[1]刘义达,李官鹏,祁金胜,等.利用空冷机组余热干燥生物质可行性分析[J].热力发电,2018,(11):7-12.[doi:10.19666/j.rlfd.201802095]
 LIU Yida,LI Guanpeng,QI Jinsheng,et al.Feasibility study on reusing waste heat of air-cooled units for drying biomass[J].Thermal Power Generation,2018,(11):7-12.[doi:10.19666/j.rlfd.201802095]
点击复制

利用空冷机组余热干燥生物质可行性分析

参考文献/References:

[1] 毕凤清. 生物质气化中秸秆干燥预处理技术分析[J]. 热电技术, 2015(2): 5-8.
BI Fengqing. Analysis of the technology of straw drying pretreatment in biomass gasification[J]. Cogeneration Power Technology, 2015(2):5-8.
[2] 吴创之, 刘华财, 阴秀丽, 等. 生物质气化技术发展分析[J]. 燃料化学学报, 2013, 41(7): 798-804.
WU Chuangzhi, LIU Huacai, YIN Xiuli, et al. Status and prospects for biomass gasification[J]. Journal of Fuel Chemistry and Technology, 2013, 41(7): 798-804.
[3] 焦存生, 张杰英. 直接空冷机组乏汽供热技术改造[J].内蒙古电力技术, 2014(5): 60-63.
JIAO Cunsheng, ZHANG Jieying. Analysis of heating transformation with exhaust steam on direct dry cooling units[J]. Inner Mongolia Electric Power, 2014(5): 60-63.
[4] 商继鹏, 陈淑琴. 乏汽综合利用改造技术在300 MW直接空冷机组中的应用分析[J]. 山西电力, 2014(3): 63-65.
SHANG Jipeng, CHEN Shuqin. Application of exhausted steam comprehensive utilization technology on 300 MW direct air cooling unit[J]. Shanxi Electric Power, 2014(3): 63-65.
[5] 李坤, 熊扬恒. 直接空冷散热器出口热空气利用的可行性研究[J]. 热力发电, 2007, 36(1): 8-11.
LI Kun, XIONG Yangheng. Study on feasibility of reusing hot air from the outlet of direct air cooling radiator[J]. Thermal Power Generation, 2007, 36(1): 8-11.
[6] 魏高升, 刘立祥, 杨立军, 等. 火电厂直接空冷凝汽器出口热空气作为锅炉燃烧用风的综合分析[J]. 现代电力, 2008, 25(2): 57-60.
WEI Gaosheng, LIU Lixiang, YANG Lijun, et al. Performance analysis of using hot air from outlet of directly air-cooled steam condensers in boiler combus-tion[J]. Modern Electric Power, 2008, 25(2): 57-60.
[7] XU C, XU G, YANG Y P, et al. An improved configu-ration of low-temperature pre-drying using waste heat integrated in an air-cooled lignite fired power plant[J]. Applied Thermal Engineering, 2015, 90: 312-321.
[8] 周汝雁, 张全国, 黄浩. 棉花秸秆干燥特性的高温综合热分析[J]. 华中农业大学学报, 2006, 25(5): 571-574.
ZHOU Ruyan, ZHANG Quanguo, HUANG Hao. Ther-mal synthetic analysis at high-temperature of cotton stalk in drying process[J]. Journal of Huazhong Agricultural University, 2006, 25(5): 571-574.
[9] 金红光, 张国强, 高林, 等. 总能系统理论研究进展与展望[J]. 机械工程学报, 2009, 45(3): 39-48.
JIN Hongguang, ZHANG Guoqiang, GAO Lin, et al. The development and prospect of total energy system[J]. Chinese Journal of Mechanical Engineering, 2009, 45(3): 39-48.
[10] 刘义达, 祁金胜, 张乐川, 等. 基于空冷装置的热电耦合式能量综合利用系统及工作方法: 201310264095.3[P]. 2013-10-02.
LIU Yida, QI Jinsheng, ZHANG Lechuan, et al. Thermo-electric coupled energy integrated system and working method based on air cooling device: 201310264095.3[P]. 2013-10-02.
[11] 刘义达, 祁金胜, 高永芬, 等. 一种封闭式多通道强制通风冷却的空冷系统及工作方法: 201310269426.2[P]. 2013-10-16.
LIU Yida, QI Jinsheng, GAO Yongfen, et al. An air cooling system and working method of closed multi-channel forced ventilation cooling: 201310269426.2[P]. 2013-10-16.
[12] 刘义达, 祁金胜, 张乐川, 等. 一种火电厂主厂房矩阵式/方阵状布置结构: 201320377376.5[P]. 2013-12-04.
LIU Yida, QI Jinsheng, ZHANG Lechuan, et al. A matrix/square array arrangement for the main building of thermal power plant: 201320377376.5[P]. 2013-12-04.
[13] 宋荣华. 选煤厂煤泥干燥系统大气污染物计算方法探讨[J]. 煤炭工程, 2014, 46(1): 24-26.
SONG Ronghua. Discussion on calculation method of air pollutants from slime dry system of coal preparation plant[J]. Coal Engineering, 2014, 46(1): 24-26.
[14] 火力发电厂燃烧系统设计计算技术规程: DL/T 5240—2010[S]. 北京: 中国电力出版社, 2010.
Technical code for design and calculation of combustion system of fossil-fired power plant: DL/T5240—2010[S]. Beijing: China Electric Power Press, 2010.
[15] 奚英涛, 由长福. 直接加热式生物质回转干燥过程模拟[J]. 太阳能学报, 2013, 34(1): 92-99.
XI Yingtao, YOU Changfu. Simulation of biomass drying in a direct contact rotary dryer[J]. Acta Energiae Solaris Sinica, 2013, 34(1): 92-99.
[16] 何培红, 沈冶, 常平, 等. 10.8 MW生物质气化再燃发电项目工业应用[C]//中国电机工程学会清洁高效发电技术协作网2014年会论文集. 北京: 中国电机学会, 2014: 1-7.
HE Peihong, SHEN Ye, CHANG Ping, et al. The industrial application of 10.8 MW biomass gasification reburning electricity generation project[C]//CSEE of 2014 Clean and Efficient Power Generation Technology Co-operation Network. Beijing: CSEE, 2014: 1-7.
[17] 金国淼. 干燥器[M]. 北京: 化学工业出版社, 2008: 81.
JIN Guomiao. Dryer[M]. Beijing: Chemical Industry Press, 2008: 81.
[18] 刘广文. 干燥设备设计手册[M]. 北京: 机械工业出版社, 2009: 350.
LIU Guangwen. Design handbook of drying equip-ment[M]. Beijing: China Machine Press, 2009: 350.
(责任编辑 刘永强)

相似文献/References:

[1]孙天宇,任建兴,张健,等.水源热泵回收电厂循环水余热的经济性分析[J].热力发电,2015,(07):7.
 SUN Tianyu,REN Jianxing,ZHANG Jian,et al.Economic analysis on recovering circulating water waste heat from power plant by water source heat pumps[J].Thermal Power Generation,2015,(11):7.
[2]顾煜炯,耿直,谢典,等.电厂循环冷却水余热利用分析[J].热力发电,2016,(04):35.
 GU Yujiong,GENG Zhi,XIE Dian,et al.Waste heat recovery from circulating cooling water in power plants[J].Thermal Power Generation,2016,(11):35.
[3]陈海平,谢 天,杨博然,等. 火电厂烟气水分及余热陶瓷膜法回收实验[J].热力发电,2018,(预出版):1.[doi:10.19666/j.rlfd.201803032]
 CHEN Haiping,XIE Tian,YANG Boran,et al. Ceramic membrane method for water and waste heat recovery from flue gas of thermal power plant[J].Thermal Power Generation,2018,(11):1.[doi:10.19666/j.rlfd.201803032]
[4]陈海平,谢 天,杨博然,等.火电厂烟气水分及余热陶瓷膜法回收实验[J].热力发电,2018,(11):46.[doi:10.19666/j.rlfd.201803032]
 CHEN Haiping,XIE Tian,YANG Boran,et al.Water and waste heat recovery from flue gas of thermal power plants: using ceramic membrane method[J].Thermal Power Generation,2018,(11):46.[doi:10.19666/j.rlfd.201803032]

备注/Memo

刘义达(1987—),男,硕士,工程师,主要研究方向为能源梯度利用、电站节能改造等技术,liuyida@sdepci.com。

更新日期/Last Update: 2018-10-25