unit 5. sludge treatmentsite.iugaza.edu.ps/.../2010/02/unit_5._sludgel_treatment.pdf · 2010. 1....
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Unit 5. Sludge treatment
The Islamic University of Gaza- Civil Engineering Department
Advanced Sanitary Engineering- ECIV 5325
Based on Dr. Fahid Rabah lecture notes
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Sludge definition: Sludge is made of solid materials separated from the water line during wastewater treatment. In addition to solids, sludge contains a high percent of water. Sludge sources: In wastewater treatment sludge is classified into the following types:
A. Grit sludge: It is all the solids collected in the grit removal chamber, because grit can be easily drained and is relatively stable in terms of biological activity, it dose not need treatment and is generally disposed directly to landfills.
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B. Primary or raw sludge: Primary sludge is the sludge taken from the bottom of the primary
settling tanks. It contains from 3-8% solids )000,10%1(L
mg≅ .This
sludge is composed of settleable raw solids. Almost 7% of the primary sludge is organic. C. Secondary Sludge: This sludge consists of microorganisms and inert materials that has been wasted from the secondary treatment processes. Thus 9% of this sludge is organic this sludge contains from 0.8 to 2%
solids )20000000,8..(L
mgei − .
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Sludge quantities:
A. Primary sludge: The quantity of primary sludge is calculated using the following equation:
inp QssEM ••= ………… (1) Where,
dkgsludgeprimaryofmassM p ,=
ss= suspended solids in the influent, 3mkg
E = efficiency of primary sedimentation tank→ taken from (Figure (1))
Qin = influent flow to primary sedimentation tank, d
m3
.
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Overflow
rate m/d
Percent removal
BOD
Suspended solids
Figure 1
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To convert the sludge quantity fromdkg to
dm3
:
p
pp X
MQ = ………… (2)
Qp= flow rate of primary sludge, d
m3
.
Xp=concentration of solids in primary sludge, 3mkg .
SX sludgep •= ρ ………… (3) where,
givenunlessmkgastakenusually
mkdensitysludge watersludge 33 1000(, == ρρ
S = solids fraction in sludge expressed as decimal fraction (i.e. 0.05 = 5%).
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Example 1:- Determine the quantity of primary sludge both in
dkg and m3/d, given the
following:- SS = 700 mg/l Qin = 2000 m3 /hr S = 5% dry solids in the sludge.
D = 36 m (diameter of primary sedimentation tank)
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Qinf P.S A.T S.S Qeff
sludge sludge
Qthick
Qthick
Qdew
1 St Thickener
Sludge
Sludge
digester
Sludge
Dewatering
2nd Thickener
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Solution:- a) find the overflow rate to the primary sedimentation tank:-
dm
dmm
dhr
mhrmFO
mDA
AQFO in
4747241018
12000/
1018436*
4
/
2
3
2
3
222
=•
=••=
≅==
=
ππ
b) Find the sedimentation efficiency (E):- from figure (1), E = 54%
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c) Calculate sludge quantity:- MP = E * SS * Qin
dm
Kgm
dKgQ
mKg
mKgSX
XMQ
dKg
dm
mKgM
dm
dhr
hrmQin
mKg
mgkg
mL
LmgSS
P
SLP
P
PP
P
33
33
3
3
33
363
3
36350
18144
5005.01000
18144480007.054.0
48000242000
7.010
10700
≅•=
=•=•=
=
=••=
=•=
=••=
ρ
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b) Secondary sludge quantities:- Secondary sludge quantities were discussed previously in the suspended growth treatment:-
dminproductionsludge
XPQ
XVdkgproductionsludgeP
r
xw
cx
3
,=
==θ
For more details on these quantities return to chapters 3 and 4.
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sludge treatment:- The main goal of sludge treatment is to convert it to an inert solid product that can be safely disposed in the environment or reused for useful purposes. The main sludge treatment steps are-
a. Sludge thickening. b. Sludge stabilization. c. Sludge dewatering.
In the following section, a detailed discussion of these treatment steps is given.
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Sludge thickening:- The main goal of sludge thickening is to reduce the sludge volume by removing as much as possible of the water content of sludge, leading to the increase of the solids content of sludge. Thickening is achieved by the following three methods:- a) Gravity thickening:- Gravity thickening is achieved in circular tanks similar to sedimentation tanks. Sludge is allowed to settle and compact. The thickened sludge is withdrawn from the bottom of the thickener. To improve thickening some chemicals are added, this process is called sludge conditioning. Sludge conditioning is discussed below.
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b) Flotation thickeners:- For sludges with low weights, gravity thickeners are not efficient. In this case, the sludge floats on the surface and than removed by scum removal arms. c) Mechanical thickening:- Mechanical thickeners include centrifuges, rotary drams and filter belts. The centrifuges and rotary drums use the centrifugal force to separate solids from liquids. Filter belts are squeezing machines in which the sludge is inserted between two moving belts resulting in the separation of solids from liquids.
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Sludge conditioning:- Sludge conditioning is a pretreatment step to increase the efficiency of sludge thickening and dewatering of sludge. The two most common methods of sludge conditioning are:- a) Chemical conditioning:-
• Addition of lime Ca (OH)2. • Addition of ferric chloride Fe cl3 • Addition of alum AL2 (SO4)3. • Addition of organic polymers.
These chemicals are coagulants as they neutralize and destabilize the electrically charged particles in the water and allow them to settle efficiently.
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• Organic polymers replace Fe cl3 and AL2 (SO4)3 salts in order to overcome the major problems involved with these inorganic chemicals.
Advantages of organic polymers over inorganic chemicals are:-
• Dosage is around 10 times lower than that of inorganic chemicals (typical dosage is 5-10 kg/ tonsludge)
• Cost saving obtained in capital cost and running cost.
• Treated sludge dose not contain inorganic chemical such as
Fe3+ and AL3+.
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b) Heat treatment:-
Heat treatment is a conditioning process that involves heating of sludge for short periods of time under pressure. By heat treatment, the structure of sludge flocks is altered to liberate more water from particles. The high capital cost of equipment limit the use of this method to small treatment plants only.
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Design of gravity thickeners:-Primary and secondary sludge are either treated in separate thickeners or in one common thickener. The following table gives the design criteria for gravity thickeners according to the sludge source:-
25-7060-10050-90
4-75-95-8
0.5-42-62-6
- Combined SludgesPS + WAS ……PS + TF ………PS + RBC ………
100-15040-5035-5020-40
5-103-62-52-3
2-71-4
1-3.50.5-1.5
- Separate sludgesPS …..……....TF …..……....RBC …..……....WAS…..……....
Mass loading kg/d.m2
Expected under flow
S (%)
Influent S (%)Sludge source
Note: PS = primary sludge., TF = Trickling filter sludge, RBC =Rotating biological contactor sludge, WAS = Waste activated sludge.
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- The area of the thickener is determined using the mass loading criteria according to the sludge source as shown in the above table. - The depth of the thickener is determined as follows.
As shown in Figure (4), the thickener depth is divided to the following regions:-
10/5صورة ص h1 = free board depth above sludge surface, typically taken as 0.6m. h2 = clear liquid zone, typically taken as 1.0m. h3 = settling zone, typically taken as 1.5m. h4 = Thickening zone, it is a sludge storage region and have to be calculated as shown later.
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So, the thickener side wall depth (H) is calculated as :- H = h1 + h2 + h3 + h4 The depth at the center of the thickener is calculated by adding (H) to h5:-
.,16
h5 diameterthickenerdd==
To calculate (h4), the thickening zone height, we assume that this zone has a volume enough to store one day thickened sludge. So the total solids interring the thickener will accumulate in this zone but the concentration of solids in the thickened zone will be much more than that in the sludge interring the thickener so, to calculate (h4):-
4.hAV TTZ =3,mzonethickeningtheinsludgeofVolumeVTZ =
2,mthickenertheofareaSurfaceAT =
6............)()(
outT
inTTZ X
mV =
7..........)()( tMm inTinT •= 8..........)()()( outTTSLoutT SX •= ρ
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(mT)in = mass of sludge dry solids accumulated in the thickening zone, (kg)
(MT)in = mass of sludge dry solids interring the thickener per day, d
Kg
t = time, days. (XT)out = concentration of solids in sludge in the thickening zone and in the thickening zone and in the thickened sludge coming out of the thickener, (kg/m3) ( SLρ )T = density of thickened sludge, (kg/m3) (ST)out = concentration of solids in the thickened sludge expressed as decimal fraction. Combine equations (4) and (6) and solve for h4:
)9(...............)(
)(4
outTT
inT
XAmh =
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Example (2):- Design a gravity thickener to treat a combined primary and activated sludge. The following data is given:- Primary sludge:-
Secondary sludge (activated sludge):-
%1,1040,/150 33 === S
mkgdmQ SLs ρ
Thickener design criteria:- - LS = solids loading rate = 50 kg/m2.d (assumed) - Thickened sludge concentration (ST)out = 7% ( SLρ )T = density of thickened sludge = 1120 kg/m3
%5,1100,/500 33 === S
mkgdmQ SLP ρ
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dkg
mkg
dmSQXQM SLpPPP 2750005.01100500 3
3
=••=••=•= ρ
dkg
mkg
dmSQXQM slSssS 156001.01040150.. 3
3
=••==•= ρ
dkg
dkg
dkgM inT 29060156027500)( =+=
kgddkgtMm inTinT 29060129060*)()( =•==
Note: t is always one day for the design of thickener
22 581./50/29060)( mdmkgdkg
LMA
S
inTT ===
2) calculate the area of the thickener "AT":-
Solution:-
1) calculate (MT)in , (mT)in:-
(MT)in = MP + MS
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- Find the diameter:-
).(202.2758144 konotmmAd T >=•==ππ
(note:- the maximum diameter for thickeners is 20m) Use two thickeners:-
Area of each thickener = 2
581 = 291 m2
kommd .20192914<=•=
π
3) calculate the depth of each thickener:-
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msaymdh
msaymkgm
mkgh
kgm
mkg
mkg
SXXA
mh
inT
outTTsloutT
outTT
int
2.1,19.11619
16
65.0,64.04.78291
14530
145302
29060)(
4.7807.01120
)()()()(
)(
5
3
24
33
4
===
≅••
=
==
=•=
=
=
ρ
side wall depth:- H = h1 + h2 + h3 + h4 = 0.6 + 1.0 + 1.5 + 0.65 = 3.75m Depth at the center = 3.75 + 1.2 = 4.95m = HC
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dmdmQQQQ TSpmovedw /140/}1852/)150500{()( 33Re =−+=−+=
%43100)2/150500(
140100)(
)(% Re =•+
=•+
=SP
movedW
QQQreduction
4) Calculate the reduction of sludge volume:-
dmXMQedischThickend
outT
outTT /185
4.782/29060
)()(arg 3===→
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sludge stabilization:-
Sludge stabilization is the process in which the biodegradable organic matter is converted to non-biodegradable (or inert) matter.
The main purpose of this process is to produce a sludge that will not undergo any further decomposition when disposed to the environment (i.estable sludge).
If sludge is disposed without stabilization it will create bad odor and health hazards.
The most common method used for sludge stabilization is the anaerobic digestion.
This process is achieved in a closed anaerobic tank called digester.
The digester shown is a cylindrical tank with a conical shaped bottom. It is an anaerobic completely mixed reactor.
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The cover of the digester is a floating cover to give flexibility for gas accumulation and to prevent explosion.
The sludge in the digester is heated to 35oC to give the best digestion efficiency.
The digested organic matter is converted into gases such as methane (CH4), carbondioxide (CO2) and (H2O).
The produced methane is collected and used for energy production
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*CO2 + 4 H2 → CH4 + 2 H2O*CH3COOH → CH4 + CO2
Sludge transformed to H2and CH3COOH by fermentation
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Cross section through a typical standard rate digester Solids reduction in digesters:- The solids in the sludge interring to the digester is classified as follows:-
17/5صورة ص From this classification, we understand that the solids reduction will be performed only on the biodegradable portion of the organic matter, while the inorganic and the non-biodegradable portions will leave the digester without reduction.
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Anaerobic digester design:-
The volume of the digester is determined based on the sludge detention time ( ) using the following relation:-
…….. (10)
and ( ) is selected in the range of 15-20 days based on the percent of organic matter destruction. The following equation is used to calculate the percent reduction as a function of ( ):-
Rs = 13.7 Ln ( ) + 18.9 ………. (11)
cθ
cinQV θ=
cθ
cθ
cθ
Where:-
Rs = percent Reduction of organic matter,%
= sludge detention time, days. cθ
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The diameter of the digester is typically is the range 5-20m.
The sidewall depth should not be less than 8m because of mixing difficulties in shallow tank, and maximum sidewall depth is 15m.
The floor of the digester is usually conical with a bottom slope of 1:6.
The rate of gas production in digesters is typically taken as 0.5 m3 gas for each "kg" organic matter destroyed.
The percent of methane is approximately 65% of the total gas production.
The produced gas is collected from the top of the digester and passed through a water tank in which CO2 and H2S and other gases are dissolved while CH4(methane) is collected again and stored in a cylindrical tank called gas holder.
Then, methane is used for power generation that can be used in the wastewater treatment to operate the electrical equipments.
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Example (3):- Anaerobic digester is to be designed to treat a thickened sludge having the following data:- QT = 370 m3/d, S = 7%, MT = 29060 kg/d, S.G = 1.12
cθ = 20 days, 70% of MT is organic, S.G = 1.05 after digestion. 1) Calculate the required digester volume:- * V = QT . cθ = (370 m3/d) * 20 day = 7400 m3 This volume dose not include the volume of the conical volume at the bottom. Assume the sidewall height
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H = 8m , So the surface area HVAS =
oknotmmd
mAs
.20344*925
9258
7400 2
>==
==
π
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So we can either increase the depth "H" to a value in the range of 8-15m, or we can use two digesters.
Let us first try to increase H to 15m:-
so let us use 2 digesters.
249315
7400 mASo s ==⇒
,.20254*493 oknotmmd >==π
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msaymT
d
mA
mHassummdmQV
digestereaehfordmQSo
s
cT
T
18,7.174*247
24715
370015
370020*)/185(.
)(/1852
370
2
33
3
==
≅=
====
==⇒
θ
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d
h
Slope = 1:6
H
0.5 m free beard
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if the digesters needed to be lower than 15m we can use 3 or 4 digesters to get smaller digesters. Correct "H" for d = 18m :-
mAVH
mTdAs
5.1447.254
3700
47.2544
22
≅==
==
add a (0.5m) as freeboard between the maximum sludge level and the floating cover
• Calculate the conical part depth:-
mdh 5.11218
12===
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2. Calculate the efficiency of solids reduction:-
%609.1820ln7.139.18ln7.13
≅+=+= csR θ
Calculate the organic matter weight:-
dkgxmatterinertMdkgxmatterorganicM
digestereachfordkgM
Rawiaert
o
T
/435914530%30)(/1017114530%70
)(/145302
29060
======
==
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4) Calculate the gas production:- Gas = 0.5 m3/kg x Mdest
digestereachfromd
md
mMethane
dm
dkg
kgm
33
33
18313052%60
305261035.0
≅•=
≅•=
10171 kg/d * 0.6 = 6103 kg/d
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Note: this volume is at standard conditions i.e. T = 0 0C, P = 1 atmospheric. It is usually stored in gas holders (or gas storage tanks) at a pressure larger than the atmospheric pressure to reduce the volume of gas holders for example, if the gas is stored at P = 2 atm the volume
3
2
112 916
21*1831 m
PPVV ≅== so we can size the gas holder.
Calculat the weight of the destroyed organic matters. Mdest = 60% * organic matter = 0.60 * 10171 kg/d (for one digester) = 6103 kg/d (Mdest) = 10171 – 6103 = 4068 kg/d (inert matter) Calculate the total inert materials leaving the digester:-
dkgMMM dinertRawinertd 842740684359)()( =+=+=
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* Calculate the percent reduction of total solids by the digester:-
%4210014530
842714530100% ≅•−
=•−
=T
destT
MMMR
5) Calculate the concentrations of solids after digestion:-
%3.4043.005.11000
1.6.45)(
6.45/185/8427)()(
3
3
33
=≅•
==
===
mkgm
kgXS
mkg
dmdkg
QdMdX
se
doudd
dout
ρ
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* Mass and flow balance:-
4.3%Sd
1050 kg/m3
45.6 kg/m3(Xout) d
185 m3/dQd
8427 kg/dMd
seρ
digester
seρ 1120 kg/m3
7%ST
78 kg/m3XT
185 m3/dQr
14530 kg/dMr
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Sludge de-watering:- Dewatering is a physical process used to reduce to water content of sludge after stabilization. Several methods are used for dewatering as follows:- A) Natural dewatering:- Natural dewatering depends on evaporation and percolation. Sludge drying beds are the most common example of natural dewatering.
Evaporation
Sludge
Fine sand
Gravel
Perforated pipe
Sludge drying beds
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• Sludge Drying Beds– Most popular method– Simple– Low maintenance– Effected by climate
Sludge Drying Beds
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B) Mechanical dewatering:- Mechanical dewatering methods are divided to three main categories:- a) Vacuum filtration:- Water is removed under applied vacuum through a porous media that retains solids and allow water to pass.
• Cylindrical drum covered by mesh or fabric - rotates into partially submerged vat containing conditioned sludge
• Apply vacuum to pull out water• Achieves 15-30 % solid content
Vacuum Filtration
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b) Pressure filtration:-Water is removed by applying presume (squeezing). Belt filter process is the most common example on this method.
Dewatered sludge
Sludge disposal Squeezed water
Sludge
• Belt Filter Press– Forces out water by essentially squeezing water between two
moving filter belts– Apply pressure to pull out water– Achieves ~19 % solid content– Lower energy consumption than vacuum filters– Does not have problems with sludge pickup like vacuum filters
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3) Centrifugation:- Solids are separated from liquid by centritugal forces. Mass and flow balance is performed on dewatering units as follows:-
QXSM
Dewatering unit
QXSM
Note:- "S" after dewatering in the range of 25 – 50%.
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Volume Reduction
• Incineration– Complete evaporation of water from sludge– Requires fuel– Solid material is inert– Exhaust air must be treated prior to discharge