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UNFCCC verifications

0099/53: N2O Emission Reduction in Onsan, Republic of Korea
Nitrous oxide (N2O) is a by-product of adipic acid production. It is of low toxicity but is a greenhouse gas (GHG), whose GWP is large (GWP=310 in the IPCC 2nd Assessment Report). In this project, Rhodia Polyamide Co. Ltd additionally installed N2O collection and thermal decomposition process equipment to the currently operating adipic acid manufacturing plant.

0151/20: Quimobásicos HFC Recovery and Decomposition Project , Mexico
The project activity involves the installation of an in-flight argon plasma arc facility to decompose the HFC23 generated as by-product of HCFC 22 production of Quimobásicos S.A. de C.V. at their plant in Moterrey, Mexico. As a brief description of the process, the waste gas stream enters into the plasma torch, which is of segmented design, using argon as plasma gas. The argon plasma is generated by a direct current discharge between a cathode and an anode.

0151/24: Quimobásicos HFC Recovery and Decomposition Project , Mexico
The project activity involves the installation of an in-flight argon plasma arc facility to decompose the HFC23 generated as by-product of HCFC 22 production of Quimobásicos S.A. de C.V. at their plant in Moterrey, Mexico. As a brief description of the process, the waste gas stream enters into the plasma torch, which is of segmented design, using argon as plasma gas. The argon plasma is generated by a direct current discharge between a cathode and an anode.

0151/25: Quimobásicos HFC Recovery and Decomposition Project , Mexico
The project activity involves the installation of an in-flight argon plasma arc facility to decompose the HFC23 generated as by-product of HCFC 22 production of Quimobásicos S.A. de C.V. at their plant in Moterrey, Mexico. As a brief description of the process, the waste gas stream enters into the plasma torch, which is of segmented design, using argon as plasma gas. The argon plasma is generated by a direct current discharge between a cathode and an anode.

0165/11: ESTRE’s Paulínia Landfill Gas Project (EPLGP). Brazil
The purpose of the project “ESTRE’s Paulínia Landfill Gas Project (EPLGP)” is focused on the capturing and flaring of landfill gas. Landfill gas contents about 50 % of methane which is a significant greenhouse gas. Through flaring of the landfill gas by an active recovery system, methane emissions are avoided. The project substitutes the previous installed passive venting system, thus increasing the efficiency in gas collection and flaring.

0176/4: Meizhou Landfills Gas Recovery and Utilization as Energy, China
The purpose of the project activity is to destroy methane from a nearby municipal landfill by flaring and generation of electricity for supply to the grid.

0195/5: Rice Husk based Cogeneration project at Shree Bhawani Paper Mills Limited (SBPML), Rae Bareli, Uttar Pradesh, India
The project involves the implementation of a biomass-based co-generation plant. The installed capacity of the plant is 3 MW el. The fuel used is primarily rice husk, which is abundantly available in the vicinity of the site. The electricity generated will be sold primarily to the state grid.

0361/3: Optimum utilisation of clinker by PPC production at Binani Cement Limited, Rajasthan , India
The project activity entails a reduction of the clinker content by producing the Portland Pozzolana Cement threby replacing an equivalent amount of clinker at Binani Cement`s cement manufacturing units at Binanigram, Rajasthan. The project activity aims to optimally utilize the clinker in PPC manufacturing. Reduction in percentage of clinker used in cement manufacturing would eventually be helpful in reducing GHGs emissions associated with clinker manufacturing.

0372/1: 7.5 MW Biomass (Mustard crop residue) based Power Project at RIICO Industrial area, Rajasthan by M/s Amrit Environmental Technologies Pvt. Ltd. , India
The project activity consists of setting up a single boiler of 40 tons per hour capacity and a condensing steam generator set of 7.5 MW. The project activity will consume renewable biomass (mustard crop residue) of about 71 449 MT annually. Since biomass assessment studies indicate that mustard crop residue is abundantly available in the region, no use of auxiliary fossil fuels is envisaged. However, in the case of extreme emergencies, lignite may be used as an auxiliary fuel.

0373/16: São João Landfill Gas to Energy Project (SJ) , Brazil
“São João Landfill Gas to Energy Project (SJ)” is a project designed to explore the landfill gas produced in Sao Joao landfill, one of the landfills in Sao Paulo, Brazil. This landfill is located in the metropolitan region of São Paulo, Brazil’s biggest city and financial center of the country. Aiming to avoid environmental problems related to methane emissions, including also global warming, “São João Landfill Gas to Energy Project (SJ)” was the designed solution created by Biogás.

0385/1: Kina Biopower 11.5MW EFB Power Plant ,Malaysia
The purpose of the project activity is to utilize empty fruit bunches (EFB), an abundant waste product of the palm oil milling process, as the primary biomass fuel for power generation. Kina Biopower Sdn. Bhd. (KBSB), which is jointly set up by Riang Jernth Sdn. Bhd., GOBIO Sdn. Bhd., Agritech Marketing Company Limited and Agritech Marketing Company (Singapore) Private Limited, will construct a 100% biomass based power plant with gross generation capacity of 11.5MW (10MW net) at Sandakan, Sabah, in Malaysia.

0385/2: Kina Biopower 11.5MW EFB Power Plant ,Malaysia
The purpose of the project activity is to utilize empty fruit bunches (EFB), an abundant waste product of the palm oil milling process, as the primary biomass fuel for power generation. Kina Biopower Sdn. Bhd. (KBSB), which is jointly set up by Riang Jernth Sdn. Bhd., GOBIO Sdn. Bhd., Agritech Marketing Company Limited and Agritech Marketing Company (Singapore) Private Limited, will construct a 100% biomass based power plant with gross generation capacity of 11.5MW (10MW net) at Sandakan, Sabah, in Malaysia.

0386/1: Seguntor Bioenergy 11.5MW EFB Power Plant, Malaysia
The purpose of the “Seguntor Bioenergy 11.5MW EFB Power Plant” project is to utilize empty fruit bunches (EFB), a waste product of the palm oil milling process, as the primary biomass fuel for power generation. The project is located in Sandakan, East coast of Sabah, in Malaysia. Four palm oil mills in the neighborhood will supply the EFB to the power plant. The majority of the electricity generated (87%) will be sold to the Sabah Electricity Sdn. Bhd. (SESB) grid, thereby partly displacing electricity from fossil fuel plants.

0386/2: Seguntor Bioenergy 11.5MW EFB Power Plant, Malaysia
The purpose of the “Seguntor Bioenergy 11.5MW EFB Power Plant” project is to utilize empty fruit bunches (EFB), a waste product of the palm oil milling process, as the primary biomass fuel for power generation. The project is located in Sandakan, East coast of Sabah, in Malaysia. Four palm oil mills in the neighborhood will supply the EFB to the power plant. The majority of the electricity generated (87%) will be sold to the Sabah Electricity Sdn. Bhd. (SESB) grid, thereby partly displacing electricity from fossil fuel plants.

0406/1: MSS Biomass 9.7 MWe Condensing Steam Turbine Project, Indonesia
The project consists of the construction of a new cogeneration unit running on Palm Kernel Shell (PK Shell) and palm kernel fibre. Both PK Shell and fibre are biomass produced as by-products from the production of palm oil and palm kernels from palm fruit in a Palm Oil Mill. These by-products are commonly used as fuel for Palm Oil Mills on Sumatra who are self sufficient in their own heat supply.

0407/1: MNA Biomass 9.7 MWe Condensing Steam Turbine Project , Indonesia
The project consists of the construction of a new boiler and condensing steam turbine for the production of electricity running on Palm Kernel Shell (PK Shell) and palm kernel fibre. Both PK Shell and fibre are biomass produced as by-products from the production of palm oil and palm kernels from palm fruit in a Palm Oil Mill. These by-products are commonly used as fuel for Palm Oil Mills on Sumatra who are self sufficient in their own heat supply.

0446/2: PetroSA Biogas to Energy Project, South Africa
PetroSA (The Petroleum Oil and Gas Corporation of South Africa) is a state-owned petroleum refinery which is situated some 12 kilometres from Mossel Bay, on the south coast of South Africa. The production process at the plant results in waste process water that has been processed through anaerobic digestion. The anaerobic digestion is continuous and a critical process for the operation of the PetroSA plant. In the anaerobic digestion process biogas is naturally generated.

0450/3: Methane Capture and Combustion from Swine Manure Treatment Project at PT Indotirta Suaka Bulan Farm in Indonesia
The project activity involves the installation of anaerobic digesters to collect and combust the methane from the manure treatment system of the pig farm PT Indotirta Suaka, which is locate in the Bulan Island, Indonesia. Through the implementation of this technology the methane emission reduction will be achieved

0487/1: Djebel Chekir Landfill Gas Recovery and Flaring Project – Tunisia
The purpose of the project activity is to implement an LFG recovery and flaring system, in order to reduce CH4 emissions for the benefit of global climate, and thus to generate Certified Emissions Reductions CERs.

0493/3: Indocement Alternative Fuels Project, Indonesia
The purpose of this project is to reduce CO2 emissions through use of alternative fuels in clinker burning. Coal, oil, and natural gas are the traditional fuel inputs into the cement production process. The project aims at introducing alternative fuels to substitute the fossil fuels, predominantly coal, that were consumed during clinker burning at Indocement’s production plants.

0497/1: 1 MW Donghae PV(photovoltaic) Power Plant, Republic of Korea
The PV power plant generates electricity utilizing photovoltaic which emits zero greenhouse gas (GHG) into the atmosphere or water system without any natural resources depletion. The project supports the government policy which promotes development of renewable energy technology in Republic of Korea.

0508/2: Onyx Alexandria Landfill Gas Capture and Flaring Project, Egypt
The purpose of the project activity is to maximise the capture of landfill gas (LFG) from two new landfill sites and destroying it by flaring. It applies the CDM methodology ACM0001, vers.2.

0508/4: Onyx Alexandria Landfill Gas Capture and Flaring Project, Egypt
The purpose of the project activity is to maximise the capture of landfill gas (LFG) from two new landfill sites and destroying it by flaring. It applies the CDM methodology ACM0001, vers.2.

0508/5: Onyx Alexandria Landfill Gas Capture and Flaring Project, Egypt
The purpose of the project activity is to maximise the capture of landfill gas (LFG) from two new landfill sites and destroying it by flaring. It applies the CDM methodology ACM0001, vers.2.

0523/1: Ecatepec – EcoMethane Landfill Gas to Energy Project, Mexico
The Project is a landfill gas (LFG) collection and utilisation project taking place at the Santa Maria Chiconautla landfill in the Municipality of Ecatepec, Mexico, hereafter referred to as the “Host Country”. The project will have an electricity component with an installed capacity between 2 and 5 MW.

0586/1: Landfill Gas Recovery and Flaring for 9 bundled landfills in Tunisia
The project activity will install a gas recovery and flaring system in each of the nine landfills, in order to reduce CH4 emissions, and thus generate CERs, while ensuring safety at the Landfill sites, serving sustainable development purposes, and providing additional resources to environment protection in Tunisia.

0588/3: 12MW Captive Power Project based on Waste Heat Recovery of Industrial Waste Gases, India
The purpose of the project is to utilize sensible heat of the waste gases from non-recovery type coke oven batteries for effective generation of electricity. The electricity is primarily consumed in-house at Rachhagunneri unit of LIL and surplus is exported to the state grid.

0708/3: Huaycoloro landfill gas capture and combustion, Peru
The project’s purpose is to reduce greenhouse gases emissions, in particular reduce methane emissions through combusting Huaycoloro’s landfill gas to generate electricity up to a generation capacity of 5.74 MW2 and flaring the remaining LFG that is not fed into the 5.74 MWelectricity generator; and reduce carbon dioxide emissions through supplying renewable electricity to the SEIN-National Interconnected Electricity System.

0788/1: Korea South-East Power Co. (KOSEP) small scale hydroelectric power plants project, Republic of Korea
The sea-water is used as cooling water in the thermal power plant. The used cooling water makes net head being drained to the sea and it is possible to generate the electric power by the net head. KOSEP is constructing small-scale hydroelectric power plants in the Samchonpo thermal power plant and Younghung thermal power plant.

0799/8: Santa Marta Landfill Gas (LFG) Capture Project, Chile
Santa Marta Landfill Gas (LFG) Capture Project is a project designed to explore the landfill gas produced in Santa Marta landfill, one of the landfills in Santiago, Chile. This landfill is located in the metropolitan region of Santiago in the Talagante Province, Chile’s biggest city and financial center of the country.

0802/3: Rice husk based cogeneration power plant-II at SBPML, India
The purpose of the project activity is to have combined heat and power generation to meet energy requirements and to improve overall efficiency of the manufacturing facility. The project involves a biomass-based co-generation power plant which utilizes direct combustion boiler technology.

0825/1: Henan Luyi 25MW Biomass Cogeneration Project, China
The Henan Luyi 25MW Biomass Cogeneration Project is a biomass utilization project that is to use local straw from wheat, maize and cotton for electricity generation and district heating. The proposed project involves the installation of two biomass combustion boilers and one power generator driven by steam turbine.

0827/1: Biomass Based Cogeneration Power Project In Uttar Pradesh, India
The proposed CDM project activity is generation of power in biomass based power generation in Uttar Pradesh India. The project activity is the burning of biomass from the paper industry. The biomass is fed into the boiler which produces steam and the steam produced is fed to the turbo generator to produce electricity.

0835/1: Switching of fuel from Low Sulphur Waxy Residue fuel oil to natural gas at Gangnam branch Korea District Heating Corporation Project, Republic of Korea
In the project activity, the existing four LSWR heat-only boilers would be replaced by three natural gas heat-only boilers until the end of 2007. The project activity primarily aims at reducing greenhouse gas emission by the boilers’ fuel from LSWR to natural gas.

0837/3: Kaifeng Jinkai N2O Abatement Project, China
The aim of the project activity is to reduce N2O emissions in the tail gas at nitric acid production process by installation of a DeN2O catalyst at the medium-pressure line.

0837/4: Kaifeng Jinkai N2O Abatement Project, China
The aim of the project activity is to reduce N2O emissions in the tail gas at nitric acid production process by installation of a DeN2O catalyst at the medium-pressure line.

0839/3: Talia Landfill Gas Recovery Project and Electricity Production, Israel
The purpose of the project is to extract landfill gas from an existing landfill and uses its methane content for energy production. The project is located in the Jordan Valley near the agriculture community Menahamia.

0868/15: No.2 HFC23 Decomposition Project of Zhejiang Juhua Co., Ltd, P. R. China
The project comprises a decomposition of HFC23 in a HCFC22 production plant. The proposed project involves the installation of a HFC23 collection system including three HFC23 buffer tanks in this project.

0947/1: Biomass Based Cogeneration Units at Uttar Pradesh , India
KR Pulp & Papers Ltd (KRPPL) and Garg Duplex & Paper P Ltd (GDPL) are into business of paper manufacturing. In terms of energy consumption, Paper industry ranks 5th falling behind steel, fertiliser, cement industries. It is a common practice in the region to meet electricity requirements of the paper manufacturing process by either drawing power from state grid or by captive Diesel Gen sets (DG). Steam requirements of the process are met by low pressure boilers.

0961/3: Sasol Nitrous Oxide Abatement Project, South Africa
The project activity involves the installation of a secondary catalyst to abate N2O inside the ammonia burner once it is formed. Nitrous Oxide (N2O) is an undesired by-product gas from the manufacture of nitric acid. Nitrous oxide is formed during the catalytic oxidation of Ammonia. Over a suitable catalyst, a maximum 98% (typically 92-96%) of the fed Ammonia is converted to Nitric Oxide (NO). The remainder participates in undesirable side reactions that lead to the production of Nitrous Oxide, among other compounds.

0961/4: Sasol Nitrous Oxide Abatement Project, South Africa
The project activity involves the installation of a secondary catalyst to abate N2O inside the ammonia burner once it is formed. Nitrous Oxide (N2O) is an undesired by-product gas from the manufacture of nitric acid. Nitrous oxide is formed during the catalytic oxidation of Ammonia. Over a suitable catalyst, a maximum 98% (typically 92-96%) of the fed Ammonia is converted to Nitric Oxide (NO). The remainder participates in undesirable side reactions that lead to the production of Nitrous Oxide, among other compounds.

1052/1: Chacabuquito Hydroelectric Power Project , Chile
The Chacabuquito hydroelectric power project consists of a run-of-river power plant with 26 MW capacity that utilizes the waters of the Aconcagua river. It produces an average annual generation of 175 GWh gross (160 GWh net and 0.77 plant factor (load factor)). The project connects to the 5th Region’s grid at a 110 kV sub-system within the Central Interconnected System (SIC) of Chile and energy is delivered to industrial and residential consumers in the area.

1075/2: Guangzhou Xingfeng Landfill Gas Recovery and Electricity Generation CDM Project , China
The proposed project will generate electricity by collecting and using xingfeng landfill gas, connecting to local power grid, which will not only guarantee the landfill site safety and utilize the waste resource with environmental benefit, but also avoid landfill gas emission to the atmosphere directly and reduce coal consumption for generation in local grid, therefore, the GHG emissions are reduced and the climate change is mitigated.

1176/1: PT. BUDI ACID JAYA Tapioca Starch Production Facilities Effluent Methane Extraction And On-site Power Generation Project in Lampung Province, Republic of Indonesia
The Project activity involves the installation of a closed anaerobic wastewater treatment and biogas extraction system at an existing tapioca starch manufacturing plant and its auxiliary facilities for treatment of organic wastewater, which is currently treated at an open lagoon based system. The collected biogas will be utilized for electricity generation which will be used on-site.

1198/1: Co-composting of EFB and POME – MG BioGreen Sdn.Bhd (MGBG) , Malaysia
The main objective is to reduce the pollution potential of organic agricultural waste to surface and ground water by its indoor aerobic composting. It consists of co-composting of empty fruit bunches (EFB), a solid waste generated during the palm oil extraction process that would have been left to decay anaerobically in a solid waste landfill along with palm oil mill effluent (POME) that is treated in existing anaerobic lagoons before discharge.

1229/13: Catalytic N2O destruction project in the tail gas of the nitric acid plant PANNA 3 of Enaex S.A. , Chile
The project consists of the installation of a tertiary N2O reduction technology (EnviNOx® process) in the tail gas stream of the nitric acid production plant of ENAEX S.A., Chile. Nitrous oxide which is formed as by-product of the nitric acid production will be removed by the EnviNOx®-System which applies a special catalyst developed for this specific purpose. The emission reductions are a result of the catalytic reduction of nitrous oxide in the implemented EnviNOx® System.

1258/6: Quezon City Controlled Disposal Facility Biogas Emission Reduction Project , Philippines
The Project activity involves the extraction, collection, processing and flaring, including the conversion into electricity of the biogas emissions at the Quezon City Controlled Disposal Facility (“Facility”) located in Area 2, Barangay Payatas, Quezon City, the Philippines.

1263/1: Shandong Wudi Biomass Generation Project, China
The Shandong Wudi Biomass Generation Project (hereafter refers to the proposed project), located in Wudi County, Shandong Province, P. R. China, is a biomass utilization project that is to use local straw from cotton for electricity generation. The proposed project involves the installation of two biomass combustion boilers and two power generators driven by steam turbine. The installed capacity of the proposed project is 24 MW and the power supply is 112,086 MWh per annum.

1267/1: Puclaro Hydroelectric Power Plant, Chile
The project consists in the building and operation of a 5.8 MW hydroelectric power plant in the northern region of Coquimbo, Chile. The project site is located in the Elqui Valley, and will use for electricity generation the water contained in the already built Puclaro reservoir.

1293/1: Heilongjiang Tangyuan Biomass Cogeneration Project , China
The proposed project involves the installation of two biomass combustion boilers, two sets of steam turbines and two power generators. The installed capacity of the proposed project is 24 MW and the power supply is 124,000 MWh per year. The advanced technology of biomass cogeneration in China is employed in the proposed project, which will assist in the innovation of advanced biomass technology in China.

1397/2: Comprehensive utilization of waste coal gas for electricity generation project in Shaanxi Xinglong Cogeneration Co. Ltd , China
The proposed projects includes two 130t/h gas-fired boilers and two sets of 25MW condensing steam turbine with bleeding. The fuel to be used in the proposed project will be the waste gas from blast furnace and converter which is surplus coal gas after balance and now open flaring in absence of the proposed project. The project participants intends to utilize these waste gases from Shaanxi Longmen Iron & Steel for power generation.

1519/1: Surat Thani Biomass Power Generation Project in Thailand
The Project aims to use empty fruit bunches (EFB), a waste product of the palm oil milling process, as the primary fuel for power generation.

1519/2: Surat Thani Biomass Power Generation Project in Thailand
The Project aims to use empty fruit bunches (EFB), a waste product of the palm oil milling process, as the primary fuel for power generation.

1605/4: Shaba 24MW Hydropower Project in Yunnan Province, China
The proposed project is a water-diversion-type run-of-river hydropower plant, a new reservoir without regulation was built, the project activity involves the installation of 3 turbines, each of which has a rated output of 8MW, total capacity is 24MW, the water diversion project includes a 346.5m diversion canal and a 1,825m diversion tunnel. The canal is supported by concrete structure with its cross section to be 4.2*5.0m. The tunnel is in the shape of an arch of 4.2m wide, 5.612m high and 0.4m-0.6m thick. The head pond has two rooms of 6000m3.

1626/1: Feira de Santana Landfill Gas Project, Brazil
The objective of Feira de Santana Landfill Gas Project is to capture and use landfill gas (LFG) generated through the decomposition of the organic waste disposed at Feira de Santana landfill site. This will involve investing in a landfill gas collection system, a flare station and equipment for the generation of electricity and/or thermal energy.

1745/1: Nanchang Maiyuan Landfill Gas Recovery and Utilisation Project, China
The project involves the extraction of landfill gas (LFG) at the Nanchang Maiyuan Landfill site. The LFG is captured and utilised for the production of electricity. The electricity generated is delivered to China Central Power Grid (CCPG). Therefore, the GHG emissions are achieved via methane destruction and displacement of electricity otherwise produced by the grid connected thermal power plants.

1754/2: Visakhapatnam (India) OSRAM CFL distribution CDM Project
The purpose of the project is to increase the efficiency of the domestic lighting use in the project area by replacing inefficient incandescent lamps (GLS) by highly efficient OSRAM Long Life Compact Fluorescent Lamps (CFL).

1774/2: Electricity generation from mustard crop residues: Tonk, India
The following proposed CDM project activity is located in the State of Rajasthan, India. The project involves the implementation of a biomass-based power generation plant using direct combustion boiler technology by Kalpataru Power Transmission Ltd. (KPTL), a leading firm in the implementation of power transmission and distribution systems. The installed capacity of the plant is 8 MWel. The fuel used is primarily mustard crop residue, which is abundantly available in the vicinity of the site. The electricity generated will be sold primarily to the state grid.

1817/3: Fengguang 24.9MW Hydropower Project in Guangdong Province, China
Fengguang 24.9MW Hydropower Project in Guangdong Province, China (hereafter referred to as “the proposed project”) is a run-of-river hydropower project with a total installed capacity of 24.9MW (3×8.3MW). It is located on the Dongjiang River Heyuan City. Dongjiang Fengguang Likou Power Plant Development Co.Ltd is in charge of its construction and operation. The proposed project started its main construction engineering in May 2006, and it is estimated that all the three generators will generate electricity in July 2008.

1853/1: Montalban Landfill Methane Recovery and Power Generation Project
The primary purpose of the project is to collect and capture land fill gas “LFG” from the Montalban landfill through installation of an LFG collection system and destruction of methane contained in LFG through flaring or generation of electricity.

1887/2: Huainan Panyi and Xieqiao Coal Mine Methane Utilization Project
Huainan Panyi and Xieqiao Coal Mine Methane Utilization Project is located in Huainan City, Anhui Province, P.R.China. The objective of the Project is to utilize the gas which was vented into the atmosphere for energy supply.

1902/3: Fuel Switching at Atocongo Cement Plant and Natural Gas Pipeline Extension, Cementos Lima, Peru
The proposed project “Fuel Switching at Atocongo Cement Plant and Natural Gas Pipeline Extension” consists in the switching from coal to natural gas in two cements kilns at Atocongo Cement Plant, in Peru. The project considers the installation of natural gas burners in the cement kilns and also contemplates the construction of a natural gas pipeline, from a distribution point located 3.5 km south-west from the Atocongo Cement Plant, and the implementation of a regulation and measurement station at the site in order to get the required supply of natural gas.

1926/3: Fuxin CMM/CBM Utilization Project in Liaoning Province , China
Fuxin Coal Mine Methane (CMM)/Coal Bed Methane (CBM) Utilization Project (hereafter referred to as “the project”) will use and destroy CMM and CBM that would otherwise have been vented, in new power production facilities and for gas supply to residential consumers. Prior to implementation of the project, the Fuxin mining area makes use of both CMM drainage and mine ventilation to maintain safe methane concentrations within the mines. Of the methane drained prior to the start of the project activity, approximately 85% was vented to the atmosphere.

1944/1: Milpillas Landfill Gas Recovery Project
The objective of the project is to avoid methane emissions generated in the Milpillas-Tetlama waste disposal site through the installation of an ef flaring system.

2232/2: Catalytic N2O Abatement Project in the tail gas of the Caprolactam production plant in Thailand
The aim of the project activity is to reduce N2O emissions by installation of DeN2O Unit before the Stack, which is called Tertiary Catalyst System or Tail Gas System.

2243/3: Reduction of N2O emissions at shop#25, production line #1 at “Navoiazot” plant, Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2243/4: Reduction of N2O emissions at shop#25, production line #1 at “Navoiazot” plant, Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2243/5: Reduction of N2O emissions at shop#25, production line #1 at “Navoiazot” plant, Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2244/1: Reduction of N2O emissions at shop#25, production line #2 at “Navoiazot” plant , Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2244/2: Reduction of N2O emissions at shop#25, production line #2 at “Navoiazot” plant , Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2244/3: Reduction of N2O emissions at shop#25, production line #2 at “Navoiazot” plant , Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2244/4: Reduction of N2O emissions at shop#25, production line #2 at “Navoiazot” plant , Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2244/5: Reduction of N2O emissions at shop#25, production line #2 at “Navoiazot” plant , Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2245/1: Reduction of N2O emissions at shop#25, production line #3 at ”“Navoiazot”” plant , Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2245/2: Reduction of N2O emissions at shop#25, production line #3 at ”“Navoiazot”” plant , Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2245/3: Reduction of N2O emissions at shop#25, production line #3 at ”“Navoiazot”” plant , Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2245/4: Reduction of N2O emissions at shop#25, production line #3 at ”“Navoiazot”” plant , Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2245/5: Reduction of N2O emissions at shop#25, production line #3 at ”“Navoiazot”” plant , Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2246/1: Reduction of N2O emissions at shop#25, production line #4 at ”“Navoiazot”” plant , Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2246/2: Reduction of N2O emissions at shop#25, production line #4 at ”“Navoiazot”” plant , Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2246/3: Reduction of N2O emissions at shop#25, production line #4 at ”“Navoiazot”” plant , Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2246/4: Reduction of N2O emissions at shop#25, production line #4 at ”“Navoiazot”” plant , Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2246/5: Reduction of N2O emissions at shop#25, production line #4 at ”“Navoiazot”” plant , Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2308/1: Reduction of N2O emissions at “Maxam-Chirchik” plant, Uzbekistan
The purpose of the project activity is to reduce N2O emissions by installation of secondary catalysts inside the ammonia oxidation reactor (AOR) at one (AK-72M) of the two production plants in OJSC “Maxam-Chirchiq”.

2308/2: Reduction of N2O emissions at “Maxam-Chirchik” plant, Uzbekistan
The purpose of the project activity is to reduce N2O emissions by installation of secondary catalysts inside the ammonia oxidation reactor (AOR) at one (AK-72M) of the two production plants in OJSC “Maxam-Chirchiq”.

2309/2: Shaanxi Xinghua N2O Abatement Project, China
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions Shaanxi Xinghua Chemistry Co., Ltd. mainly manufactures ammonium nitrate and has two nitric acid plants (Line-1 and Line-2). The aim of the project activity is to reduce N2O emissions by installation of secondary catalysts inside the ammonia oxidation reactors (AORs) at both plants of Xinghua.

2309/3: Shaanxi Xinghua N2O Abatement Project, China
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions Shaanxi Xinghua Chemistry Co., Ltd. mainly manufactures ammonium nitrate and has two nitric acid plants (Line-1 and Line-2). The aim of the project activity is to reduce N2O emissions by installation of secondary catalysts inside the ammonia oxidation reactors (AORs) at both plants of Xinghua.

2310/1: Reduction of N2O emissions at “Ferganaazot” plant
The purpose of the project activity is to reduce N2O emissions by installation of secondary catalysts inside the ammonia oxidation reactor (AOR) at a nitric acid production plants in OJSC “Farg’onaazot”.

2310/2: Reduction of N2O emissions at “Ferganaazot” plant
The purpose of the project activity is to reduce N2O emissions by installation of secondary catalysts inside the ammonia oxidation reactor (AOR) at a nitric acid production plants in OJSC “Farg’onaazot”.

2327/1: Anhui Huainan Chemical N2O Abatement Project at Nitric Acid Plant Line4
Anhui Huainan Chemical N2O Abatement Project at Nitric Acid Plant Line4 was implemented by installing a dedicated N2O abatement catalyst inside the ammonia oxidation reactor (AOR) at the medium pressure plant Line 4 to reduce emission of Nitrous Oxide (N2O), which is an undesired by-product gas in the manufacture of nitric acid and is usually released into the atmosphere.

2327/2: Anhui Huainan Chemical N2O Abatement Project at Nitric Acid Plant Line4
Anhui Huainan Chemical N2O Abatement Project at Nitric Acid Plant Line4 was implemented by installing a dedicated N2O abatement catalyst inside the ammonia oxidation reactor (AOR) at the medium pressure plant Line 4 to reduce emission of Nitrous Oxide (N2O), which is an undesired by-product gas in the manufacture of nitric acid and is usually released into the atmosphere.

2327/3: Anhui Huainan Chemical N2O Abatement Project at Nitric Acid Plant Line4
Anhui Huainan Chemical N2O Abatement Project at Nitric Acid Plant Line4 was implemented by installing a dedicated N2O abatement catalyst inside the ammonia oxidation reactor (AOR) at the medium pressure plant Line 4 to reduce emission of Nitrous Oxide (N2O), which is an undesired by-product gas in the manufacture of nitric acid and is usually released into the atmosphere.

2457/1: Yamunanagar & Sonipat (India) OSRAM CFL distribution CDM Project
The purpose of the project is to increase the efficiency of the domestic lighting use in the project area by replacing inefficient incandescent lamps (GLS) by highly efficient OSRAM Long Life Compact Fluorescent Lamps (CFL). As a result electricity is saved and therefore greenhouse gas (GHG) emissions are reduced.

2476/1: Pune (India) OSRAM CFL distribution CDM Project
The purpose of the project is to increase the efficiency of the domestic lighting use in the project area by replacing inefficient incandescent lamps (GLS) by highly efficient OSRAM Long Life Compact Fluorescent Lamps (CFL). As a result electricity is saved and therefore greenhouse gas (GHG) emissions are reduced.

2677/1: Sichuan Furong Coal Mine Methane Utilization Project
The objective of the project is to capture and use coal mine methane (CMM) for power generation. CMM extracted from Furong Group’s Baijiao, Shammushu and Gongquan coal mine that is vented in the baseline scenario is captured by the project for power generation, while the small portion of residential and commercial usage of CMM in the baseline scenario remains unaffected by the project and no emission reduction is claimed for this part of CMM utilization.

2769/1: China Qinghai 42MW Jiangyuan hydropower project
This project activity is a run-of-river hydropower plant located in the main course of Datong River in Xianmi Township, Menyuan County, Qinghai Province, P.R.C. 70km northeast to Menyuan county.

2785/1: Proyecto Multiambiente del Plata Norte IIIa
The project activity which this monitoring report refers is about the installation and operation of a landfill gas extraction and combustion plant, with electricity generation, in Norte III A landfill (General San Martin, Buenos Aires, Argentina). Landfill waste generates gas through a natural process.

2969/1: CDM LUSAKA SUSTAINABLE ENERGY PROJECT 1
The purpose of the CDM LUSAKA SUSTAINABLE ENERGY PROJECT 1 is to provide up to 30,000 households of Lusaka City with highly efficient and durable Save80 Cooking Systems to replace the consumption of charcoal from non-renewable biomass by the use of small sticks from renewable sources of biomass.

3088/1: Baiyun’ebo 45MW Wind farm Project
The project has implemented to utilize local renewable wind resources to generate electricity, whose total installed capacity is 45MW consisting of 36 sets of wind turbines with each capacity of 1250kW. The designed average annual power output of the project is 98,031MWh, which is sold to the North China Power Grid (NCPG) dominated by grid-connected fossil fuel fired power plants.

3180/2: Malan Coal Mine Methane Utilisation Project
The purpose of the project activity is the utilization and abatement of coal mine methane (CMM) captured in underground coal mine workings to allow safe coal mining, energy conservation and GHGs emissions reduction at Malan coal mine.

3232/1: Biomass based power project in Punjab, India
The purpose of the project activity is to utilize surplus biomass available in the region for effective generation of electricity for supply to the grid to meet the ever-increasing demand for energy in the region. The project activity, by generation of renewable electricity, contributes towards reduction of Green House Gas emissions.

3440/3: Point of Use Abatement Device to Reduce SF6 emissions in LCD Manufacturing Operations in the Republic of Korea (South Korea)
LG Display (LGD) currently uses SF6 in its LCD manufacturing process in Plant 2/3, Plant 4/5, Plant 6 in Gumi, South Korea and Plant 7 in Paju, South Korea. To destroy much of the SF6 vented from the dry etching process, LG International (LGI) and LGD installed an abatement device at the stack of the dry etching chambers in Plant 6.

3440/4: Point of Use Abatement Device to Reduce SF6 emissions in LCD Manufacturing Operations in the Republic of Korea (South Korea)
LG Display (LGD) currently uses SF6 in its LCD manufacturing process in Plant 2/3, Plant 4/5, Plant 6 in Gumi, South Korea and Plant 7 in Paju, South Korea. To destroy much of the SF6 vented from the dry etching process, LG International (LGI) and LGD installed an abatement device at the stack of the dry etching chambers in Plant 6.

3558/1: Small-Scale Hydropower Project Sahanivotry in Madagascar
The purpose of the Sahanivotry Hydro Power Plant is to generate renewable energy using clean hydropower and sell the output electricity into the regional grid of Antananarivo.

4403/1: Sichuan Fangdaping Hydropower Project
The Project is a diversion type hydropower station with 24MW (2*12MW) installed capacity. Electricity generated by the Project is delivered to the Central China Power Grid.

0331/7: Biomass based independent power project at Malwa Power Private Limited, Mukatsar, Punjab, India
The purpose of the project is to utilize biomass available in the region for effective generation of electricity supply to the grid to meet the increasing energy demand in the region. The equipment installed comprises a 7.5 MW bleed cum condensing turbine and a 31.5 tons per hour and 67 atmosphere pressure boiler. The project is located in Punjab state in the village Gulabewalla in the Mukatsar district.

0837/5: Kaifeng Jinkai N2O Abatement Project
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions; The main products of Henan Jinkai Chemical Industry Investment Holding Group Co., Ltd (hereinafter called “Jinkai”) are synthesis ammonia, nitric acid, ammonia nitrate, nitro phosphate, methanol, sodium nitrate, sodium nitrite and so on. Jinkai started production of nitric acid (HNO3) with two lines.

840/7: Pansan Coal Mine Methane Utilisation and Destruction Project, China
The purpose of the project activity is to capture Coal Mine Methane (CMM) and to utilise or destroy it. The Pansan CMM utilisation project consists of two main activities replacing the surface venting of the drained CMM.

1536/4: Guangdong Longtan 2*7MW Hydropower project, China
Project is a run-of-river hydropower project located in Longchuan County, Guangdong Province of the People’s Republic of China. The purpose of the project activity is to generate renewable energy using clean hydropower and sell the output electricity to China Southern Power Grid (CSPG).

1887/3: Huainan Panyi and Xieqiao Coal Mine Methane Utilization Project, China
Huainan Panyi and Xieqiao Coal Mine Methane Utilization Project is located in Huainan City, Anhui Province, P.R.China. The objective of the Project is to utilize the gas which was vented into the atmosphere for energy supply.

0330/5: Manal, Chandni and Timbi Small Hydroelectric Projects of HCPL, India
The purpose of the project is to generate electricity by utilizing the run-of-the river. As per the PDD the project consists of three small hydroelectric projects (SHEP’s) of Himalayan Crest Power Limited (HCPL) aggregating to 9.0 MW in the District of Sirmour, Himachal Pradesh, India

0099/54: N2O Emission Reduction in Onsan, Republic of Korea
Nitrous oxide (N2O) is a by-product of adipic acid production. It is of low toxicity but is a greenhouse gas (GHG), whose GWP is large (GWP=310 in the IPCC 2nd Assessment Report). In this project, Rhodia Polyamide Co. Ltd additionally installed N2O collection and thermal decomposition process equipment to the currently operating adipic acid manufacturing plant.

1258/7: Quezon City Controlled Disposal Facility Biogas Emission Reduction Project (QCCDFBERP), Philippines
The Project activity involves the extraction, collection, processing and flaring, including the conversion into electricity of the biogas emissions at the Quezon City Controlled Disposal Facility (“Facility”) located in Area 2, Barangay Payatas, Quezon City, the Philippines.

0165/12: ESTRE’s Paulínia Landfill Gas Project (EPLGP). Brazil
The purpose of the project “ESTRE’s Paulínia Landfill Gas Project (EPLGP)” is focused on the capturing and flaring of landfill gas. Landfill gas contents about 50 % of methane which is a significant greenhouse gas. Through flaring of the landfill gas by an active recovery system, methane emissions are avoided. The project substitutes the previous installed passive venting system, thus increasing the efficiency in gas collection and flaring.

0099/55: N2O Emission Reduction in Onsan, Republic of Korea
Nitrous oxide (N2O) is a by-product of adipic acid production. It is of low toxicity but is a greenhouse gas (GHG), whose GWP is large (GWP=310 in the IPCC 2nd Assessment Report). In this project, Rhodia Polyamide Co. Ltd additionally installed N2O collection and thermal decomposition process equipment to the currently operating adipic acid manufacturing plant.

3393/1: Sichuan Jinyanxi 8MW Hydropower Project, China
The project is a run-of-river project. The total installed capacity is 8MW (2*4MW). The Project is to utilize the hydro resource to generate electricity which would otherwise have been produced by fossil fuel-fired power plants.

0099/56: N2O Emission Reduction in Onsan, Republic of Korea
Nitrous oxide (N2O) is a by-product of adipic acid production. It is of low toxicity but is a greenhouse gas (GHG), whose GWP is large (GWP=310 in the IPCC 2nd Assessment Report). In this project, Rhodia Polyamide Co. Ltd additionally installed N2O collection and thermal decomposition process equipment to the currently operating adipic acid manufacturing plant.

2314/2: Heilongjiang Chemical N2O Abatement Project, China
The sole purpose of the project is to reduce the current levels of N2O emissions at Heilongjiang Chemical’s nitric acid production plant.

868/16: No.2 HFC23 Decomposition Project of Zhejiang Juhua Co., Ltd, P. R. China
The project comprises a decomposition of HFC23 in a HCFC22 production plant. The proposed project involves the installation of a HFC23 collection system including three HFC23 buffer tanks in this project.

4235/1: Hunan Zishui First Cascade Hydropower Project, China
The project is to provide electricity to Central China Power Grid. Its purpose is power generation. The Project achieves GHG emission reductions by avoiding CO2 emissions from fossil fuel-fired power plants connected into the Central China Power Grid.

4803/1: Guangxi Nabi Hydropower Project, China
The project is located in Tianlin County, Baise City, Guangxi Zhuang Autonomous Region. The Project avoids CO2 emissions by replacing electricity generated from fossil-fuel power plants within the China Southern Power Gird.

2232/3: Catalytic N2O Abatement Project in the Tail Gas of the Caprolactam Production Plant in Thailand
The aim of the project activity is to reduce N2O emissions by installation of DeN2O Unit before the Stack, which is called Tertiary Catalyst System or Tail Gas System.

995/5: Fujian Dongshan Wujiaobay 30MW Wind Power Project, China
The project owned by Dongshan Aozaishan Wind Power Development Co.Ltd. involves the installation of 15 turbines, each of which has a capacity of 2 000 kW (Vestas V80-2000kW of Denmark), providing a total amount of installation capacity of 30 MW. The project is sited within Dongshan Island of Dongshan County, Zhangzhou City in Fujian Province of South-eastern China along the Wujiao bay.

2183/3: Curva de Rodas and La Pradera landfill gas management project, Colombia
The purpose of this project activity is to efficiently capture the landfill gas (LFG) emitted on the landfill sites Curva de Rodas and La Pradera in Medellín, Colombia and to destroy methane gas, which is a harmful greenhouse gas (GHG) contained in the LFG with a global warming potential (GWP) of 21, that has an adverse impact on the environment.

168/6: BK Energia Itacoatiara Project, Brazil
BK Energia Itacoatiara Project consists of the generation of electricity with a thermoelectric power plant using wood residues from wood processing companies in the city of Itacoatiara, in the State of Amazonas, Brazil. Prior to the project activity, wood waste generated in the production process, were stored in several sawdust and wood residues stockpiles, which represented besides an environmental and safety problem, methane emissions released to the atmosphere.

373/17: São João Landfill Gas to Energy Project (SJ), Brazil
“São João Landfill Gas to Energy Project (SJ)” is a project designed to explore the landfill gas produced in Sao Joao landfill, one of the landfills in Sao Paulo, Brazil. This landfill is located in the metropolitan region of São Paulo, Brazil’s biggest city and financial center of the country. Aiming to avoid environmental problems related to methane emissions, including also global warming, “São João Landfill Gas to Energy Project (SJ)” was the designed solution created by Biogás.

1229/14: Catalytic N2O destruction project in the tail gas of the nitric acid plant PANNA 3 of Enaex S.A., Chile
The project consists of the installation of a tertiary N2O reduction technology (EnviNOx® process) in the tail gas stream of the nitric acid production plant of ENAEX S.A., Chile. Nitrous oxide which is formed as by-product of the nitric acid production will be removed by the EnviNOx®-System which applies a special catalyst developed for this specific purpose. The emission reductions are a result of the catalytic reduction of nitrous oxide in the implemented EnviNOx® System.

3970/1: Southern Nicaragua CDM Reforestation Project, Nicaragua
The project consists of the reforestation of 813 ha with teak and native wood species in Southern Nicaragua. The reforestation is carried out on former pasture lands. The objectives of this project is to contribute to the sustainable development of Nicaragua through reforestation to generate sustainable wood supplies to reduce pressure on natural forests and to serve as carbon sink.

1745/2: Nanchang Maiyuan Landfill Gas Recovery and Utilisation Project, China
The project involves the extraction of landfill gas (LFG) at the Nanchang Maiyuan Landfill site. The LFG is captured and utilised for the production of electricity. The electricity generated is delivered to China Central Power Grid (CCPG). Therefore, the GHG emissions are achieved via methane destruction and displacement of electricity otherwise produced by the grid connected thermal power plants.

4820/1: Wind Park at the Orites Archimandritas, Cyprus
The purpose of the Orites Wind Farm Project is to install and operate a wind farm, which will be producing renewable electricity from wind. The produced electricity will be fed into the National Grid of the Electricity Authority of Cyprus and sold on the basis of a Power Purchase Agreement with the Transmission System Operator and the Electricity Authority of Cyprus.

2401/1: Construction of additional cooling tower cells at AES Lal Pir (Pvt.) Limited. Muzaffar Garh, Pakistan
The purpose of this project is to utilize the latest technology to improve the heat rate of the power plants which is construction of an additional cooling tower cell for each unit’s cooling tower. A better heat rate will lower CO2 emissions via a reduction in the quantity of fuel required to generate electricity. So, the intention in this project activity is to reduce the CO2 emission by replacing the existing technology with the latest technology.

4781/1: Inner Mongolia Urad Houqi Wuliji Wind Power Project, China
Inner Mongolia Urad Houqi Wuliji Wind Power Project (hereafter, the “Project”) involves the installation of 25 turbines, each of which has a rated output of 2,000kW, providing a total capacity of 50MW. The annual output of the project is estimated to be 123,100MWh. The electricity is delivered to the North China Power Grid annually.

394/3: Waste heat recovery based captive power project at Monnet,India
The purpose of the waste heat recovery project is to maximise the energy efficiency of the sponge iron manufacturing thereby recovering the high amount of heat escaping in the flue gases and converting it into useful power leading to environmental improvement as well as energy conservation. The project is recovering the sensible heat present in the waste gases coming out from the Direct Reduction Iron (DRI) Kiln for generating power.

526/3: Indocement Blended Cement Project, Indonesia
The aim of this project is to manufacture and sell a new type of cement categorized under a new Cement Standard. In this project, calcination-, fuel-, and power-related CO2 emission reductions are achieved by lowering the clinker content per ton of cement.

526/4: Indocement Blended Cement Project, Indonesia
The aim of this project is to manufacture and sell a new type of cement categorized under a new Cement Standard. In this project, calcination-, fuel-, and power-related CO2 emission reductions are achieved by lowering the clinker content per ton of cement.

1717/1: 24MW Power Generation from Coking Waste Heat Generated in the Clean-type Heat-recovery Coke Ovens at Shanxi Sinochem Wonder Industries Co. Ltd., China
The project involves the utilisation of waste heat from coke production at Sinochem Wonder Industries Coking Facility in Shanxi Province to generate electricity. The purpose of the project is to generate electricity using waste heat and to sell the electricity to the North China Power Grid (NCPG).

1685/4: Zhang Jiagang waste heat recovery from sulphuric acid production for electricity generation project , China
The project activity is developed by TWO LIONS (ZHANGJIAGANG) FINE CHEMICALS CO., LTD (hereafter referred to TFC for short) which will recover waste heat from sulphuric acid production process to produce electricity, displacing part of electricity supplied by the East China Grid which predominantly relies on fossil fuel-fired power plants for power generation.

0099/58: N2O Emission Reduction in Onsan, Republic of Korea
Nitrous oxide (N2O) is a by-product of adipic acid production. It is of low toxicity but is a greenhouse gas (GHG), whose GWP is large (GWP=310 in the IPCC 2nd Assessment Report). In this project, Rhodia Polyamide Co. Ltd additionally installed N2O collection and thermal decomposition process equipment to the currently operating adipic acid manufacturing plant.

3403/1: Sichuan Neijiang Tiangongtang Hydropower Project, China
The project is a water retaining type hydropower station. The purpose of the Project is to utilize the hydro resource to generate electricity which would otherwise have been produced by fossil fuel-fired power plants.

1501/5: Liaoning Huanren Niumaodashan Wind Power Project
Liaoning Huanren Niumaodashan Wind Power Project is a grid connected renewable energy project, which uses wind power to generate electricity and supplies to the Northeast China Power Grid.

588/4: 12MW Captive Power Project based on Waste Heat Recovery of Industrial Waste Gases, India
The purpose of the project is to utilize sensible heat of the waste gases from non-recovery type coke oven batteries for effective generation of electricity. The electricity is primarily consumed in-house at Rachhagunneri unit of LIL and surplus is exported to the state grid.

2243/6: Reduction of N2O emissions at shop#25, production line #1 at ”“Navoiazot”” plant, Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2245/6: Reduction of N2O emissions at shop#25, production line #3 at ”“Navoiazot”” plant, Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2246/6: Reduction of N2O emissions at shop#25, production line #4 at ”“Navoiazot”” plant
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2769/2: China Qinghai 42MW Jiangyuan Hydropower Project, China
This project activity is a run-of-river hydropower plant located in the main course of Datong River in Xianmi Township, Menyuan County, Qinghai Province, P.R.C. 70km northeast to Menyuan county.

556/5: 12MW Captive Power Project based on Waste Heat Recovery of Industrial Waste Gases, India
The purpose of the project is to utilize sensible heat of the waste gases from non-recovery type coke oven batteries and sponge iron kilns for effective generation of electricity. The electricity is primarily consumed in-house at Haldia unit of ECL and surplus is wheeled to the Khardah unit.

2243/7: Reduction of N2O emissions at shop#25, production line #1 at ”“Navoiazot”” plant, Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2244/6: Reduction of N2O emissions at shop#25, production line #2 at ”“Navoiazot”” plant, Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

2246/7: Reduction of N2O emissions at shop#25, production line #4 at ”“Navoiazot”” plant, Uzbekistan
Purpose of the project activity and the measures taken to reduce greenhouse gas emissions “Navoiazot” is a chemical fertilizer company of Uzbekistan and its shop#25 is a production plant of nitric acid. From the plant, Nitrous Oxide (N2O), which is an undesired by-product of the nitric acid production process, is released into the atmosphere.

4367/1: Kaiyuan Yemin 49.5 MW Wind Power Project, China
The project is a grid-connected wind power project located in Yemin Town, Kaiyuan City, Liaoning Province, China. The purpose of the proposed project is to generate zero-emission wind power and supply the power generation to the Northeast Power Grid (NEPG). The proposed project will achieve CO2 emission reduction by replacing electricity generated by fossil fuel fired power plants connected into NEPG.

526/5: Indocement Blended Cement Project, Indonesia
The aim of this project is to manufacture and sell a new type of cement categorized under a new Cement Standard. In this project, calcination-, fuel-, and power-related CO2 emission reductions are achieved by lowering the clinker content per ton of cement.

1438/3: Hubei Hefeng Yanzi Town Baishun Village Taohuashan Hydropower Station, China
The proposed project activity involves the construction and operation of a run-of-river diversion type hydropower station; the “Hubei Hefeng Yanzi Town Baishun Village Taohuashan Hydropower Station project”, hereafter referred to as “project” or “proposed project”. The proposed project is located in Baishun Village of Yanzi Town in Hefeng County of Enshi Tujia-Miao Autonomous Prefecture, Hubei Province, China. The dam site located at the Jiufengqiao River and the power plant is located on the side of Nandu River.

2310/3: Reduction of N2O emissions at “Ferganaazot” plant, Uzbekistan
The purpose of the project activity is to reduce N2O emissions by installation of secondary catalysts inside the ammonia oxidation reactor (AOR) at a nitric acid production plants in OJSC “Farg’onaazot”.

2308/3: Reduction of N2O emissions at “Maxam-Chirchik” plant, Uzbekistan
The purpose of the project activity is to reduce N2O emissions by installation of secondary catalysts inside the ammonia oxidation reactor (AOR) at one (AK-72M) of the two production plants in OJSC “Maxam-Chirchiq”.

1229/15: Catalytic N2O destruction project in the tail gas of the nitric acid plant PANNA 3 of Enaex S.A., Chile
The project consists of the installation of a tertiary N2O reduction technology (EnviNOx® process) in the tail gas stream of the nitric acid production plant of ENAEX S.A., Chile. Nitrous oxide which is formed as by-product of the nitric acid production will be removed by the EnviNOx®-System which applies a special catalyst developed for this specific purpose. The emission reductions are a result of the catalytic reduction of nitrous oxide in the implemented EnviNOx® System.

1079/3: Gansu Diebu Duoer 32MW Hydropower Project, Gansu
The project is a new reservoir type hydropower plant with the average power density of 74 W/m2. The proposed installed capacity is 32 MW consisting of three 10 MW and one 2 MW turbines. The predicted power generation is 138 363MWh per year. The project is located 300m downriver to the intersection of Duoer River and Axia River on a branch of Bailong River in Diebu County, Gansu Province, People’s Republic of China.

1853/1: Montalban Landfill Methane Recovery and Power Generation Project, Philippines
The primary purpose of the project is to collect and capture land fill gas “LFG” from the Montalban landfill through installation of an LFG collection system and destruction of methane contained in LFG through flaring or generation of electricity.

1135/5: Jiangxi Fengcheng Mining Administration CMM Utilization Project, China
15*500kW CMM gensets started operation in Qujiang coalmine from April 2007. CMM utilized by the project is drained from Jianxin, Pinghu and Qujiang mines of Fengcheng Mining Administration. The emissions reductions are achieved by methane (CH4) capture and destruction, CMM power generation substituting the fossil fuel power generation.

4940/1: Uganda Nile Basin Reforestation Project No. 2, Uganda
The project activities cover 370.0 ha within Rwoho Central Forest Reserve (CFR)2 in which pine (Pinus caribaea) forest plantations are being established.

1578/1: Uganda Nile Basin Reforestation Project No. 3, Uganda
It is one of five similar projects aimed at providing a new financing mechanism to overcome the current barriers to establishing timber plantations in Uganda, and to enable communities to benefit from the CDM. The project activities cover 341.9 ha within Rwoho Central Forest Reserve (CFR)2 in which pine (Pinus caribaea) forest plantations are being established.

4466/1: Uganda Nile Basin Reforestation Project No. 5, Uganda
It is one of five similar projects aimed at providing a new financing mechanism to overcome the current barriers to establishing timber plantations in Uganda, and to enable communities to benefit from the CDM. The project activities cover 487.6 ha within Rwoho Central Forest Reserve (CFR)2 in which pine (Pinus caribaea) forest plantations are being established.