sant Pere de Ribes.
• The CEEC’s DHC Working Group presented a study on connecting buildings to dis-trict heating and cooling networks at a seminar organized by the Catalan Energy Institute (ICAEN). The study analyzes two cases of new buildings and one case of an existing building.
• Installation of an EV charge point in a multiple-user private parking facility in Barce-lona. The aim of this study is to analyze the technological barriers to the generaliza-tion of electric vehicles.
• Carrying out viability studies for thermally activated cooling according to the ESCO contract model.
• Drawing up a document establishing the positioning of business sector (ESCO con-tract model) for public lighting energy service tendering processes.
• Project for a Testing Platform for Introducing the Electric Vehicle in Catalonia (PIVEC).
• Award of a subsidy for Innovative Business Associations (AEI). The projects submit-ted were Thermally Activated Cooling; Monitoring and Climate Control of Poultry Farms and the IVEA Electric Mobility Project.
Jornada tècnicaXarxes de calor i fredde districte a Catalunya.25 d’octubre de 2010
Amb la col·laboració de:
www.gencat.cat/icaen
Els sistemes basats en xarxes de districte produeixen energia tèrmi-ca en unes instal·lacions centra-litzades i la distribueixen fins als usuaris mitjançant un conjunt de canonades aïllades a través d’un fluid que pot ser vapor, aigua ca-lenta i/o aigua freda.
Les xarxes de districte, per una banda milloren l’eficiència energè-tica del sector serveis i edificació ja que ofereixen sistemes de clima-tització amb un consum energètic menor. Per altra banda, perme-ten augmentar la utilització de les energies renovables i la generació energètica més eficient.
Actualment, a Catalunya només hi ha set xarxes de districte, però es un sector amb grans oportunitats de creixement. És per això que l’ICAEN organitza aquesta jornada, amb la participació de l’Agència Danesa de l’Energia que compar-tirà la seva experiència en aquest camp a Dinamarca, on aquesta tecnologia està més consolidada.
120
YEAR-END BALANCE
121
07 Summary of Accounts
122
SUMMARY OF ACCOUNTS
PROFIT AND LOSS ACCOUNTPeriod: January to December
PROFIT AND LOSS ACCOUNT 2010
1. Net Turnover
705 SERVICE PROVISION
5. Other Operating Revenue
747 OTHER SUBSIDIES, DONATIONS
6. Personnel Expenses
640 WAGES AND SALARIES
642 SOCIAL SECURITY BORNE BY THE COMPANY
7. Other Operating Expenses
621 RENT AND LEASES
622 REPAIRS AND MAINTENANCE
623 IN PROFESSIONAL SERVICES
626 BANK SERVICES AND SIMILAR
627 PUBLICITY, ADVERTISING AND RELATED
629 OTHER SERVICES
634 ADJUSTMENT FOR TAX DEBTS
694 LOSSES DUE TO CREDIT DETERIORATION
794 REVERSAL OF CREDIT DETERIORATION
8. Depreciation of Fixed Assets
681 DEPRECIATION OF FIXED ASSETS
12. Other Earnings
778 EXCEPTIONAL INCOME
A) OPERATION RESULTS
13. Financial earnings
b) Other Financial Income
769 OTHER FINANCIAL INCOME
14. Despeses financeres
669 OTHER FINANCIAL EXPENSES
B) FINANCIAL RESULTS
C) INCOME BEFORE TAXES
19. Income Tax
630 INCOME TAX
D) RESULTAT DE L’EXERCICI
98.337,50
98.337,50
113.065,05
113.065,05
-31.565,49
-24.508,99
-7.056,50
-159.925,97
-1.644,00
-69,00
-106.686,17
-480,51
-17.074,19
-11.342,73
-15.104,37
-10.225,00
2.700
-62,87
-62,87
203,31
203,31
20.051,53
342,60
342,60
342,60
104,40
-104,40
238,20
20.289,73
9,75
9,75
20.299,48
123
SUMMARY OF ACCOUNTS
BALANCE SHEETPeriod: january to december
ASSETS 2010
A) NON-CURRENT ASSETS
II. Tangible Fixed Assets
VI. Deferred Tax Assets
B) CURRENT ASSETS
II. Trade debtors and other accounts receivable
1. Trade receivables for sales and services
b) Short-term trade receivables
3. Other accounts receivable
V. Short-term accruals
VI. Cash and other equivalent liquid assets
TOTAL ASSETS
752,07
742,32
9,75
123.527,19
22.651,55
126.520,00
12.650,00
10.001,55
0
100.875,64
124.279,26
PROFITS AND LOSS ACCOUNTPeriod: january to december
ASSETS 2010
1. Revenues
5. Other operating income
7. Other operating income
8. Depreciation of fixed assets
12. Other gains or losses
A) OPERATING PROFIT
13. Financial income
14. Financial expenses
B) FINANCIAL RESULT
C) GROSS RESULT
19. Profits tax
D) YEAR-END RESULT
98.337,50113.065,05-31.565,49
-153.400,97-62,87203,31
26.576,53342,60
-104,40238,20
26.814,737,25
26.821,98
2010 Annual Accounts - Ordinary General Assembly
124
08 List of CEEC Member Companies
126
LIST OF CEEC MEMBER COMPANIES
COMPANY MEMBER TYPEBUSINESS SECTOR
OR FIELD OF ACTIVITYCONTACT INFORMATION
Abac Enginyers, S.L.P.Collaborating
Member
Engineering and
comfort. Energy
Unió, 46, 3r 1a08203 Sabadell
Abantia Empresarial, S.L.Collaborating
Member
Industrial.
Construction and In-
stallation
Astúries, 8-1008830 Sant Boi de LlobregatTel. 935 521 765
ACM Consultoría SIG
396, SL
Entrepreneurial
Member
Service.
Consulting
Cremat, 29 2-608221 TerrassaTel. 931 171 233
Agefred Servicio, S.A Full Member
Industrial, Service.
Installation, Facilities
Management
Bonsoms, 15-1708028 BarcelonaTel. 933 340 800
Alpiq Energía España,
S.A.U
Collaborating
Member
Industrial.
Energy
Balmes, 89 2º2ª08008 BarcelonaTel. 934 522 474
APPLUS Servicios Tec-
nológicos S.L. Full Member
Industrial, Service.
Energy, Engineering
Campus UAB Apto. 156 ctra. Facul. Medicina08193 BellaterraTel. 667 167 827
ArelsaCollaborating
Member
Industrial.
Electrical Equipment
Ctra. C-155 de Sabadell a Granollers, km. 13,308185 Lliçà de VallTel. 938 445 280
Armengol Enginyers, SLPCollaborating
Member
Service.
Consulting and
Engineering
Pau Claris, 97 1º2ª08009 BarcelonaTel. 934 871 348
ASEA Brown Boveri, S.A Full Member
Industrial.
Electrical Equipment &
Components
San Romualdo, 1328037 MadridTel. 937 288 703
Asistencia Técnica Indus-
trial - SAE
Collaborating
Member
Service.
Consulting
Ronda Can Fatjó, 13(Parc tecnològic del Vallès)
08290 Cerdanyola del Vallès
Tel. 692 125 447
BAXI Calefacción, SLU Full MemberIndustrial.
HVAC Equipment
Salvador Espriu, 9
08908 L’Hospitalet de Llobregat
Tel. 936 741 693
BellapartCollaborating
Member
Service.
Engineering, Consulting
Av. Veneçuela, 817800 OlotTel. 972 275 001
127
LIST OF CEEC MEMBER COMPANIES
Centre d'Innov.Tecn.
Conv.Esta.Acc.(CITCEA)
UPC
Collaborating
Member
Service.
Consulting
Avda. Diagonal, 647 Planta 208028 BarcelonaTel. 934 054 245
CESPA Gestión de Re-
siduos, SACol.laborador
Service.
Energy
Av. Catedral, 6-8 1ª Planta08002 BarcelonaTel. 932 479 100
Circutor, S.A.Founding
Member
Industrial.
Electrical Equipaments
& Components
Vial Sant Jordi, s/n. 08232 ViladecavallsTel. 937 071 170
Cofely España S.A.U.
(formerly Elyo)
Founding
Member
Service.
Facilities Management
Paris, 143 bis 08029 BarcelonaTel. 933 638 686
Comsa Emte, SLUFounding
Member
Industrial, Service.
Construction and Instal-
lation, Engineering
Viriat, 478014 BarcelonaTel. 936 026 670
Conau Ventilación, S.L.Collaborating
Member
Industrial.
Equipament
Pol. Ind. Gelidense, Nau 11A 08790 Gelida (Barcelona)Tel. 636 475 239
Copcisa Industrial Full MemberIndustrial, Service.
Installation, Engineering
Anglí, 31, 4º 2ª 08017 BarcelonaTel. 937 454 400
Delta Dore, S.A.Collaborating
Member
Industrial.
Control and Automation
Antoni Borja, 13 Semisot., Loclas 1 i 208191 Rubí (Barcelona)Tel. 615 222 758
Dexma Sensors, S.L.Entrepreneurial
Member
Industrial.
Control and Automation
Sant Joan de la Salle, 4208034 BarcelonaTel. 931 810 195
DSET Solutions, S.L.Entrepreneurial
Member
Service.
Energy Management
Edifici J. Casademont, Despatx 21 (UN.GI) 17003 GironaTel. 676 464 717
E-Controls / Electronic
Intel. Controls, S.L.
Collaborating
Member
Industrial.
Control and Automation
C/ Múrcia, 35F08830 Sant Boi de LlobregatTel. 936 525 521
EFIBAUCollaborating
Member
Service.
Consulting
Balmes, 191, 1º 3ª08006 BarcelonaTel. 932 215 223
EFINER Servicios Ener-
géticos, S.L.
Collaborating
Member
Service.
Consulting
Paseo Txingurri, 28-30 LC 420017 DonostiaTel. 617 489 202
ENDESA Ingeniería, S.L.Founding
Member
Industrial.
Energy
Llacuna, 166 1º1ª 08018 BarcelonaTel. 933 568 420
128
LIST OF CEEC MEMBER COMPANIES
ENERTIKA - Ingenieria
y servicios de eficiencia
energética, s.l.
Collaborating
Member
Service.
Consulting, Engineering
Llacuna, 16208018 BarcelonaTel. 607 071 203
Enginyeria i Comercial
Termoenergètica, sl
Entrepreneurial
Member
Service.
Engineering
Ramon Turró, 89 4º 4ª08005 BarcelonaTel. 616 458 225
EOEnergía, S.L.Entrepreneurial
Member
Service.
Consulting
Comte Borrell, 240 2º1ª08029 BarcelonaTel. 934 880 323
Equipos Eficientes Gest.
Clima (ECLIMAN)
Collaborating
Member
Service.
Engineering
Can Cabanyes, 60-72Pol. Ind. Can Gordi-Can Català08400 GranollersTel. 931 138 214
Espacio SolarCollaborating
Member
Service.
Engineering and
Consulting
Violant d'Hongria, 71 3ª planta08028 BarcelonaTel. 934 090 359
Fundació CTM Centre
tecnològicFull Member
Research.
Consulting
Av. Bases de Manresa, 108242 ManresaTel. 938 777 373
Fundació b_TEC: Bar-
celona Innovació Tec-
nològica
Full MemberPublic Administration
Energy, water, mobility
Josep Pla, 2 B308019 BarcelonaTel. 933 560 980
Institut de Recerca en
Energia de Catalunya
(IREC)
Founding
Member
Public
Administration.
Research
Jardins de les Dones de Negre, 1 2ª08930 St. Adrià del BesòsTel. 933 562 615
Gestión y Optimización
de Sistemas Energéticos,
S.L.
Collaborating
MemberService, Energy
Av. Diagonal, 586, 4t. 1a.08021 BarcelonaTel. 902 900 385
Gas Natural Soluciones,
S.L.Full Member
Service.
Energy Management
Plaça del gas, 108003 Barcelona
GPO Ingeniería, S.ACollaborating
Member
Service.
Consulting, Engineer-
ing, Architecture
Aragó, 390 08013 BarcelonaTel. 932 470 069
GTD Sistemas de Infor-
mación, S.A.
Collaborating
Member
Service.
Engineering
Passeig de Gràcia Faria, 1708005 Barcelona
Tel. 934 939 300
Hitecsa Aire Acondicio-
nado, SLU
Collaborating
Member
Industrial.
Equipment
Masia Torrents, 208800 Vilanova i la GeltrúTel. 938 934 912
129
LIST OF CEEC MEMBER COMPA-
IberdrolaCollaborating
Member
Industrial.
Energy
Cardenal Gardoqui, 848008 BilbaoTel. 932 218 390
IDOM Collaborating
Member
Service.
Engineering, Architec-
ture & Consulting
Sabino de Arana, 34, bis08028 BarcelonaTel. 934 092 222
INDUS Ingen.y Arquit,
S.A (GRUPO INDUS)
Collaborating
Member
Service.
Engineering
& Architecture
Via Augusta, 4 08006 BarcelonaTel. 932 175 654
Initzia Renovables, S.L.Collaborating
Member
Industrial, Service.
Components, Engineer-
ing
General Prim, 3, 1º 08940 BarcelonaTel. 934 800 270
Innov. Tecn. Efc. (INTEE-
SA, SL)
Collaborating
Member
Industrial.
Lighting Components
Josep Irla i Bosch, 1 08034 BarcelonaTel. 639 500 094
INPAL Energía, SLUEntrepreneurial
Member
Industrial.
Components
Paris, 71 5º1ª08029 BarcelonaTel. 934 950 200
Institut Català d’Energia
(ICAEN)
Founding
Member
Public Administration
Fostering Energy
Technology & Efficiency
Av. Diagonal, 453 bis, àtic 08036 BarcelonaTel. 936 220 500
Institut Idelfons Cerdà
(Private Foundation)
Collaborating
Member
Service.
Consulting
Numància, 185 4-208034 BarcelonaTel. 932 802 323
ISUNO Energy SLNEEntrepreneurial
Member
Service.
Consulting, Engineering
Pau Claris, 97 1º2ª 08009 BarcelonaTel. 933 436 877
Kromschroeder, S.A.Founding
Member
Industrial.
Gas Equipment
& Components
Sta. Eulàlia, 213 08902 L’Hospitalet de LlobregatTel. 934 329 616
Lavola 1981, S.A.Collaborating
Member
Service.
Consulting &
Engineering
Avda. Roma, 252-25408560 Manlleu (Barcelona)Tel. 938 515 055
MH IndustriasCollaborating
Member
Service.
Facilities Management
Av. Roma, 1008290 Cerdanyola del VallèsTel. 629 676 409
Mimaven Electrica, S.ACollaborating
Member
Industrial. Electrical
Equipment & Com-
ponents
Chopin, 6-8 Pol. Can Jardí 08012 RubíTel. 902 190 825
130
LIST OF CEEC MEMBER COMPANIES
Muntanya 96, SLCollaborating
Member
Service.
Architecture &
Construction
Muntanya, 9608026 BarcelonaTel. 687 342 190
Nissan Iberia, S.A Full MemberIndustrial.
Equipment
Juan Gris, 2 -8 08014 BarcelonaTel. 609 394 020
Normalización y Gestión
Técnica, S.L.
Entrepreneurial
Member
Service.
Engineering
Cardenal Reig, 17 baixos08028 BarcelonaTel. 934 487 200
Optima Facility, S.L.Entrepreneurial
Member
Service.
Consulting
Treball, 26Pol. Ind. Almeda08940 Cornellà de LlobregatTel. 933 115 000
Pamias Servicios de
Ingeniería, S.A.
Collaborating
Member
Service.
Engineering
Montnegre, 14-16 08029 BarcelonaTel. 933 667 508
PeGI Engineering, S.L.P. Full MemberService.
Engineering
Galileu, 303, 3a. Planta08028 BarcelonaTel. 933 633 009
Petra Inventum, S.L. Collaborating
Member
Industrial.
Renewable Energy
Equipment
Amposta, 14-18 2ª2ªB08174 Sant Cugat del VallèsTel. 936 741 693
Robert Bosch España
S.L.U
Collaborating
MemberEquipaments
Hnos. García Noblejas, 1928037 Madrid
S*Concept (Carles Puig i
Associats)Full Member
Service.
Consulting, Engineer-
ing, Architecture
València, 207, 3-2B08007 BarcelonaTel. 934 516 600
Sabaté & Associats, SLPCollaborating
Member
Service.
Architecture
Balmes, 439 1º-1ª08022 BarcelonaTel. 932 531 269
Salicru, S.A.Founding
Member
Industrial.
Electrical Equipment &
Components
Av. de la Serra, 100 08460 Santa Maria de PalautorderaTel. 938 482 400
Sauter Ibérica, S.A.Collaborating
Member
Industrial, Service.
HVAC Components,
Facilities Management
Jacint Verdaguer, 34-38
08902 L’Hospitalet de Llobregat
Tel. 934 329500
Schneider Electric
España, S.A.
Founding
Member
Industrial.
Electrical Components
Bac de Roda, 52 08019 BarcelonaTel. 934 843 100
SEDNA Engineering, SLPEntrepreneurial
Member
Service.
Engineering
Bobinadora,1-5, 2º LC 2208302 Mataró (Barcelona)Tel. 937 556 161
131
LIST OF CEEC MEMBER COMPANIES
SENER Ingeniería y siste-
mas, S.A
Collaborating
Member
Service.
Engineering
Provença, 39208025 BarcelonaTel. 932 283 367
Sensing&Control Sys-
tems, S.L.
Collaborating
Member
Service.
Facilities Management
Av. Segle XXI, 19
08840 Viladecans
Tel. 647 814 363
Siemens, S.A.Full Member
Industrial.
Electrical
Lluís Muntadas, 5
08940 Cornellà de Llobregat
Tel. 934 759 405
SIGE Gestión
Informatica, SL
Collaborating
Member
Service.
Engineering & Consult-
ing
Llull, 63-69 3º5ª08005 BarcelonaTel. 934 449 303
Simon, S.A.Founding
Member
Industrial.
Electrical Components
Diputació, 390 08013 BarcelonaTel. 933 618 674
Simulacions Òptiques,
SL
Collaborating
Member
Prat de la Riba, 35, LC3 interior08222 TerrassaTel. 607 463 565
Soler & Palau Research
S.L.U.
Founding
Member
Industrial.
Machinery
Pol. Ind. Llevant Llevant, 408150 Parets del VallèsTel. 935 719 300
Sociedad Espanyola de
Construcciones Eléc-
tricas (SECE)
Collaborating
Member
Maintencance.
Energy Management
Passeig Zona Franca, 14208038 BarcelonaTel. 933 329 612
Sto SDF Ibèrica, SL Full MemberIndustrial.
Equipment
Via Sergia, 32 Nau 1 Pol. Ind. Les Hortes del Camí Ral 08302 Mataró (Barcelona)Tel. 638 007 352
SUN NEST, SLCollaborating
Member
Industrial.
Equipment
Monistrolet, s/n08241 ManresaTel. 938 729 733
Wintel Telegestión Inte-
gral de Inst. Tècn., S.L.
Entrepreneurial
Member
Service.
Engineering
Sierra de Aloña, 7 bajo20014 San SebastiánTel. 639 367 292
TEST Tecnología de
sistemas, S.L.U
Collaborating
Member
Service.
Engineering
Comte d’Urgell, 240, 4ª Planta08036 BarcelonaTel. 936 004 902
Tondo Energies, S.L.Entrepreneurial
Member
Service.
Installation
Sot dels Padrals, 30 08500 VicTel. 938 893 919
XPRESA Bioenergy, S.L.Collaborating
Member
Service.
Consulting & Facilities
Management
Carrer del Vall, 67 1º1ª08221 TerrassaTel. 933 601 450