The Experts below are selected from a list of 276 Experts worldwide ranked by ideXlab platform
Yi Jiang - One of the best experts on this subject based on the ideXlab platform.
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industrial Waste Heat utilization for low temperature district Heating
Energy Policy, 2013Co-Authors: Hao Fang, Yingbo Su, Yi JiangAbstract:Large quantities of low grade Waste Heat are discharged into the environment, mostly via water evaporation, during industrial processes. Putting this industrial Waste Heat to productive use can reduce fossil fuel usage as well as CO2 emissions and water dissipation. The purpose of this paper is to propose a holistic approach to the integrated and efficient utilization of low-grade industrial Waste Heat. Recovering industrial Waste Heat for use in district Heating (DH) can increase the efficiency of the industrial sector and the DH system, in a cost-efficient way defined by the index of investment vs. carbon reduction (ICR). Furthermore, low temperature DH network greatly benefits the recovery rate of industrial Waste Heat. Based on data analysis and in-situ investigations, this paper discusses the potential for the implementation of such an approach in northern China, where conventional Heat sources for DH are insufficient. The universal design approach to industrial-Waste-Heat based DH is proposed. Through a demonstration project, this approach is introduced in detail. This study finds three advantages to this approach: (1) improvement of the thermal energy efficiency of industrial factories; (2) more cost-efficient than the traditional Heating mode; and (3) CO2 and pollutant emission reduction as well as water conservation.
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Industrial Waste Heat utilization for low temperature district Heating
Energy Policy, 2013Co-Authors: Hao Fang, Kan Zhu, J J Xia, Y B Su, Yi JiangAbstract:Large quantities of low grade Waste Heat are discharged into the environment, mostly via water evaporation, during industrial processes. Putting this industrial Waste Heat to productive use can reduce fossil fuel usage as well as CO2 emissions and water dissipation. The purpose of this paper is to propose a holistic approach to the integrated and efficient utilization of low-grade industrial Waste Heat. Recovering industrial Waste Heat for use in district Heating (DH) can increase the efficiency of the industrial sector and the DH system, in a cost-efficient way defined by the index of investment vs. carbon reduction (ICR). Furthermore, low temperature DH network greatly benefits the recovery rate of industrial Waste Heat. Based on data analysis and in-situ investigations, this paper discusses the potential for the implementation of such an approach in northern China, where conventional Heat sources for DH are insufficient. The universal design approach to industrial-Waste-Heat based DH is proposed. Through a demonstration project, this approach is introduced in detail. This study finds three advantages to this approach: (1) improvement of the thermal energy efficiency of industrial factories; (2) more cost-efficient than the traditional Heating mode; and (3) CO2 and pollutant emission reduction as well as water conservation. (C) 2013 Elsevier Ltd. All rights reserved.
Hao Fang - One of the best experts on this subject based on the ideXlab platform.
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industrial Waste Heat utilization for low temperature district Heating
Energy Policy, 2013Co-Authors: Hao Fang, Yingbo Su, Yi JiangAbstract:Large quantities of low grade Waste Heat are discharged into the environment, mostly via water evaporation, during industrial processes. Putting this industrial Waste Heat to productive use can reduce fossil fuel usage as well as CO2 emissions and water dissipation. The purpose of this paper is to propose a holistic approach to the integrated and efficient utilization of low-grade industrial Waste Heat. Recovering industrial Waste Heat for use in district Heating (DH) can increase the efficiency of the industrial sector and the DH system, in a cost-efficient way defined by the index of investment vs. carbon reduction (ICR). Furthermore, low temperature DH network greatly benefits the recovery rate of industrial Waste Heat. Based on data analysis and in-situ investigations, this paper discusses the potential for the implementation of such an approach in northern China, where conventional Heat sources for DH are insufficient. The universal design approach to industrial-Waste-Heat based DH is proposed. Through a demonstration project, this approach is introduced in detail. This study finds three advantages to this approach: (1) improvement of the thermal energy efficiency of industrial factories; (2) more cost-efficient than the traditional Heating mode; and (3) CO2 and pollutant emission reduction as well as water conservation.
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Industrial Waste Heat utilization for low temperature district Heating
Energy Policy, 2013Co-Authors: Hao Fang, Kan Zhu, J J Xia, Y B Su, Yi JiangAbstract:Large quantities of low grade Waste Heat are discharged into the environment, mostly via water evaporation, during industrial processes. Putting this industrial Waste Heat to productive use can reduce fossil fuel usage as well as CO2 emissions and water dissipation. The purpose of this paper is to propose a holistic approach to the integrated and efficient utilization of low-grade industrial Waste Heat. Recovering industrial Waste Heat for use in district Heating (DH) can increase the efficiency of the industrial sector and the DH system, in a cost-efficient way defined by the index of investment vs. carbon reduction (ICR). Furthermore, low temperature DH network greatly benefits the recovery rate of industrial Waste Heat. Based on data analysis and in-situ investigations, this paper discusses the potential for the implementation of such an approach in northern China, where conventional Heat sources for DH are insufficient. The universal design approach to industrial-Waste-Heat based DH is proposed. Through a demonstration project, this approach is introduced in detail. This study finds three advantages to this approach: (1) improvement of the thermal energy efficiency of industrial factories; (2) more cost-efficient than the traditional Heating mode; and (3) CO2 and pollutant emission reduction as well as water conservation. (C) 2013 Elsevier Ltd. All rights reserved.
Yingbo Su - One of the best experts on this subject based on the ideXlab platform.
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industrial Waste Heat utilization for low temperature district Heating
Energy Policy, 2013Co-Authors: Hao Fang, Yingbo Su, Yi JiangAbstract:Large quantities of low grade Waste Heat are discharged into the environment, mostly via water evaporation, during industrial processes. Putting this industrial Waste Heat to productive use can reduce fossil fuel usage as well as CO2 emissions and water dissipation. The purpose of this paper is to propose a holistic approach to the integrated and efficient utilization of low-grade industrial Waste Heat. Recovering industrial Waste Heat for use in district Heating (DH) can increase the efficiency of the industrial sector and the DH system, in a cost-efficient way defined by the index of investment vs. carbon reduction (ICR). Furthermore, low temperature DH network greatly benefits the recovery rate of industrial Waste Heat. Based on data analysis and in-situ investigations, this paper discusses the potential for the implementation of such an approach in northern China, where conventional Heat sources for DH are insufficient. The universal design approach to industrial-Waste-Heat based DH is proposed. Through a demonstration project, this approach is introduced in detail. This study finds three advantages to this approach: (1) improvement of the thermal energy efficiency of industrial factories; (2) more cost-efficient than the traditional Heating mode; and (3) CO2 and pollutant emission reduction as well as water conservation.
Y B Su - One of the best experts on this subject based on the ideXlab platform.
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Industrial Waste Heat utilization for low temperature district Heating
Energy Policy, 2013Co-Authors: Hao Fang, Kan Zhu, J J Xia, Y B Su, Yi JiangAbstract:Large quantities of low grade Waste Heat are discharged into the environment, mostly via water evaporation, during industrial processes. Putting this industrial Waste Heat to productive use can reduce fossil fuel usage as well as CO2 emissions and water dissipation. The purpose of this paper is to propose a holistic approach to the integrated and efficient utilization of low-grade industrial Waste Heat. Recovering industrial Waste Heat for use in district Heating (DH) can increase the efficiency of the industrial sector and the DH system, in a cost-efficient way defined by the index of investment vs. carbon reduction (ICR). Furthermore, low temperature DH network greatly benefits the recovery rate of industrial Waste Heat. Based on data analysis and in-situ investigations, this paper discusses the potential for the implementation of such an approach in northern China, where conventional Heat sources for DH are insufficient. The universal design approach to industrial-Waste-Heat based DH is proposed. Through a demonstration project, this approach is introduced in detail. This study finds three advantages to this approach: (1) improvement of the thermal energy efficiency of industrial factories; (2) more cost-efficient than the traditional Heating mode; and (3) CO2 and pollutant emission reduction as well as water conservation. (C) 2013 Elsevier Ltd. All rights reserved.
J J Xia - One of the best experts on this subject based on the ideXlab platform.
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Industrial Waste Heat utilization for low temperature district Heating
Energy Policy, 2013Co-Authors: Hao Fang, Kan Zhu, J J Xia, Y B Su, Yi JiangAbstract:Large quantities of low grade Waste Heat are discharged into the environment, mostly via water evaporation, during industrial processes. Putting this industrial Waste Heat to productive use can reduce fossil fuel usage as well as CO2 emissions and water dissipation. The purpose of this paper is to propose a holistic approach to the integrated and efficient utilization of low-grade industrial Waste Heat. Recovering industrial Waste Heat for use in district Heating (DH) can increase the efficiency of the industrial sector and the DH system, in a cost-efficient way defined by the index of investment vs. carbon reduction (ICR). Furthermore, low temperature DH network greatly benefits the recovery rate of industrial Waste Heat. Based on data analysis and in-situ investigations, this paper discusses the potential for the implementation of such an approach in northern China, where conventional Heat sources for DH are insufficient. The universal design approach to industrial-Waste-Heat based DH is proposed. Through a demonstration project, this approach is introduced in detail. This study finds three advantages to this approach: (1) improvement of the thermal energy efficiency of industrial factories; (2) more cost-efficient than the traditional Heating mode; and (3) CO2 and pollutant emission reduction as well as water conservation. (C) 2013 Elsevier Ltd. All rights reserved.
