期刊文献+
共找到4篇文章
< 1 >
每页显示 20 50 100
发电排污信息安全风险评估对水污染治理的影响研究 被引量:1
1
作者 房磊 《环境科学与管理》 CAS 2018年第1期86-89,共4页
发电排污造成的水污染与日俱增,已经是生态环境领域中亟待解决的问题之一。对发电排污信息安全风险进行评估,分析其对水污染治理所产生的影响。在发电排污信息采样过程中,依照水体性能分布,重要水工构筑物与现有水文站点结合的方式,设... 发电排污造成的水污染与日俱增,已经是生态环境领域中亟待解决的问题之一。对发电排污信息安全风险进行评估,分析其对水污染治理所产生的影响。在发电排污信息采样过程中,依照水体性能分布,重要水工构筑物与现有水文站点结合的方式,设置发电排污信息采样布点;通过滤纸将采集信息样本进行过滤,使用0.45μm滤膜,将样本中极小颗粒物和细菌微生物过滤;对发电排污风险进行分级,基于发电排污风险评估模型及风险分级结果,建立水污染分级治理标准;分别采用分片集中治理、分散治理及分级治理的水污染治理模式,实现因发电排污导致水污染的高效治理。 展开更多
关键词 发电排污 信息安全 风险评估 水污染治理 影响
下载PDF
几种发电排污权初始分配模式的对比研究 被引量:5
2
作者 李莉 谭忠富 +2 位作者 李宁 王建军 候勇 《华东电力》 北大核心 2010年第11期1789-1793,共5页
介绍了发电排污权概念和发电排污权分配原则。探讨了5种分配模式,即按平均装机容量分配模式、历史累积平均装机容量分配模式、平均发电量分配模式、基于绩效值的分配模式和集成分配模式。依据某省两电厂的实际情况对比分析了这5种分配... 介绍了发电排污权概念和发电排污权分配原则。探讨了5种分配模式,即按平均装机容量分配模式、历史累积平均装机容量分配模式、平均发电量分配模式、基于绩效值的分配模式和集成分配模式。依据某省两电厂的实际情况对比分析了这5种分配模式的结果,结果显示采用集成分配模式既利于体现公平性,又能更好地体现效率性,有利于稳步推进我国当前逐步淘汰小火电机组的工作。 展开更多
关键词 发电排污 分配模式 集成分配 效率 公平
原文传递
Ultra-Supercritical——A Preferential Choice for China to Develop Clean Coal Technology 被引量:1
3
作者 李君 吴少华 李振中 《Electricity》 2004年第4期30-35,共6页
The ultra-supercritical pressure coal-fired power-generation technology (USCT) isa mature, advanced and efficient power generation technology in the world. Comparisonsamong several principal clean coal power-generatio... The ultra-supercritical pressure coal-fired power-generation technology (USCT) isa mature, advanced and efficient power generation technology in the world. Comparisonsamong several principal clean coal power-generation technologies show that USCT withpollutant-emission control equipment is superior to others in efficiency, capacity, reliability,investment and environment protection etc. Analyzing the main problems existing in thermalpower industry, it is concluded that the USCT is the preferential choice for China to developclean coal power-generation technology at present. Considering the foundation of thepower industry, the manufacturing industry for power generating equipment and otherrelated industries, it is concluded that China has satisfied the qualifications to develop USCT. 展开更多
关键词 coal-fired power plant ultra-supercritical parameter clean coal technology FEASIBILITY
下载PDF
Industrialization prospects for hydrogen production by coal gasification in supercritical water and novel thermodynamic cycle power generation system with no pollution emission 被引量:10
4
作者 GUO LieJin JIN Hui +2 位作者 GE ZhiWei LU YouJun CAO ChangQing 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2015年第12期1989-2002,共14页
Energy conversion and utilization, particularly carbon-based fuel burning in air phase, have caused great environmental pollution and serious problems to society. The reactions in water phase may have the potential to... Energy conversion and utilization, particularly carbon-based fuel burning in air phase, have caused great environmental pollution and serious problems to society. The reactions in water phase may have the potential to realize clean and efficient energy conversion and utilization. Coal gasification in supercritical water is a typical carbon-based fuel conversion process in water phase, and it takes the advantages of the unique chemical and physical properties of supercritical water to convert organic matter in coal to H2 and CO2. N, S, P, Hg and other elements are deposited as inorganic salts to avoid pollution emission. The State Key Laboratory of Multiphase Flow in Power Engineering has obtained extensive experimental and theoretical results based on coal gasification in supercritical water. Supercritical water fluidized bed reactor was developed for coal gasification and seven kinds of typical feedstock were selected. The hydrogen yield covers from 0.67 to 1.74 Nm3/kg and the carbon gasification efficiency is no less than 97%. This technology has a bright future in industrialization not only in electricity generation but also in hydrogen production and high value-added chemicals. Given the gas yield obtained in laboratory-scale unit, the hydrogen production cost is U.S.$ 0.111 Nm3 when the throughput capacity is 2000 t/d. A novel thermodynamic cycle power generation system based on coal gasification in supercritical water was proposed with the obvious advantages of high coal-electricity conversion efficiency and zero pollutant emission. The cost of U.S.$ 3.69 billion for desulfuration, denitration and dust removal in China in 2013 would have been saved with this technology. Five kinds of heat supply methods are analyzed and the rates of return of investment are roughly estimated. An integrated cooperative innovation center called a new type of high-efficient coal gasification technology and its large-scale utilization was founded to enhance the industrialization of the technology vigorously. 展开更多
关键词 industrialization prospects hydrogen production supercritical water gasification power generation zero emission
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部