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Premium member Presentation Transcript Baselines & Additionality Methodologies: Baselines & Additionality Methodologies Workshop on Clean Development Mechanism: Opportunities in Rajasthan January 28-29, 2005 Udit MathurWhat is a Baseline: What is a Baseline “The baseline for a CDM project activity that reasonably represents the anthropogenic emissions by sources of greenhouse gases that would occur in the absence of the proposed project activity.” The Marrakech AccordsBASELINE: BASELINE (4) CDM Project (2) (1) time Emission BASELINE DETERMINATION: BASELINE DETERMINATION Baseline should be established: By project participants using approved/new methodologies In a transparent and conservative manner, taking into account uncertainty On a project – specific basis For small scale projects, as per simplified procedures Taking into account relevant policies and economic situation in the project sectorApproaches to Baseline Determination: Approaches to Baseline Determination Existing actual or historical emissions Emissions from a technology representing economically attractive course of action, taking into account barriers to investment Average emissions of similar project activities undertaken in previous five years in similar circumstances and are in top 20% performance-wise BASELINE VALIDITY: BASELINE VALIDITY Maximum of seven years, renewable at most two times, or Maximum of 10 years with no option of renewalSlide7: Baselines - Determination of the ‘anyway scenario’ - what would have taken place anyway Questions Data Availability How fast are standard business practices changing ? Emissions vs technology benchmarks Sectoral / national or project level ? Static or dynamic ? Is it related to greenfield / retrofitting ? Are there identifiable project barriers ? Baselines for Energy Efficiency Projects: Baselines for Energy Efficiency Projects EE Projects can be categorised as Adoption of energy efficient equipment at many sites If energy displaced is fossil fuel, Baseline = Amount of fuel * Emission Coefficient of fuel If the energy displaced is electricity, Baseline = Energy baseline * Emission Coefficient of grid Energy efficiency and fuel switching measures at single industrial facility The energy baseline consists of the energy use of the existing equipment that is replaced in the case of retrofit measures and of the facility that would otherwise be built in the case of a new facility. Baseline = Energy Baseline * Emission Coefficient Energy efficiency and fuel switching measures for buildings Same calculation as above Baselines for Energy efficiency and fuel switching measures for buildings Hotel Orchid & Lotus Suites, Mumbai Energy use of equipment replaced =288,49,675 kWh/yr Emissions Baseline = 28849675 *1.0796kgCO2/kWh = 3959 tonnes CO2/yr: Baselines for Energy efficiency and fuel switching measures for buildings Hotel Orchid & Lotus Suites, Mumbai Energy use of equipment replaced =288,49,675 kWh/yr Emissions Baseline = 28849675 *1.0796kgCO2/kWh = 3959 tonnes CO2/yr Case StudyTypes of Eligible RE Projects: Types of Eligible RE Projects Solar Photovoltaics Mini Hydro Tidal/Wave Wind Geothermal Biomass Capacity < 15 MW for small scale projectsBaseline Determination for Small-scale Renewable energy projects : Baseline Determination for Small-scale Renewable energy projects The RE projects could be categorised as On-Grid Baseline = Kwh produced by RE generating unit * Emission Coefficient for the grid (kgCO2eq/kWh) Off-grid (Replacing existing fuels such as kerosene/diesel EB = Annual Output 1- Avg technical distribution losses from mini grids Thermal applications Solar thermal water heaters and dryers Solar cookers Bio-energy for water, space heating Case Study : Mini Hydel: Case Study : Mini Hydel Plant Details Installed Capacity: 3 MW Plant Load Factor : 75% Electricity Produced (Annually): 191.09 lakh units Auxiliary Consumption: 0.5% Transmission Losses: 2% Energy Available for sale: 175.8 lakh unitsCase Study : Mini Hydel: Grid Details: Relevant Grid : Northern Grid Grid Composition: Thermal – 74.1% Nuclear – 4.5% Hydro – 21.4% Transmission & Distribution Losses : 20% Baseline Carbon Emissions : 0.85 kgCO2/kWh Case Study : Mini HydelCase Study : Mini Hydel: Emission Reductions = Kwh produced by RE generating unit * Emission Coefficient (kg CO2equ/kWh) of the grid = 175.8 lakh*0.85 = 14943 tonnes CO2 /Yr Case Study : Mini HydelCase Study : Solar Lanterns: Case Study : Solar Lanterns Project Details: Installation of solar lanterns to replace kerosene lamps No. of lanterns: 10,000 Wattage : 10 W Usage : 4 hours per dayCase Study : Solar Lanterns: Energy Baseline = Annual Output 1- line losses = 150000 kWh/yr 1-.20 = 187,500 kWh/yr Emissions Baseline = 187500 * 0.9 = 168750 kgCO2/yr Case Study : Solar LanternsAdditionality: Additionality A CDM project activity is additional if anthropogenic emissions of greenhouse gases by sources are reduced below those that would have occurred in the absence of the registered CDM project activityAdditionality: Additionality Purpose To ensure that Emission Reduction due to Business-As-Usual measures in developing countries should not be credited under CDM Necessary Condition The emissions from thhe proposed project are less than the baseline emissions Sufficient Condition The proposed CDM project is not a baseline scenario project and hence would not have been implemented in absence of CDMTools for Assessment of Additionality: Tools for Assessment of Additionality Identification of alternatives to the Project Activity Investment Analysis to deteremine that the project activity is not the most economically or financially attractive Barrier Analysis Common Practice Analysis Impact of registration of the proposed project as a CDM project activityIdentification of Alternatives: Identification of Alternatives Alternatives include activities that provide outputs or services similar to proposed CDM activity …………….if proposed project activity is the only alternative amongst the ones considered that is in compliance with all regulations, then the proposed CDM activity is not additional Investment Analysis: Investment Analysis Determine appropriate analysis method If no financial/economic benefits from project then simple cost analysis otherwise investment comparison or benchmark analysis Comparision of Financial indicators Show that the CDM project does not have the highest IRR among the alternatives Sensitivity Analysis Show that conclusion regarding financial attractiveness is robust to variations in critical assumptionsBarrier Analysis: Barrier Analysis Determine whether the proposed activity faces barriers that Prevent the implementation of this type of project activity Do not prevent the implementation of atleast one of the alternatives Types of barriers Investment: e.g. lack of funding for such projects Technological: lack of skilled manpower, infrastructure Prevailing Practice: project activity “first of its kind” ……….if one of the above two steps not satisfied, project activity not additionalImpact of CDM Registration : Impact of CDM Registration Show how approval of project activity as CDM will alleviate economic and financial hurdles and other identified barriers. This may be benefits from CDM such as GHG reductions Revenues from selling CERs Attracting new players not exposed to same bariers ……….. If this step satisfied project activity additionalCase Study: Case Study Energy Efficiency in Buildings (Hotel Orchid & Lotus Suites, Mumbai) Additionality proved through: Lack of experience with energy efficiency investments Low priority towards data collection Cash Constraints Competition for capital Uncertain Energy Savings Case Study: Case Study Demand-side energy efficiency programmes for specific technologies (Vertical Shaft Brick Kiln) Additionality proved through: Investment barrier Technological barrier Barrier due to low penetration Barrier due to prevailing practice Case Study: Case Study Electricity Generation for the Grid Across RE projects, several barriers have been shown, such as Availability of finance Regulatory related barriers Low IRRs High investment costs Technological barriers, especially in wind and solar projects Slide27: Thank You You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
5 Udit 1 Stella Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 107 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: February 22, 2008 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Baselines & Additionality Methodologies: Baselines & Additionality Methodologies Workshop on Clean Development Mechanism: Opportunities in Rajasthan January 28-29, 2005 Udit MathurWhat is a Baseline: What is a Baseline “The baseline for a CDM project activity that reasonably represents the anthropogenic emissions by sources of greenhouse gases that would occur in the absence of the proposed project activity.” The Marrakech AccordsBASELINE: BASELINE (4) CDM Project (2) (1) time Emission BASELINE DETERMINATION: BASELINE DETERMINATION Baseline should be established: By project participants using approved/new methodologies In a transparent and conservative manner, taking into account uncertainty On a project – specific basis For small scale projects, as per simplified procedures Taking into account relevant policies and economic situation in the project sectorApproaches to Baseline Determination: Approaches to Baseline Determination Existing actual or historical emissions Emissions from a technology representing economically attractive course of action, taking into account barriers to investment Average emissions of similar project activities undertaken in previous five years in similar circumstances and are in top 20% performance-wise BASELINE VALIDITY: BASELINE VALIDITY Maximum of seven years, renewable at most two times, or Maximum of 10 years with no option of renewalSlide7: Baselines - Determination of the ‘anyway scenario’ - what would have taken place anyway Questions Data Availability How fast are standard business practices changing ? Emissions vs technology benchmarks Sectoral / national or project level ? Static or dynamic ? Is it related to greenfield / retrofitting ? Are there identifiable project barriers ? Baselines for Energy Efficiency Projects: Baselines for Energy Efficiency Projects EE Projects can be categorised as Adoption of energy efficient equipment at many sites If energy displaced is fossil fuel, Baseline = Amount of fuel * Emission Coefficient of fuel If the energy displaced is electricity, Baseline = Energy baseline * Emission Coefficient of grid Energy efficiency and fuel switching measures at single industrial facility The energy baseline consists of the energy use of the existing equipment that is replaced in the case of retrofit measures and of the facility that would otherwise be built in the case of a new facility. Baseline = Energy Baseline * Emission Coefficient Energy efficiency and fuel switching measures for buildings Same calculation as above Baselines for Energy efficiency and fuel switching measures for buildings Hotel Orchid & Lotus Suites, Mumbai Energy use of equipment replaced =288,49,675 kWh/yr Emissions Baseline = 28849675 *1.0796kgCO2/kWh = 3959 tonnes CO2/yr: Baselines for Energy efficiency and fuel switching measures for buildings Hotel Orchid & Lotus Suites, Mumbai Energy use of equipment replaced =288,49,675 kWh/yr Emissions Baseline = 28849675 *1.0796kgCO2/kWh = 3959 tonnes CO2/yr Case StudyTypes of Eligible RE Projects: Types of Eligible RE Projects Solar Photovoltaics Mini Hydro Tidal/Wave Wind Geothermal Biomass Capacity < 15 MW for small scale projectsBaseline Determination for Small-scale Renewable energy projects : Baseline Determination for Small-scale Renewable energy projects The RE projects could be categorised as On-Grid Baseline = Kwh produced by RE generating unit * Emission Coefficient for the grid (kgCO2eq/kWh) Off-grid (Replacing existing fuels such as kerosene/diesel EB = Annual Output 1- Avg technical distribution losses from mini grids Thermal applications Solar thermal water heaters and dryers Solar cookers Bio-energy for water, space heating Case Study : Mini Hydel: Case Study : Mini Hydel Plant Details Installed Capacity: 3 MW Plant Load Factor : 75% Electricity Produced (Annually): 191.09 lakh units Auxiliary Consumption: 0.5% Transmission Losses: 2% Energy Available for sale: 175.8 lakh unitsCase Study : Mini Hydel: Grid Details: Relevant Grid : Northern Grid Grid Composition: Thermal – 74.1% Nuclear – 4.5% Hydro – 21.4% Transmission & Distribution Losses : 20% Baseline Carbon Emissions : 0.85 kgCO2/kWh Case Study : Mini HydelCase Study : Mini Hydel: Emission Reductions = Kwh produced by RE generating unit * Emission Coefficient (kg CO2equ/kWh) of the grid = 175.8 lakh*0.85 = 14943 tonnes CO2 /Yr Case Study : Mini HydelCase Study : Solar Lanterns: Case Study : Solar Lanterns Project Details: Installation of solar lanterns to replace kerosene lamps No. of lanterns: 10,000 Wattage : 10 W Usage : 4 hours per dayCase Study : Solar Lanterns: Energy Baseline = Annual Output 1- line losses = 150000 kWh/yr 1-.20 = 187,500 kWh/yr Emissions Baseline = 187500 * 0.9 = 168750 kgCO2/yr Case Study : Solar LanternsAdditionality: Additionality A CDM project activity is additional if anthropogenic emissions of greenhouse gases by sources are reduced below those that would have occurred in the absence of the registered CDM project activityAdditionality: Additionality Purpose To ensure that Emission Reduction due to Business-As-Usual measures in developing countries should not be credited under CDM Necessary Condition The emissions from thhe proposed project are less than the baseline emissions Sufficient Condition The proposed CDM project is not a baseline scenario project and hence would not have been implemented in absence of CDMTools for Assessment of Additionality: Tools for Assessment of Additionality Identification of alternatives to the Project Activity Investment Analysis to deteremine that the project activity is not the most economically or financially attractive Barrier Analysis Common Practice Analysis Impact of registration of the proposed project as a CDM project activityIdentification of Alternatives: Identification of Alternatives Alternatives include activities that provide outputs or services similar to proposed CDM activity …………….if proposed project activity is the only alternative amongst the ones considered that is in compliance with all regulations, then the proposed CDM activity is not additional Investment Analysis: Investment Analysis Determine appropriate analysis method If no financial/economic benefits from project then simple cost analysis otherwise investment comparison or benchmark analysis Comparision of Financial indicators Show that the CDM project does not have the highest IRR among the alternatives Sensitivity Analysis Show that conclusion regarding financial attractiveness is robust to variations in critical assumptionsBarrier Analysis: Barrier Analysis Determine whether the proposed activity faces barriers that Prevent the implementation of this type of project activity Do not prevent the implementation of atleast one of the alternatives Types of barriers Investment: e.g. lack of funding for such projects Technological: lack of skilled manpower, infrastructure Prevailing Practice: project activity “first of its kind” ……….if one of the above two steps not satisfied, project activity not additionalImpact of CDM Registration : Impact of CDM Registration Show how approval of project activity as CDM will alleviate economic and financial hurdles and other identified barriers. This may be benefits from CDM such as GHG reductions Revenues from selling CERs Attracting new players not exposed to same bariers ……….. If this step satisfied project activity additionalCase Study: Case Study Energy Efficiency in Buildings (Hotel Orchid & Lotus Suites, Mumbai) Additionality proved through: Lack of experience with energy efficiency investments Low priority towards data collection Cash Constraints Competition for capital Uncertain Energy Savings Case Study: Case Study Demand-side energy efficiency programmes for specific technologies (Vertical Shaft Brick Kiln) Additionality proved through: Investment barrier Technological barrier Barrier due to low penetration Barrier due to prevailing practice Case Study: Case Study Electricity Generation for the Grid Across RE projects, several barriers have been shown, such as Availability of finance Regulatory related barriers Low IRRs High investment costs Technological barriers, especially in wind and solar projects Slide27: Thank You