管道余压利用技术研究综述
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摘要
为了对目前管道余压利用技术进行探究,通过查阅国内外相关领域文献以及余压利用现场参数资料,对余压发电技术的研究现状进行了总结,并通过不同应用案例的综合性对比分析,提出目前余压利用技术存在的问题,并在发展潜力和趋势方面进行了展望。研究表明:企业高炉TRT设备的管理水平有限、余压发电系统传动损失以及利用技术的单一化是限制目前余压利用产业的主要因素,未来余压发电将成为节能减排的重要手段。
In order to explore the current pipeline residual pressure utilization technology, the research status of residual pressure power generation technology is summarized by consulting the relevant literature at home and abroad and the field parameter data of residual pressure utilization. Through the comprehensive comparative analysis of different application cases, the existing problems of residual pressure utilization technology are put forward, and the development potential and trend are prospected. The research shows that the limited management level of blast furnace TRT equipment, the transmission loss of residual pressure power generation system and the simplification of utilization technology are the main factors limiting the current residual pressure utilization industry, and residual pressure power generation will become an important means of energy saving and emission reduction in the future.
In order to explore the current pipeline residual pressure utilization technology, the research status of residual pressure power generation technology is summarized by consulting the relevant literature at home and abroad and the field parameter data of residual pressure utilization. Through the comprehensive comparative analysis of different application cases, the existing problems of residual pressure utilization technology are put forward, and the development potential and trend are prospected. The research shows that the limited management level of blast furnace TRT equipment, the transmission loss of residual pressure power generation system and the simplification of utilization technology are the main factors limiting the current residual pressure utilization industry, and residual pressure power generation will become an important means of energy saving and emission reduction in the future.
引文
[1]杨会丰,梁海锋,王林平,等.天然气余压利用技术与发展现状[J].石油石化节能,2017,7(11):15-18+9.
[2]苟鑫华.天然气井口余压发电设备及关键技术研究[D].重庆科技学院,2017.
[3]郭江龙.节能技术之三十九———热电联产机组供热蒸汽余压发电节能技术[J].河北电力技术,2015,34(01):35.
[4]马亮.分布式余压透平发电装置应用研究[D].河北科技大学,2014.
[5]孙昆.余热、余压发电对电网的影响[J].农村电气化,2011,09:57-58.
[6]林学艳.高炉炉顶余压发电技术分析[J].现代冶金,2013,4105:31-33.
[7]曲良军.余热余压发电浅析[J].资源节约与环保,2012,03:39-40+47.
[8]朱丽.高炉煤气余压发电装置的性能控制研究[J].产业与科技论坛,2013,1211:74-75.
[9]陈杨.天然气余压发电的理论分析与计算[J].燃气轮机技术,2013,2603:65-68.
[10]王加权.天然气余压发电并网项目施工组织设计探讨[J].建材与装饰,2017,16:97-98.
[11]傅玲琼.螺杆膨胀机余压发电技术在钢铁企业的应用前景[J].内燃机与配件,2017,12:115-117.
[12]俞光灿,李琦芬,梁晓雨,等.天然气余压发电制冰系统设计及实际产能模拟[J].上海节能,2017,10:608-613.
[13]刘慰俭,叶伯英.高炉煤气余压发电装置及其应用前景[J].冶金设备,1982,01:27-36.
[14]冯祖强.高炉炉顶煤气余压发电(TRT)技术[J].柳钢科技,2011,02:60.
[15]林学艳.高炉炉顶余压发电技术分析[J].现代冶金,2013,4105:31-33.
[16]傅玲琼.螺杆膨胀机余压发电技术在钢铁企业的应用前景[J].内燃机与配件,2017(12):115-117.
[17]路泽永,王春艳.余热余压发电输煤控制系统的设计[J].承德石油高等专科学校学报,2014,16(05):36-40.
[18]王晓宇,国相杰,刘建军.单螺杆余热余压发电系统的研究及应用[J].石油石化节能,2013,3(11):21-22+26.
[19]林学艳.高炉炉顶余压发电技术分析[J].现代冶金,2013,41(05):31-33.
[20]陈杨.天然气余压发电的理论分析与计算[J].燃气轮机技术,2013,26(03):65-68.
[21]姚胜.余压发电系统的模拟计算与实验研究[D].天津大学,2014.
[22]石伟.高炉煤气余压回收途径探讨[J].钢铁技术,2006(3):44-46.
[2]苟鑫华.天然气井口余压发电设备及关键技术研究[D].重庆科技学院,2017.
[3]郭江龙.节能技术之三十九———热电联产机组供热蒸汽余压发电节能技术[J].河北电力技术,2015,34(01):35.
[4]马亮.分布式余压透平发电装置应用研究[D].河北科技大学,2014.
[5]孙昆.余热、余压发电对电网的影响[J].农村电气化,2011,09:57-58.
[6]林学艳.高炉炉顶余压发电技术分析[J].现代冶金,2013,4105:31-33.
[7]曲良军.余热余压发电浅析[J].资源节约与环保,2012,03:39-40+47.
[8]朱丽.高炉煤气余压发电装置的性能控制研究[J].产业与科技论坛,2013,1211:74-75.
[9]陈杨.天然气余压发电的理论分析与计算[J].燃气轮机技术,2013,2603:65-68.
[10]王加权.天然气余压发电并网项目施工组织设计探讨[J].建材与装饰,2017,16:97-98.
[11]傅玲琼.螺杆膨胀机余压发电技术在钢铁企业的应用前景[J].内燃机与配件,2017,12:115-117.
[12]俞光灿,李琦芬,梁晓雨,等.天然气余压发电制冰系统设计及实际产能模拟[J].上海节能,2017,10:608-613.
[13]刘慰俭,叶伯英.高炉煤气余压发电装置及其应用前景[J].冶金设备,1982,01:27-36.
[14]冯祖强.高炉炉顶煤气余压发电(TRT)技术[J].柳钢科技,2011,02:60.
[15]林学艳.高炉炉顶余压发电技术分析[J].现代冶金,2013,4105:31-33.
[16]傅玲琼.螺杆膨胀机余压发电技术在钢铁企业的应用前景[J].内燃机与配件,2017(12):115-117.
[17]路泽永,王春艳.余热余压发电输煤控制系统的设计[J].承德石油高等专科学校学报,2014,16(05):36-40.
[18]王晓宇,国相杰,刘建军.单螺杆余热余压发电系统的研究及应用[J].石油石化节能,2013,3(11):21-22+26.
[19]林学艳.高炉炉顶余压发电技术分析[J].现代冶金,2013,41(05):31-33.
[20]陈杨.天然气余压发电的理论分析与计算[J].燃气轮机技术,2013,26(03):65-68.
[21]姚胜.余压发电系统的模拟计算与实验研究[D].天津大学,2014.
[22]石伟.高炉煤气余压回收途径探讨[J].钢铁技术,2006(3):44-46.