| Closed |
Dominican Republic |
Steam Generation Using Biomass |
The Steam Generation Using Biomass Project developed by theGildan Activewear Dominican Republic Textile Company Inc. is a fuel switch project that shifts from fossil fuels to biomass for steam generation in the company’s plant in Dominican Republic. The purpose of this project activity is to switch from fuel oil to a renewable biomass source for the production of steam. To achieve this goal, Gildan will install two new biomass boilers in the plant that will produce 40 tonnes per hour of steam burning a variety of agro-forestry residues (e.g. rice husk, rice straw, coconut shells, shredded wood from urban pruning, wood residues from workshops, bagasse and
potentially other biomass residues) available in the country. Gildan will also burn some of its non-fossil industrial residues which can be classified as renewable biomass as per the UNFCCC Glossary of CDM terms. Nonetheless, these represent a small fraction of the total volume of residues to be utilized in the proposed project activity. |
| Closed |
Dominican Republic |
Textile Offshore Site Dominicana Biomass Residues Cogeneration Project (TOS-2RIOS) |
The project activity is owned and developed by Hanesbrands Dos Rios Textiles Incorporated, operating in the Dominican Republic. The company is dedicated to the manufacturing of fabric and other products related with consumer products.
The company’s manufacturing processes require a large supply of energy, both steam (heat for applications like bleaching, dyeing, compacting) and electricity for cold generation (mainly for the knitting and processing yarn to make the fabrics). In the pre-project situation the steam demand has been supplied by a conventional fuel oil based boiler system. No electricity was generated on site prior to the project activity. The project activity involves the replacement of the existing fossil fuel boilers by a new biomass residues cogeneration system that will fulfill the thermal demand of the industrial process and supply part of the electricity consumed by the site. The supply of biomass residues to the project activity is based on collecting the agricultural residues (rice husk, coconut shell, sawdust, and others) available in the nearby area. Currently most of those agricultural residues are dumped and left to decay in open field or are burned in an uncontrolled manner. The implementation of the project activity will decrease or avoid this practice. |
| Closed |
China |
Huadian Kulun 201MW wind farm project - Gold Standard |
Huadian Kulun 201MW wind farm project (hereafter refer as “the proposed project”) will be developed by Inner Mongolia Huadian Huitengxile Wind Power Co., Ltd. The proposed project will be located in Kulun town, Wulan Chabu city, Inner Mongolia Autonomous Region in China and involves a installation of 134 turbines, each of which has a rated output of 1500kW, providing a total capacity of 201MW. The annual net output of the proposed project is estimated to be 496,530MWh. The electricity to be generated will be delivered to North China Power Grid through Inner Mongolia Grid. This project also applies for registration as Gold Standard project. This 60 days stakeholder consultation is to meet the requirements of the Gold Standard. |
| Closed |
China |
Huadian Hebei Guyuan 100.5MW Wind Farm Project - Gold Standard. |
Huadian Hebei Guyuan 100.5MW Wind Farm Project (hereinafter referred to as “the proposed project”)
is located in Guyuan County, Zhangjiakou City, Hebei Province. The primary objective of the proposed
project is to generate renewable electricity to meet the ever-increasing demand in the North China Grid
(NCG).The proposed project will install 67 wind turbine units manufactured by Sinovel Wind Co., Ltd at the
proposed project site, with a capacity of 1500 kW per unit. Based on the conditions of the local wind
resource, the proposed project is expected to supply 227,300MWh electricity annually to NCG. Without
the proposed project, this electricity demand will still be satisfied by NCG through installing new
capacities or uploading existing capacities, which are dominated by fuel-fired generators. Thus, the
baseline scenario, also the scenario before the proposed project, is the following: Equivalent electricity
service provided by NCG. |
| Closed |
Poland |
N2O emissions reduction project at Zak³ady Azotowe Anwil S.A. |
By installing a secondary N2O abatement catalyst underneath the ammonia oxidation catalyst in the ammonia oxidation burners, the generated N2O during oxidation of ammonia will be decomposed into nitrogen and oxygen. The installed technology will according to suppliers allow more than 70% reduction of the N2O content in the tail gas. At present the N2O is emitted to the atmosphere, hence the project results in reductions of N2O emissions that are real, measurable and give long-term benefits to the mitigation of climate change. The project follows the JI Track 1 with Poland's National Procedures. |
| Closed |
India |
2.25 MW Wind Power Project in Southern India |
The purpose of this project activity is to generate electrical power using wind energy, through operation of wind turbines in Tamilnadu state of India. The project activity comprises of 7 wind turbines installed at two locations (Metrathi and Molarapatty villages) in Udumalpet Taluk of Coimbatore district and Dharampur Taluk of Erode District of Tamilnadu, India. The electricity generated from this project activity is supplied to the southern regional electricity grid of India using state transmission lines. The installed power generation capacity in the project activity is 2.25 MW. The project is expected to reduce 3817 t CO2 emissions per annum. |
| Closed |
China |
Huadian Tongliao Beiqinghe 300 MW Wind Farm Project |
The Huadian Tongliao Beiqinghe 300 MW Wind Farm Project is located in Kailu Country, Tongliao City, Inner Mongolia Autonomous Region and the primary objective is to generated renewable electricity to be supplied to the Notheast China Grid. The PDD is applying for CDM registration (see PDD published for the 30 days stakeholder consultation required for the CDM http://cdm.unfccc.int/Projects/Validation/DB/YU5TJZ452HE4Q4LMAHN9Q7ADTQU9FY/view.html) and also applies for registration as Gold Standard project. This 60 days stakeholder consultation is to meet the requirements of the Gold Standard. |
| Closed |
China |
Liaoning Changtu Taiyangshan Phase One 49.5 MW Wind Farm Project |
The Liaoning Changtu Taiyangshan Phase One 49.5 MW Wind Farm Project is located in the Liaoning Province and the primary objective is to generated renewable electricity to be supplied to the Notheast China Grid. The PDD is applying for CDM registration (see PDD published for the 30 days stakeholder consultation required for the CDM http://cdm.unfccc.int/Projects/Validation/DB/K6COT99NAM1T6L8T1ZLUFULMUW5UIK/view.html) and also applies for registration as Gold Standard project. This 60 days stakeholder consultation is to meet the requirements of the Gold Standard. |
| Closed |
China |
Huadian Kailu Yihetala Phase one 49.5 MW Wind Farm Project |
The Huadian Kailu Yihetala Phase one 49.5 MW Wind Farm Project is located in the Inner Mongolia Autonomous Region and the primary objective is to generated renewable electricity to be supplied to the Notheast China Grid. The PDD is applying for CDM registration (see PDD published for the 30 days stakeholder consultation required for the CDM http://cdm.unfccc.int/Projects/Validation/DB/JZZGUFSF5TD7WEBA0B6B8UO96K7RJ6/view.html) and also applies for registration as Gold Standard project. This 60 days stakeholder consultation is to meet the requirements of the Gold Standard. |
| Closed |
Canada |
Fredericton Region Solid Waste Commission (FRSWC) Landfill Gas Capture and Flare Project |
The purpose of the Project is to capture and flare landfill gas containing methane, thus significantly reducing the global warming potential of the greenhouse gases released to the atmosphere. |
