垃圾焚烧发电系统优化及综合利用技术
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摘要
垃圾焚烧发电项目已逐渐成为由地方政府主导的PPP项目,随着国家能源战略的深入,依靠科技创新,加快节能减排技术研发和产业化推广已成为迫在眉睫的任务。在项目建设标准和融资要求高,垃圾处理费低和投资回收期长等多重压力下,通过对垃圾焚烧发电系统进行逐步、分项的设计优化,利用最新技术使资源得到高效深度利用,可以有效降低工程建设成本,提高项目运营经济性,实现垃圾减量化、无害化和资源化,对垃圾发电长远健康发展具有参考价值。
Waste incineration power generation has gradually become PPP project led by local governments. With the deepening of the national energy strategy, it is an urgent task to accelerate the research and development of energy-saving and emission reduction technology and the industrialization promotion by relying on scientific and technological innovation. Under multiple pressures, such as high project construction standards and financing requirements, low waste disposal fees and long investment recovery period, through the gradual and itemized design optimization of the waste incineration power generation system and the efficient and deep utilization of resources by using the latest technology, the construction cost of the project could be effectively reduced, the operation economy of the project could be improved, and the waste reduction, innocuous and recycling could be realized, it has reference value to the long-term healthy development of garbage power generation.
Waste incineration power generation has gradually become PPP project led by local governments. With the deepening of the national energy strategy, it is an urgent task to accelerate the research and development of energy-saving and emission reduction technology and the industrialization promotion by relying on scientific and technological innovation. Under multiple pressures, such as high project construction standards and financing requirements, low waste disposal fees and long investment recovery period, through the gradual and itemized design optimization of the waste incineration power generation system and the efficient and deep utilization of resources by using the latest technology, the construction cost of the project could be effectively reduced, the operation economy of the project could be improved, and the waste reduction, innocuous and recycling could be realized, it has reference value to the long-term healthy development of garbage power generation.
引文
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[11]李莉,宋景慧.垃圾焚烧电厂过热器管腐蚀泄漏机制分析[J].华电技术,2017,39(4):24-27,78.
[12]杨键.垃圾焚烧发电厂汽轮机旁路系统的设计[J].中国科技博览,2010(18):37-38.
[13]李茂东,杨波,王小聪,等.SNCR还原剂对垃圾焚烧炉热效率的影响[J].广东电力,2016,29(5):6-10,112.
[14]方成贤.火力发电和垃圾焚烧处理耦合探讨[J].环境工程,2018(36):706-709.
[15]张厚坚,刘海娟,黄世清,等.城市生活垃圾焚烧处理过程中重金属迁移规律研究[J].环境工程学报,2013(11):4569-4574.
[2]刘方生.试论我国垃圾焚烧发电的现状及发展趋势[J].低碳世界,2016(30):41-42.
[3]郭文刚.关于垃圾焚烧发电行业现状分析及发展建议[J].民营科技,2016(1):257-258.
[4]赵曼莉.城市生活垃圾发电项目的PPP模式研究[J].住宅与房地产,2017(1):16.
[5]林仞.生活垃圾焚烧发电系统优化技术探讨[J].福建农机,2014(4):32-35.
[6]李清海,张衍国,陈勇,等.垃圾焚烧发电厂热力系统的特点及优化[J].热力发电,2005(9):66-68.
[7]李洪博.垃圾发电的优势及存在的问题[J].水利水电建设,2018(2):221.
[8]焦琳晓,千敏.基于循环经济的垃圾发电项目综合绩效评价[J].贵州商学院学报,2018(31):71-78.
[9]赵良庆,李朝晖,于松,等.城市生活垃圾焚烧发电技术及装备概述[J].环境保护与循环经济,2016(1):28-35.
[10]杨波,钟志强,黄巧贤,等.垃圾焚烧锅炉的高温氯腐蚀研究进展[J].广东电力,2016,29(6):5-11,17.
[11]李莉,宋景慧.垃圾焚烧电厂过热器管腐蚀泄漏机制分析[J].华电技术,2017,39(4):24-27,78.
[12]杨键.垃圾焚烧发电厂汽轮机旁路系统的设计[J].中国科技博览,2010(18):37-38.
[13]李茂东,杨波,王小聪,等.SNCR还原剂对垃圾焚烧炉热效率的影响[J].广东电力,2016,29(5):6-10,112.
[14]方成贤.火力发电和垃圾焚烧处理耦合探讨[J].环境工程,2018(36):706-709.
[15]张厚坚,刘海娟,黄世清,等.城市生活垃圾焚烧处理过程中重金属迁移规律研究[J].环境工程学报,2013(11):4569-4574.