landfill gas to energy (lfgte) solutions. 2 1. an independent global leader in lfgte projects
TRANSCRIPT
Landfill Gas To Energy (LFGTE) Solutions
2
1. An Independent global leader in LFGTE projects
3
Sourcing/analysis, financing, construction of landfill gas projects CDM registration with UNFCCC
Feasibility study, financing, installation of waste-to-energy units
Carbon credit related high value-added services for third parties
Overview of activities
‘Phase 1’ Green-house gas abatement‘Phase 2’ Electricity generation ‘Services’ Consulting business
Sale of servicesSale of electricity & heatSale of CERs
Operation & Maintenance of proprietary landfill gas flaring units
Continuous compliance with UNFCCC regulations
Operation & maintenance of proprietary power generation units
Consulting fees Percentage of clients projects CERs
Production of electricity & heat Issuance of additional CERs by UNFCCC
Issuance of CERs by UNFCCC
CDM consulting services CDM outsourcing services
Advisory on corporate carbon strategies
18 landfill gas exploitation contracts signed in 10 emerging countries (6 in Latin America, 4 in South-East Asia)
9 biogas flaring units already in operation and 7 under construction
50 biogas projects at various stages of evaluation or prospection, in over 15 emerging countries
Phase 2 was launched in November 2010 at the KPS site in Thailand
11 prospective projects expected to reach phase 2 by 2013, for a total installed capacity of 30 MW
Unique expertise in Clean Development Mechanism registration & compliance
A team of dedicated experts with a track record of successfully registering the world’s largest CDM proprietary landfill gas project portfolio
Recognized by market leaders such as Rhodia, Air Liquide…
1. An independent global leader in LFGTE projects
8
3 3 3
2 2
1 1 1 1
Bionersis Shimizu Eco-securities
(J PMorgan)
Cantor Green Gas IBRD KMDC DONG Santech CarbonCapital
4
World’s most active LFG project registrant
Bionersis expetise covers the entire value chain…
A unique vertically integrated developer and operator
Expertise in site identification and evaluation− 7 dedicated employees− Expertise in gauging output of sites and necessary
investments based on extensive experience and in-house developed evaluation models
Source: UNEP RISØ
LFG projects registered with UNFCCC in 2009
8
3 3 3
2 2
1 1 1 1
Bionersis Shimizu Eco-securities
(J PMorgan)
Cantor Green Gas IBRD KMDC DONG Santech CarbonCapital
Source: Company information
… with a significant track record
16 landfill gas exploitation contracts signed in 10 emerging countries (6 in Latin America, 4 in South-East Asia)
9 LFG units already in operation and 7 under construction
50 LFG projects at various stages of evaluation or prospection, in over 15 emerging countries
1st French promoter of Clean Development Mechanism (‘CDM’) projects through the Kyoto Protocol, in terms of the number of Letters of Approval
Leader in the sector of Landfill Gas CDM projects with 22% of global market in 2009 (in terms of projects registered during the year)
Most importantly, an operator with a unique experience in managing CDM projects since the implementation of the Kyoto Protocol
LFG projects registered with UNFCCC in 2009
Operation & Maintenance of sites− 23 dedicated employees− Extensive experience in operation & maintenance of LFG
capture and utilization projects− O&M supported by remote monitoring of units
Site development & construction know-how− 11 dedicated employees− Negotiation of contracts with landfill operators− Equipment sourcing and installation execution know-how
Expertise in CDM registration process within the UNFCCC framework− 7 dedicated employees− 100% of submitted projects successfully registered− Registration process twice as fast as industry average
1. An independent global leader in LFGTE projects
5
2. Business Description
6
Business process
2. Business Description
CER clients:
Others (market buyers)
Carbon trading
Carbon trading
Electricity offtakers:
• Local Utilities & distributors
• Industrial partners
Green-House
Gas Emission reductio
ns
Gas acquisiti
on
Sale of CERs
Sale of electricit
yPhase 1
Phase 2
Services
Service clients
• CDM project developers
• Large industrial
Sale of services
Certification
Carbon consulting & outsourcing
Carbon consulting & outsourcing
CER issuanc
e
Cash
Cash
Cash & CERs
Electricity generation
Electricity generation
Intra company
CER transfer
Landfill gas capture
Landfill gas destruction
Landfill Operator
Gas exploitatio
n right
Cash
7
Project operations & CDM compliance
Source: AEI Affiliated Engineers
1 Landfill gas capture though a network of wells
2
3
4
7
Gas cooling & condensation
Gas flaring (methane destruction)
Electricity generation
Gas extraction and transmission using a blower
5
Electricity transmission to power grid or on-site use6
Heat generation [possible development of CHP on selected sites]
Monitoring of volumes & methane content of the extracted LFG
ii
iii
Verification through an independent review
Certification of emission reductions & Issuance of CERs
Mon
i Preparation & submission of Monitoring Reports
Phase 1
Phase 2
1
2
3
4
5
7
iii iii
iii iii
Landfill gas
Landfill site
Gas chiller & condenser
Flare
Heat exchangers
Mon
Mon
Blower
Generator
set
Engine exhaust
Air separatorExpansion
tank
Water circulation
pump
6Power grid
2. Business Description
8
4. Phase 1
9
Global resources for emission reductions
Note (1): CER total = CER registered + CER in the CDM pipeline according to PDD
CER registered:
9,099,000 Average lifespan:
8.3 years CER total(1):
11,875,000
Total
Status:regis. Jul 08 CER:247,000 Lifespan: 10 years
Punta Arenas - Chile
Status:regis. Jul 08 CER:323,000 Lifespan: 10 years
Vina Del Mar - Chile
Status:regis. Jan 09 CER:144,000 Lifespan: 10 years
San Felipe - Chile
Status: regis. Jan 09 CER:125,000 Lifespan: 10 years
Quilpue - Chile
Status: regis. Feb 09
CER: 772,000 Lifespan: 10 years
La Habana - Cuba
Status: regis. Sep 09
CER:306,000 Lifespan: 10 years
Mendoza - Argentina
Status: compl. check
CER:297,000 Lifespan: 10 years
Villavicencio - Colombia
Status: regis. Apr 10 CER:2,519,000 Lifespan: 7 years
La Duquesa – Dom. Rep.
Status: regis. Aug 10
CER:650,000 Lifespan: 10 years
Bucaramanga – Colomb.
Status: regis. Nov 09
CER:249,000 Lifespan: 10 years
Pasto – Colombia
Status: compl. check
CER:267,000 Lifespan: 7 years
Cucuta – Colombia
Status: compl. check
CER:342,000 Lifespan: 7 years
Manizales – Colombia
Status: regis. Sep 09
CER:1,186,000 Lifespan: 10 years
KPS – Thailand
Status: regis. Oct 10 CER: 2,579,000 Lifespan: 7 years
Hanoi – Vietnam
Status: validation CER:307,000 Lifespan: 7 years
Batam – Indonesia Status: validation CER:1,562,000 Lifespan: 7 years
Penang – Malaysia
4. Phase 1: Emission Reductions
Registered projectsProjects under registration or
validation
10
Project process (1/2)
Project Design
&National approval
Project validation
by independen
t auditor
Registration by UNFCCC Executive
Board
Project identificati
on & evaluation
Construction of site
Testing
Negotiation with site owner/operator
Operation
Monitoring, Verification & Certification
6 – 12 months 3 – 6 months 1 month1 – 2 months
1 month 1 – 2 months 7 – 10 months
Project lifecycle
Project lifecycle
321
1 2 3 4
Headed by Regional Directors Pascal Le Mélinaire (LatAm) & Pascal Voisin (S-E Asia)
43 dedicated employees worldwide
Headed by Stéphane Vidaillet 7 dedicated employees worldwide
Prospection & Construction process
CDM validation & registration process
4. Phase 1: Emission Reductions
11
Project process (2/2)
Project identification & evaluation
Identification of landfills for potential projects based on a wide variety of criteria
Evaluation of methane potential using 3 international methodologies (FOD, MEX and CAM) relying on conservative estimates
Due to its recognition, Bionersis is now directly invited to bid for projects
1 Negotiation with site owner/operator
Negotiation of gas exploitation contracts for a period of 10 years with landfill owner/ operator
Negotiation of gas supply price
− Usually based on volumes to be produced
− Contracts sometimes include a small participation in carbon credit price upside
2 Site construction
Landfill shaping to facilitate future operations (rainwater evacuation, gas circulation within the pipe network, leachate management…)
Landfill cover with a layer of clay to contain the methane and prevent GHG emissions
Construction of a concrete slab to support the flare unit
Drilling of vertical wells inside the landfill at regular intervals to extract the gas
Linking of gas pipes into main pipe
Installation of flare, blower, monitoring equipment
Connection of main pipe to the blower & flare
3
Project design & National approval
Preparation of a project design document (PDD) making use of approved emissions baseline and monitoring methodology
Securing a Letter of Approval (LoA) from the Designated National Authority (DNA) of the host country
1 Project validation
Independent evaluation of a project activity by a designated operational entity against the requirements of the CDM, on the basis of the project design document
2 UNFCCC registration
Formal acceptance of a validated project as a CDM project activity
Registration is the prerequisite for the verification, certification and issuance of CERs UNFCCC registration is effective for either 1x10 years or 3x 7years
3
Testing
Testing & validation of major operating assumptions and technical settings to be applied to equipment (pipe network, blower, flare, leachate management system)
Stabilization of gas flow for future operations
4
Prospection & Construction process
CDM validation & registration process
4. Phase 1: Emission Reductions
12
Landfill gas – a significant and recognized GHG abatement source
Source: EPA, UN World Urbanisation Prospects, 2009 revision, UNEP RISØ
100216
1,180 1,276 1,328 1,3481,468
2,400
2,716
LFG - flaring LFG -generation
Geothermalelectricity
Bagassepower
LNG plant Hydro Natural gasplant
Wind Cogeneration
Source: UNEP RISØ, capex of all projects (registered & rejected) based on PDD
Indexed capex (€/CO2t/year) Landfill gas destruction is incentivized for a variety of reasons:
− Valorization of environmental nuisance (GHG emission reductions & potential power generation)
− Biogas destruction is based on a quantifiable and verifiable methodology
− An alternative to CO2-intensive waste incinerators
Recognized by UN’s Clean Development Mechanism (CDM) and Joint Implementation (JI) schemes:
− 171 CDM landfill gas projects registered to date
− 50 JI landfill gas projects registered to date
Under US carbon credit scheme
− Landfill methane covered in Waxman-Markey and latest Kerry-Lieberman bill
Recent developmentsRecognized by Carbon Credit schemes
Increasing number of landfill sites due to global urbanization
Urban population by region (billions)
Number and size of landfill sites will match growth of urban population
2,275 cities of more than 100,000 people in 2009, expected to increase to 2,943 in 2015
1.8
0.5 0.4
3.5
0.7
1.2
Asia LatAm & Carribean Africa
2010
2050
Landfills - a major source of greenhouse gas emissions
14% of GHG stem from methane (CH4), of which 15% are from landfills
Methane has a global warming potential (GWP) of 21, i.e. it is a greenhouse gas 21 times more potent than carbon dioxide
Methane, which is less soluble in water than CO2 and lighter than air, is likely to migrate out of landfills
Global anthropogenic GHG emissions (2004, in terms of
CO2-eq.)
CH4 (methane)
14%
CO2 other
3%
CO2
deforestation
17%
N2O
8%
F-gases
1% CO2 fossil fuel
use
57%
4. Phase 1: Emission Reductions
13
5. Phase 2
14
Global resources for emission reductions and potential installed capacity
Note (1): Gas reserves of current portfolio over 2011-2020, based on PDD data
Methane reserves(1):
1,014m cbm 28 units for potential 31MW
capacity
Total
Start year: n/a Reserves: 16.7m
cbm Units: 0
Punta Arenas - Chile Start year:n/a
Reserves: 20.0m cbm
Units: 0
Vina Del Mar - Chile
Start year: n/a Reserves: 8.8m cbm Units: 0
San Felipe - Chile
Start year:n/a Reserves: 7.3m cbm Units: 0
Quilpue - Chile
Start year: n/a Reserves: 44.6m
cbm Units: 0
La Habana - Cuba
Start year: n/a Reserves: 21.0m
cbm Units: 0
Mendoza - Argentina
Start year: 2013 Reserves:21.3m
cbm Units: 1
Villavicencio - Colombia
Start year: 2011 Reserves: 263.9m
cbm Units: 9
La Duquesa – Dom. Rep.
Start year: 2012 Reserves:42.5m
cbm Units: 1
Bucaramanga – Colomb.
Start year: 2012 Reserves:18.3m
cbm Units: 1
Pasto – Colombia
Start year:2012 Reserves: 28.4m
cbm Units: 1
Cucuta – Colombia
Start year: 2013 Reserves: 35.0m
cbm Units: 1
Manizales – Colombia
Start year: 2011 Reserves: 78.6m
cbm Units: 3
KPS – Thailand
Start year: 2012 Reserves:202.2m
cbm Units: 7
Hanoi – Vietnam
Start year: 2013 Reserves: 31.1m
cbm Units: 1
Batam – Indonesia Start year: 2012 Reserves: 145.2m
cbm Units: 2
Penang – Malaysia
Registered projectsProjects under registration or
validation
Start year: 2013 Reserves:30.3m
cbm Units: 1
Nonthaburi – Thailand
5. Phase 2: Electricity Generation
15
Landfill gas: a unique alternative power source
Landfill gas Solar Wind Hydro
Energy output for a 1MW capacity standard unit
8,000 MWh/y 6,000 MWh/y2,800 MWh/y1,300 MWh/y
Independence to weather / baseload capacity
√ √ √ X X √
Low capital cost per output √ √ √ √X √ √
Proximity to consumption centers
√ √ √ X X√ √
Resource availability √ √ √ √ √ √ √
Low balance of system costs √ √ √ √ √ √ √
Source: Bryan Garnier
5. Phase 2: Electricity Generation
Methane powered electricity generators can run 24 hours a day, 7 days a week (excluding maintenance downtime)
Waste-to-energy units are always located near densely populated areas and do not require costly infrastructure to deliver electricity directly to consumers
Landfill gas generation units consist of fairly common technology (gas engines), easily accessible from emerging countries, so that sourcing, operation and maintenance don’t require any specialized engineering
Though there are only limited quantities of landfill gas – as opposed to infinite potential reserves of sunlight or wind – the resource remains widely untapped and generation capacity from solid waste worldwide is far from ever reaching the level of landfill gas reserves turnover…
16
Glossary of terms
17
Glossary
Appendix
AAU: Assigned Amount Unit. Allowances for carbon emissions allocated to developed countries up to their target level under the Kyoto Protocol. These allowances are tradable under Kyoto's international emission trading mechanisms in place from 2008 to 2012. Each AAU equates to one tonne of CO2e.
Annex I, Annex B: The signatory nations to the Kyoto Protocol that are subject to caps on their emissions of greenhouse gases and committed to reduction targets – countries with developed economies. Annex I refers to the 36 countries identified for reduction in the UNFCCC while the Annex B is an adjusted list of 39 countries identified under the more recent Kyoto Protocol. Annex B countries have their reduction targets formally stated.
CDM: Clean Development Mechanism. A Kyoto Protocol initiative under which projects set up in developing countries to reduce greenhouse gas emissions generate tradable credits called CERs, the first step towards a global carbon market. These credits can be used by industrialized nations to offset carbon emissions at home and meet their Kyoto reduction targets. The projects include renewable energy generation, reforestation and clean fuels switching.
CER: Certified Emission Reduction. A credit generated under Kyoto’s Clean Development Mechanism (CDM) for the reduction of emissions of
greenhouse gases equal to one tonne of CO2- equivalent. They are designed to be used by industrialized countries to count toward their Kyoto
targets but can also be used by EU companies and governments as offsets against their emissions under the EU Emissions Trading Scheme.
Copenhagen Accord: The four-nation agreement struck by the US, China, India and South Africa at the 2009 Copenhagen climate conference and noted by the UN climate convention Council of the Parties. A limited political deal that the signatories hope will form the basis of a new global climate agreement from 2013.
ERPA: Emissions Reduction Purchase Agreement. Contracts governing the sale of CER carbon credits from UN CDM and JI projects. Heavily used for forward sales of CERs not yet issued, in projects under development, as a means of project financing. The price of such primary CERs is discounted in ERPAs to reflect the risks of non-delivery.
ERU: Emission Reduction Unit. Tradable credits generated from activities to reduce greenhouse emissions in in industrialized countries, particularly those of the former Soviet-bloc, under the Kyoto Protocol’s Joint Implementation (JI) mechanism.
EU ETS: EU Emission Trading Scheme. In 2005, the European Union introduced a market in carbon dioxide emissions for major emitting industries. The scheme is based on the allocation of carbon emission allowances, called EU Allowances (EUAs), to specific industrial sectors through national allocation plans (NAPs) that cap the total level of emissions at levels which reduce over time. The EU ETS applies to 7,300 companies and 11,500 installations in sectors with high carbon dioxide emissions across the 27 nations of the EU. These include: energy utilities, oil refineries, iron and steel producers, the pulp and paper industry as well as producers of cement, glass, lime, brick and ceramics. Aviation and aluminium are to be included in future years. The scheme is regulated by the European Commission (EC).
EUA: European Union Allowances. Tradable emission credits from the EU Emissions Trading Scheme. Each allowance carries the right to emit one tonne of carbon dioxide.
GHG: Green Houses Gas. The three most important greenhouse gases are: carbon dioxide (CO2), the biggest contributor to global warming;
methane (CH4), eg. from decomposing landfill and flatulent cattle; nitrous oxide (N20), eg. from vehicle exhaust fumes. There are also three
other industrial gases that contribute to global warming: hydrofluorocarbons (HFCs), used for refrigeration; perfluorocarbons (PFCs), produced in
the making of semi-conductors; sulphur hexafluoride (SF6), a by-product of aluminium manufacturing and the electronics industry.
18
Glossary
Appendix
JI: Joint Implementation. A Kyoto Protocol mechanism which allows developed countries, particularly those in transition to a market economy, to host carbon-reducing projects funded by another developed country. The arrangement sees the credits generated, called ERUs, go to the investor country while the emission allowances (AAUs) of the host country are reduced by the same amount.
Kyoto Protocol: This agreement, which came into force in 2005, commits developed nations collectively to cut their greenhouse gas emissions to 5.2 per cent of 1990 levels by 2012. By 2007, 175 countries had ratified the agreement, including most of the world's developed nations. The Kyoto Protocol was struck in 1997in Kyoto, Japan, when member nations of the United Nations Framework Convention on Climate Change (UNFCCC) agreed that developed countries must reduce their emissions of six greenhouse gases to meet the overall target, with specific targets varying from country to country. The Protocol came into force in February 2005 and includes 35 developed countries that account for 61.6 per cent of total world carbon dioxide emissions.
Leachate: Liquid (usually from rainwater) that percolates through waste material in a landfill. As the water moves through the waste, it picks up contaminants from the waste material, and it must be collected and properly disposed of, to avoid transferring the contaminants to groundwater.
LoA: Letter of Approval. With the issuance of a Letter of Approval the Host Country formally approves the project for the purposes of Article 6 or 12 of the Kyoto Protocol, and confirms that the project assists the Host Country in achieving sustainable development. A Letter of Approval is a requirement for all JI and CDM activities under the Kyoto Protocol and is therefore a prerequisite for the signing of an ERPA with the CFU Trustee.
Offsets: Carbon offsets, offset credits. Credits issued in return for a reduction of atmospheric carbon emissions through projects such as the provision of renewable energy to replace fossil fuel energy, or reforesting cleared land to create a carbon sink. By paying for such emission reducing activities, individuals and organisations can use the resulting credits to offset their own emissions, either voluntarily or under the rules of most emissions trading schemes. One offset credit equates to an emission reduction of one tonne of CO2. See also CER.
PDD: Project Design Document. The official application drawn up by an entity applying for project approval under the UN Clean Development Mechanism (CDM) or a verification standard in the voluntary carbon market. PDDs must be validated by an independent third party, then approved and registered by the CDM Executive Board or voluntary standard provider before a project qualifies as a CER or VER carbon credit earner.
RGGI: Regional Greenhouse Gas Initiative. A ten-state regional US emissions cap-and-trade scheme covering power plants from 2009. Scheduled to run until the end of 2018 unless superseded by a federal scheme, current members are Connecticut, Delaware, Maine, Maryland, Massachusetts, New Hampshire, New Jersey, New York, Rhode Island and Vermont.
tCO2e, MtCO2e: Tonnes of carbon dioxide equivalent, and millions of tonnes of carbon dioxide equivalent. This is the metric measurement unit
for greenhouse emissions. The global warming impact of all greenhouse gases is measured in terms of equivalency to the impact of carbon dioxide (CO2). For example, one million tonnes of emitted methane, a far more potent greenhouse gas than carbon dioxide, is measured as 21 million tonnes of CO2-equivalent, or 21 MtCO2e.
UNFCCC: United Nations Framework Convention on Climate Change. Also referred to informally as the UN climate change convention. It is the international agreement for action on climate change and was drawn up in 1992. A framework was agreed for action aimed at stabilising atmospheric concentrations of greenhouse gases. The UNFCCC entered into force on March 1994 and currently has 192 signatory parties. The UNFCCC in turn