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Integration of Low-level Waste Heat Recovery and Liquefied Nature Gas Cold Energy Utilization 被引量:16
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作者 白菲菲 张早校 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2008年第1期95-99,共5页
Two novel thermal cycles based on Brayton cycle and Rankine cycle are proposed, respectively, which integrate the recovery of low-level waste heat and Liquefied Nature Gas (LNG) cold energy utilization for power gen... Two novel thermal cycles based on Brayton cycle and Rankine cycle are proposed, respectively, which integrate the recovery of low-level waste heat and Liquefied Nature Gas (LNG) cold energy utilization for power generation. Cascade utilization of energy is realized in the two thermal cycles, where low-level waste heat,low-temperature exergy and pressure exergy of LNG are utilized efficiently through the system synthesis. The simulations are carried out using the commercial Aspen Plus 10.2, and the results are analyzed. Compared with the conventional Brayton cycle and Rankine cycle, the two novel cycles bring 60.94% and 60% in exergy efficiency, respectively and 53.08% and 52.31% in thermal efficiency, respectively. 展开更多
关键词 recovery of low-level waste heat LNG cold energy utilization power generation cascade utilization
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Diesel generator exhaust heat recovery fully-coupled with intake air heating for off-grid mining operations:An experimental,numerical,and analytical evaluation
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作者 Durjoy Baidya Marco Antonio Rodrigues de Brito +1 位作者 Agus PSasmito Seyed Ali Ghoreishi-Madiseh 《International Journal of Mining Science and Technology》 SCIE EI CAS CSCD 2022年第1期155-169,共15页
The customarily discarded exhaust from the fossil fuel-based power plants of the off-grid mines holds the thermal potential to fulfill the heating requirement of the underground operation.This present research fills i... The customarily discarded exhaust from the fossil fuel-based power plants of the off-grid mines holds the thermal potential to fulfill the heating requirement of the underground operation.This present research fills in an important research gap by investigating the coupling effect between a diesel exhaust heat recovery and an intake air heating system employed in a remote mine.An integrative approach comprising analytical,numerical,and experimental assessment has been adapted.The novel analytical model developed here establishes the reliability of the proposed mine heating system by providing comparative analysis between a coupled and a decoupled system.The effect of working fluid variation has been examined by the numerical analysis and the possible improvement has been identified.Experimental investigations present a demonstration of the successful lab-scale implementation of the concept and validate the numerical and analytical models developed.Successful deployment of the fully coupled mine heating system proposed here will assist the mining industry on its journey towards energy-efficient,and sustainable mining practices through nearly 70%reduction in fossil fuel consumption for heating intentions. 展开更多
关键词 Remote mines waste heat utilization Diesel exhaust Combined heat and power generation Clean energy in mining Coupled heating system
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Nanofluidic osmotic power generation from CO_(2) with cellulose membranes
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作者 Chang Chen Xueli Liu +6 位作者 Renxing Huang Kuankuan Liu Shangfa Pan Junchao Lao Qi Li Jun Gao Lei Jiang 《Green Carbon》 2023年第1期58-64,共7页
The diffusion of chemical species down concentration gradient is a ubiquitous phenomenon that releases Gibbs free energy.Nanofluidic materials have shown great promise in harvesting the energy from ionic diffusion via... The diffusion of chemical species down concentration gradient is a ubiquitous phenomenon that releases Gibbs free energy.Nanofluidic materials have shown great promise in harvesting the energy from ionic diffusion via the reverse electrodialysis process.In principle,any chemicals that can be converted to ions can be used for nanofluidic power generation.In this work,we demonstrate the power generation from the diffusion of CO_(2) into air using nanofluidic cellulose membranes.By dissolving CO_(2) in water,a power density of 87 mW/m^(2) can be achieved.Using monoethanolamine solutions to dissolve CO_(2),the power density can be increased to 2.6 W/m^(2).We further demonstrate that the waste heat released in industrial and carbon capture processes,can be simultaneously harvested with our nanofluidic membranes,increasing the power density up to 16 W/m^(2) under a temperature difference of 30°C.Therefore,our work should expand the application scope of nanofluidic osmotic power generation and contribute to carbon utilization and capture technologies. 展开更多
关键词 Nanofluidics Osmotic power generation CO_(2)utilization cellulose membranes waste heat utilization
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热管在核电工程中的应用 被引量:10
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作者 张光玉 张红 +1 位作者 涂善东 庄骏 《原子能科学技术》 EI CAS CSCD 北大核心 1997年第1期89-96,共8页
概述了热管在空间核电源、核废料冷却、事故条件下安全壳的保护等方面的应用情况,并提出了将热管应用于核电工程中的蒸汽发生器。介绍了国内外针对这些应用所进行的开发研究工作。已有的研究工作表明:根据不同的温度范围选择适当的热... 概述了热管在空间核电源、核废料冷却、事故条件下安全壳的保护等方面的应用情况,并提出了将热管应用于核电工程中的蒸汽发生器。介绍了国内外针对这些应用所进行的开发研究工作。已有的研究工作表明:根据不同的温度范围选择适当的热管壳体材料、工作介质和吸液芯结构,经过仔细的设计、必要的实验和精良的制作。 展开更多
关键词 热管 空间核电源 核废料冷却 安全壳保护
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水泥厂余热发电接入系统项目的实施 被引量:2
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作者 刘雪花 范会永 《水泥工程》 CAS 2015年第2期69-71,88,共4页
水泥企业余热接入系统实施主要是为保障水泥企业余热电力系统安全而采取的保护措施。详细介绍了某水泥厂余热发电系统的建设,系统接入要求及接入具体实施。项目完成后,该公司余热系统通讯部分得到全面完善,实现了大电网与余热发电机组... 水泥企业余热接入系统实施主要是为保障水泥企业余热电力系统安全而采取的保护措施。详细介绍了某水泥厂余热发电系统的建设,系统接入要求及接入具体实施。项目完成后,该公司余热系统通讯部分得到全面完善,实现了大电网与余热发电机组两个电源同时向水泥生产线供电。 展开更多
关键词 余热发电接入系统 并网电量不上网 光缆通信设备 远动主机 调度数据网 距离保护 并网线
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Integrated Renewable Energy Solutions for Aquaculture Processing Enerfish
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作者 Hidde Ronde Aulis Ranne +2 位作者 Eric Peirano Ian Byrne Huy Le Duc 《Journal of Energy and Power Engineering》 2013年第2期259-265,共7页
The European Union Framework Programme 71 Enerfish project aims to demonstrate a new poly-generation application with renewable energy sources for the fishery industry in Vietnam. The fish processing plant under consi... The European Union Framework Programme 71 Enerfish project aims to demonstrate a new poly-generation application with renewable energy sources for the fishery industry in Vietnam. The fish processing plant under consideration can be made by energy self-sufficient when all fish waste oil is processed into biodiesel and further converted to electricity and heat (for cooling) in a CHP (combined heat and power) unit. The purpose of the present paper is to discuss the profitability of such plants in southeast Asia. The economic model shows that electricity production is, due to the low electricity tariff, uneconomical (except during electricity blackout), even if cogeneration heat can be utilized. This prompt a design of the plant whereby the necessary heat for the biodiesel process is taken from the waste heat produced by the compressors of a CO2 cooling system. According to the calculations and assumptions of the present study, the profitability of biodiesel production from fish cleaning wastes in Vietnam depends strongly on the market prices for fish waste and fish oil. Different business case scenarios are described. 展开更多
关键词 BIODIESEL COgeneration energy efficiency energy from waste environmental economics distributed power generation food technology waste heat.
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