The Experts below are selected from a list of 6 Experts worldwide ranked by ideXlab platform
Unknown - One of the best experts on this subject based on the ideXlab platform.
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INTEGRATED System TO Control PRIMARY PM 2.5 FROM ELECTRIC POWER PLANTS
2002Co-Authors: UnknownAbstract:This is the 6th Quarterly Report under this contract. During this period, the Advanced ElectroCore module precharger and its support frame were installed at Alabama Power Company's E.C. Gaston Steam Plant in Wilsonville, Alabama. This represents the vast portion of the installation work. Ductwork and instrumentation needs to installed before the Advanced ElectroCore module can be tested and demonstrated. Also, the Advanced ElectroCore test plan draft has been prepared, and a design arrangement of a new Multipollutant Control System with the ElectroCore has been developed
D. P. Connell - One of the best experts on this subject based on the ideXlab platform.
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FOR WORK PERFORMED DURING THE PERIOD
2008Co-Authors: U. S. Doe, Cooperative Agreement, D. P. ConnellAbstract:Greenidge LLC (AESG), and Babcock Power Environmental Inc. (BPEI) installed and are testing an integrated multi-pollutant Control System on one of the nation’s smaller existing coalfired power plants- the 107-MWe AES Greenidge Unit 4 (Boiler 6). The overall goal of this approximately 2.5-year project, which is being conducted as part of the U.S. Department of Energy’s (DOE’s) Power Plant Improvement Initiative (PPII), is to demonstrate that the Multipollutant Control System that was installed, which includes a hybrid selective non-catalytic reduction / selective catalytic reduction (SNCR/SCR) System and a Turbosorp ® circulating fluidized bed dry scrubbing System with baghouse ash recycling and activated carbon injection, can cost-effectively reduce emissions of NOx, SO2, Hg, acid gases (SO3, HCl, HF), and particulate matter (PM) from coal-fired electric generating units (EGUs) with capacities of 50 MWe to 600 MWe. Smaller coal-fired units, which constitute a significant portion of the nation’s existing generating capacity, are increasingly vulnerable to retirement or fuel switching as a result of progressively more stringent state and federal environmental regulations. The Greenidge Project will demonstrate the commercial readiness of an emissions Control System that is particularly suited, because of its low capital and maintenance costs and small space demands, to meet the requirements of this large group of existing EGUs. All funding for th
U. S. Doe - One of the best experts on this subject based on the ideXlab platform.
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FOR WORK PERFORMED DURING THE PERIOD
2008Co-Authors: U. S. Doe, Cooperative Agreement, D. P. ConnellAbstract:Greenidge LLC (AESG), and Babcock Power Environmental Inc. (BPEI) installed and are testing an integrated multi-pollutant Control System on one of the nation’s smaller existing coalfired power plants- the 107-MWe AES Greenidge Unit 4 (Boiler 6). The overall goal of this approximately 2.5-year project, which is being conducted as part of the U.S. Department of Energy’s (DOE’s) Power Plant Improvement Initiative (PPII), is to demonstrate that the Multipollutant Control System that was installed, which includes a hybrid selective non-catalytic reduction / selective catalytic reduction (SNCR/SCR) System and a Turbosorp ® circulating fluidized bed dry scrubbing System with baghouse ash recycling and activated carbon injection, can cost-effectively reduce emissions of NOx, SO2, Hg, acid gases (SO3, HCl, HF), and particulate matter (PM) from coal-fired electric generating units (EGUs) with capacities of 50 MWe to 600 MWe. Smaller coal-fired units, which constitute a significant portion of the nation’s existing generating capacity, are increasingly vulnerable to retirement or fuel switching as a result of progressively more stringent state and federal environmental regulations. The Greenidge Project will demonstrate the commercial readiness of an emissions Control System that is particularly suited, because of its low capital and maintenance costs and small space demands, to meet the requirements of this large group of existing EGUs. All funding for th
Cooperative Agreement - One of the best experts on this subject based on the ideXlab platform.
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FOR WORK PERFORMED DURING THE PERIOD
2008Co-Authors: U. S. Doe, Cooperative Agreement, D. P. ConnellAbstract:Greenidge LLC (AESG), and Babcock Power Environmental Inc. (BPEI) installed and are testing an integrated multi-pollutant Control System on one of the nation’s smaller existing coalfired power plants- the 107-MWe AES Greenidge Unit 4 (Boiler 6). The overall goal of this approximately 2.5-year project, which is being conducted as part of the U.S. Department of Energy’s (DOE’s) Power Plant Improvement Initiative (PPII), is to demonstrate that the Multipollutant Control System that was installed, which includes a hybrid selective non-catalytic reduction / selective catalytic reduction (SNCR/SCR) System and a Turbosorp ® circulating fluidized bed dry scrubbing System with baghouse ash recycling and activated carbon injection, can cost-effectively reduce emissions of NOx, SO2, Hg, acid gases (SO3, HCl, HF), and particulate matter (PM) from coal-fired electric generating units (EGUs) with capacities of 50 MWe to 600 MWe. Smaller coal-fired units, which constitute a significant portion of the nation’s existing generating capacity, are increasingly vulnerable to retirement or fuel switching as a result of progressively more stringent state and federal environmental regulations. The Greenidge Project will demonstrate the commercial readiness of an emissions Control System that is particularly suited, because of its low capital and maintenance costs and small space demands, to meet the requirements of this large group of existing EGUs. All funding for th