The Experts below are selected from a list of 77391 Experts worldwide ranked by ideXlab platform
Abdukarem Amhamed - One of the best experts on this subject based on the ideXlab platform.
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enhancing gas loading and Reducing Energy Consumption in acid gas removal systems a simulation study based on real ngl plant data
Journal of Natural Gas Science and Engineering, 2017Co-Authors: Ahmed Abotaleb, Muftah H Elnaas, Abdukarem AmhamedAbstract:Abstract Amine scrubbing with absorption and desorption is the most established technology for Acid Gas Removal (AGR) systems, but suffers from high regeneration Energy requirements and, hence offers a good opportunity for more development. A simulation study has been carried out based on a local NGL plant data to evaluate the performance parameters for AGR systems along with Energy and utility Consumptions for all single alkanolamines (Primary, Secondary and Tertiary) as well as the MDEA/PZ amine blend with different concentrations. The ultimate aim of the study is to address the critical industrial limitations in AGR systems, understand the individual performance for each amine under the same conditions and to investigate the Benchmark amine blend (MDEA + PZ) to optimize the absorption process in terms of enhancing acid gas loading and lowering the regeneration Energy Consumption. Ten cases have been investigated under the same conditions, where MDEA/PZ with 20/10 wt% has shown a better performance among single amines and benchmark amine blend 29/1 wt%; it could save 8% in steam Consumption, 45% in cooling water, 62% in Lean Amine Air cooler, 45% in pumping power and 38% in solvent circulation rate, in addition to enhancing acid gas absorption by 67%.
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enhancing gas loading and Reducing Energy Consumption in acid gas removal systems a simulation study based on real ngl plant data
Journal of Natural Gas Science and Engineering, 2017Co-Authors: Ahmed Abotaleb, Muftah H Elnaas, Abdukarem AmhamedAbstract:Abstract Amine scrubbing with absorption and desorption is the most established technology for Acid Gas Removal (AGR) systems, but suffers from high regeneration Energy requirements and, hence offers a good opportunity for more development. A simulation study has been carried out based on a local NGL plant data to evaluate the performance parameters for AGR systems along with Energy and utility Consumptions for all single alkanolamines (Primary, Secondary and Tertiary) as well as the MDEA/PZ amine blend with different concentrations. The ultimate aim of the study is to address the critical industrial limitations in AGR systems, understand the individual performance for each amine under the same conditions and to investigate the Benchmark amine blend (MDEA + PZ) to optimize the absorption process in terms of enhancing acid gas loading and lowering the regeneration Energy Consumption. Ten cases have been investigated under the same conditions, where MDEA/PZ with 20/10 wt% has shown a better performance among single amines and benchmark amine blend 29/1 wt%; it could save 8% in steam Consumption, 45% in cooling water, 62% in Lean Amine Air cooler, 45% in pumping power and 38% in solvent circulation rate, in addition to enhancing acid gas absorption by 67%.
Xuejun Wang - One of the best experts on this subject based on the ideXlab platform.
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the challenge of Reducing Energy Consumption of the top 1000 largest industrial enterprises in china
Energy Policy, 2010Co-Authors: Lynn Price, Xuejun WangAbstract:In 2005, the Chinese government announced an ambitious goal of Reducing Energy Consumption per unit of gross domestic product (GDP) by 20% between 2005 and 2010. One of the key initiatives for realizing this goal is the Top-1000 Energy-Consuming Enterprises program. The Energy Consumption of these 1000 enterprises accounted for 33% of national and 47% of industrial Energy usage in 2004. Under the Top-1000 program, 2010 Energy Consumption targets were determined for each enterprise. The objective of this article is to evaluate the program design and initial results, given limited information and data, to understand the possible implications of its success in terms of Energy and carbon dioxide emission reductions and to recommend future program modifications based on international experience with similar target-setting agreement programs. Even though the Top-1000 program was designed and implemented rapidly, it appears that - depending upon the GDP growth rate - it could contribute to somewhere between approximately 10% and 25% of the savings required to support China's efforts to meet a 20% reduction in Energy use per unit of GDP by 2010.
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china s top 1000 Energy consuming enterprises program Reducing Energy Consumption of the 1000 largest industrial enterprises in china
Lawrence Berkeley National Laboratory, 2008Co-Authors: Lynn Price, Xuejun WangAbstract:LBNL-519E E RNEST O RLANDO L AWRENCE B ERKELEY N ATIONAL L ABORATORY China's Top-1000 Energy- Consuming Enterprises Program: Reducing Energy Consumption of the 1000 Largest Industrial Enterprises in China Lynn Price, Lawrence Berkeley National Laboratory Xuejun Wang, Peking University Jiang Yun, China Energy Conservation Association Environmental Energy Technologies Division June 2008 This work was supported by the Energy Foundation and Dow Chemical Company through the U.S. Department of Energy under Contract No. DE- AC02-05CH11231.
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china s top 1000 Energy consuming enterprises program Reducing Energy Consumption of the 1000 largest industrial enterprises in china
Lawrence Berkeley National Laboratory, 2008Co-Authors: Lynn Price, Xuejun Wang, Jiang YunAbstract:LBNL-519E E RNEST O RLANDO L AWRENCE B ERKELEY N ATIONAL L ABORATORY China's Top-1000 Energy- Consuming Enterprises Program: Reducing Energy Consumption of the 1000 Largest Industrial Enterprises in China Lynn Price, Lawrence Berkeley National Laboratory Xuejun Wang, Peking University Jiang Yun, China Energy Conservation Association Environmental Energy Technologies Division June 2008 This work was supported by the Energy Foundation and Dow Chemical Company through the U.S. Department of Energy under Contract No. DE- AC02-05CH11231.
Ahmed Abotaleb - One of the best experts on this subject based on the ideXlab platform.
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enhancing gas loading and Reducing Energy Consumption in acid gas removal systems a simulation study based on real ngl plant data
Journal of Natural Gas Science and Engineering, 2017Co-Authors: Ahmed Abotaleb, Muftah H Elnaas, Abdukarem AmhamedAbstract:Abstract Amine scrubbing with absorption and desorption is the most established technology for Acid Gas Removal (AGR) systems, but suffers from high regeneration Energy requirements and, hence offers a good opportunity for more development. A simulation study has been carried out based on a local NGL plant data to evaluate the performance parameters for AGR systems along with Energy and utility Consumptions for all single alkanolamines (Primary, Secondary and Tertiary) as well as the MDEA/PZ amine blend with different concentrations. The ultimate aim of the study is to address the critical industrial limitations in AGR systems, understand the individual performance for each amine under the same conditions and to investigate the Benchmark amine blend (MDEA + PZ) to optimize the absorption process in terms of enhancing acid gas loading and lowering the regeneration Energy Consumption. Ten cases have been investigated under the same conditions, where MDEA/PZ with 20/10 wt% has shown a better performance among single amines and benchmark amine blend 29/1 wt%; it could save 8% in steam Consumption, 45% in cooling water, 62% in Lean Amine Air cooler, 45% in pumping power and 38% in solvent circulation rate, in addition to enhancing acid gas absorption by 67%.
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enhancing gas loading and Reducing Energy Consumption in acid gas removal systems a simulation study based on real ngl plant data
Journal of Natural Gas Science and Engineering, 2017Co-Authors: Ahmed Abotaleb, Muftah H Elnaas, Abdukarem AmhamedAbstract:Abstract Amine scrubbing with absorption and desorption is the most established technology for Acid Gas Removal (AGR) systems, but suffers from high regeneration Energy requirements and, hence offers a good opportunity for more development. A simulation study has been carried out based on a local NGL plant data to evaluate the performance parameters for AGR systems along with Energy and utility Consumptions for all single alkanolamines (Primary, Secondary and Tertiary) as well as the MDEA/PZ amine blend with different concentrations. The ultimate aim of the study is to address the critical industrial limitations in AGR systems, understand the individual performance for each amine under the same conditions and to investigate the Benchmark amine blend (MDEA + PZ) to optimize the absorption process in terms of enhancing acid gas loading and lowering the regeneration Energy Consumption. Ten cases have been investigated under the same conditions, where MDEA/PZ with 20/10 wt% has shown a better performance among single amines and benchmark amine blend 29/1 wt%; it could save 8% in steam Consumption, 45% in cooling water, 62% in Lean Amine Air cooler, 45% in pumping power and 38% in solvent circulation rate, in addition to enhancing acid gas absorption by 67%.
Lynn Price - One of the best experts on this subject based on the ideXlab platform.
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the challenge of Reducing Energy Consumption of the top 1000 largest industrial enterprises in china
Energy Policy, 2010Co-Authors: Lynn Price, Xuejun WangAbstract:In 2005, the Chinese government announced an ambitious goal of Reducing Energy Consumption per unit of gross domestic product (GDP) by 20% between 2005 and 2010. One of the key initiatives for realizing this goal is the Top-1000 Energy-Consuming Enterprises program. The Energy Consumption of these 1000 enterprises accounted for 33% of national and 47% of industrial Energy usage in 2004. Under the Top-1000 program, 2010 Energy Consumption targets were determined for each enterprise. The objective of this article is to evaluate the program design and initial results, given limited information and data, to understand the possible implications of its success in terms of Energy and carbon dioxide emission reductions and to recommend future program modifications based on international experience with similar target-setting agreement programs. Even though the Top-1000 program was designed and implemented rapidly, it appears that - depending upon the GDP growth rate - it could contribute to somewhere between approximately 10% and 25% of the savings required to support China's efforts to meet a 20% reduction in Energy use per unit of GDP by 2010.
-
china s top 1000 Energy consuming enterprises program Reducing Energy Consumption of the 1000 largest industrial enterprises in china
Lawrence Berkeley National Laboratory, 2008Co-Authors: Lynn Price, Xuejun WangAbstract:LBNL-519E E RNEST O RLANDO L AWRENCE B ERKELEY N ATIONAL L ABORATORY China's Top-1000 Energy- Consuming Enterprises Program: Reducing Energy Consumption of the 1000 Largest Industrial Enterprises in China Lynn Price, Lawrence Berkeley National Laboratory Xuejun Wang, Peking University Jiang Yun, China Energy Conservation Association Environmental Energy Technologies Division June 2008 This work was supported by the Energy Foundation and Dow Chemical Company through the U.S. Department of Energy under Contract No. DE- AC02-05CH11231.
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china s top 1000 Energy consuming enterprises program Reducing Energy Consumption of the 1000 largest industrial enterprises in china
Lawrence Berkeley National Laboratory, 2008Co-Authors: Lynn Price, Xuejun Wang, Jiang YunAbstract:LBNL-519E E RNEST O RLANDO L AWRENCE B ERKELEY N ATIONAL L ABORATORY China's Top-1000 Energy- Consuming Enterprises Program: Reducing Energy Consumption of the 1000 Largest Industrial Enterprises in China Lynn Price, Lawrence Berkeley National Laboratory Xuejun Wang, Peking University Jiang Yun, China Energy Conservation Association Environmental Energy Technologies Division June 2008 This work was supported by the Energy Foundation and Dow Chemical Company through the U.S. Department of Energy under Contract No. DE- AC02-05CH11231.
Muftah H Elnaas - One of the best experts on this subject based on the ideXlab platform.
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enhancing gas loading and Reducing Energy Consumption in acid gas removal systems a simulation study based on real ngl plant data
Journal of Natural Gas Science and Engineering, 2017Co-Authors: Ahmed Abotaleb, Muftah H Elnaas, Abdukarem AmhamedAbstract:Abstract Amine scrubbing with absorption and desorption is the most established technology for Acid Gas Removal (AGR) systems, but suffers from high regeneration Energy requirements and, hence offers a good opportunity for more development. A simulation study has been carried out based on a local NGL plant data to evaluate the performance parameters for AGR systems along with Energy and utility Consumptions for all single alkanolamines (Primary, Secondary and Tertiary) as well as the MDEA/PZ amine blend with different concentrations. The ultimate aim of the study is to address the critical industrial limitations in AGR systems, understand the individual performance for each amine under the same conditions and to investigate the Benchmark amine blend (MDEA + PZ) to optimize the absorption process in terms of enhancing acid gas loading and lowering the regeneration Energy Consumption. Ten cases have been investigated under the same conditions, where MDEA/PZ with 20/10 wt% has shown a better performance among single amines and benchmark amine blend 29/1 wt%; it could save 8% in steam Consumption, 45% in cooling water, 62% in Lean Amine Air cooler, 45% in pumping power and 38% in solvent circulation rate, in addition to enhancing acid gas absorption by 67%.
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enhancing gas loading and Reducing Energy Consumption in acid gas removal systems a simulation study based on real ngl plant data
Journal of Natural Gas Science and Engineering, 2017Co-Authors: Ahmed Abotaleb, Muftah H Elnaas, Abdukarem AmhamedAbstract:Abstract Amine scrubbing with absorption and desorption is the most established technology for Acid Gas Removal (AGR) systems, but suffers from high regeneration Energy requirements and, hence offers a good opportunity for more development. A simulation study has been carried out based on a local NGL plant data to evaluate the performance parameters for AGR systems along with Energy and utility Consumptions for all single alkanolamines (Primary, Secondary and Tertiary) as well as the MDEA/PZ amine blend with different concentrations. The ultimate aim of the study is to address the critical industrial limitations in AGR systems, understand the individual performance for each amine under the same conditions and to investigate the Benchmark amine blend (MDEA + PZ) to optimize the absorption process in terms of enhancing acid gas loading and lowering the regeneration Energy Consumption. Ten cases have been investigated under the same conditions, where MDEA/PZ with 20/10 wt% has shown a better performance among single amines and benchmark amine blend 29/1 wt%; it could save 8% in steam Consumption, 45% in cooling water, 62% in Lean Amine Air cooler, 45% in pumping power and 38% in solvent circulation rate, in addition to enhancing acid gas absorption by 67%.
