生物质能源在工业园区分布式能源中的应用

韩峰; 丛堃林; 张衍国; 严矫平; 林子伟

doi:10.16513/j.2096-2185.DE.2005005

PDF(2966 KB)

分布式能源 ›› 2020, Vol. 5 ›› Issue (3) : 55-60. DOI: 10.16513/j.2096-2185.DE.2005005

应用技术

生物质能源在工业园区分布式能源中的应用

韩峰 ¹ ,
丛堃林 ² ,
张衍国 ² ,
严矫平 ¹ ,
林子伟 ³

作者信息 +

Application of Biomass Energy in Distributed Energy of Industrial Park

Author information +

文章历史 +

摘要

生物质能源属于可再生能源，在我国能源结构调整中扮演着重要角色。如何实现生物质能源的清洁高效利用，是实现能源可持续发展的关键因素。生物质多流程循环流化床燃烧技术有效解决了传统循环流化床锅炉小型化的问题，具有热效率高、污染物排放低的特点。兴化城东工业园区生物质分布式能源项目以当地的秸秆和稻壳等生物质资源为基础，以生物质多流程循环流化床锅炉为核心装备，实现了冷热电联产，有效提高了园区的能源利用效率，具有重要的借鉴意义。

Abstract

Biomass energy belongs to renewable energy and plays an important role in China's energy structure adjustment. How to realize the clean and efficient utilization of biomass energy is a key factor in achieving the sustainable energy development. The biomass multi-pass circulating fluidized bed combustion technology effectively solves the problem of miniaturization of traditional circulating fluidized bed boilers, and has the characteristics of high thermal efficiency and low pollutant emissions. The integrated energy service project of Xinghua Chengdong Industrial Park is based on local biomass resources such as straw and rice husk, with the biomass multi-pass circulating fluidized bed boiler as the core equipment, realizing the cogeneration of cooling, heat and power, effectively improving the energy utilization rate of the system, which has important reference significance.

导出引用

韩峰, 丛堃林, 张衍国, 等. 生物质能源在工业园区分布式能源中的应用[J]. 分布式能源. 2020, 5(3): 55-60 https://doi.org/10.16513/j.2096-2185.DE.2005005

Feng HAN, Kunlin CONG, Yanguo ZHANG, et al. Application of Biomass Energy in Distributed Energy of Industrial Park[J]. Distributed Energy Resources. 2020, 5(3): 55-60 https://doi.org/10.16513/j.2096-2185.DE.2005005

中图分类号： TK6

参考文献

列表( 原文顺序 | 文献年度倒序 | 文中引用次数倒序 ) 可视化分析

[1]	高智溥，杨佳霖，唐宏芬，等. 煤基与燃气分布式能源系统性能分析及经济性比较[J]. 分布式能源，2017, 2(3): 1-7. GAO Zhipu, YANG Jialin, TANG Hongfen, et al. Performance analysis and techno-economic comparison on natural gas and coal based distributed energy system[J]. Distributed Energy, 2017, 2(3): 1-7. 本文引用 [1]

[2]	吴志力，杨卫红，原凯，等. 园区能源互联网多能源协同优化配置发展构想[J]. 中国电力，2018, 51(8): 99-105. WU Zhili, YANG Weihong, YUAN Kai, et al. Park energy internet development design of multi-energy synergic optimal allocation[J]. Electric Power, 2018, 51(8): 99-105. 本文引用 [1]

[3]	张书华，付林. 优先利用分布式能源及工业余热的多能互补供热模式[J]. 分布式能源，2018, 3(1): 64-68. ZHANG Shuhua, FU Lin. Multi energy complementary heating mode with priority use of distributed energy and industrial waste heat[J]. Distributed Energy, 2018, 3(1): 64-68. 本文引用 [1]

[4]	KORHONEN J, SNAKIN J P. Analysing the evolution of industrial ecosystems: concepts and application[J]. Ecological Economics, 2005, 52(2): 169-186. 本文引用 [1]

[5]	任洪波，邱留良，吴琼，等. 分布式能源系统优化与设计综述[J]. 中国电力，2017, 50(7): 49-55. REN Hongbo, QIU Liuliang, WU Qiong, et al. A review of optimization planning and designing of distributed energy systems[J]. Electric Power, 2017, 50(7): 49-55. 本文引用 [1]

[6]	ZHOU Z, LIU P, LI Z, et al. An engineering approach to the optimal design of distributed energy systems in China[J]. Applied Thermal Engineering, 2013, 53(2): 387-396. 本文引用 [1]

[7]	王尧，李欢欢，鞠立伟，等. 面向智能化调度的微网群能量耦合协调控制策略及仿真分析[J]. 电网技术，2018, 42(7): 2232-2239. WANG Yao, LI Huanhuan, JU Liwei, et al. Coordinated energy coupling control strategy and simulation analysis of microgrid cluster for intelligent scheduling[J]. Power System Technology, 2018, 42(7): 2232-2239. 本文引用 [1]

[8]	BAMUFLEH H S, PONCE-ORTEGA J M, EL-HALWAGI M M. Multi-objective optimization of process cogeneration systems with economic, environmental, and social tradeoffs[J]. Clean Technologies & Environmental Policy, 15(1): 185-197. 本文引用 [1]

[9]	高赛赛，张雪梅，郭甲生，等. 分布式能源系统的评价方法[J]. 煤气与热力，2018, 38(1): 43-47. GAO Saisai, ZHANG Xuemei, GUO Jiasheng, et al. Evaluation methods of distributed energy system[J]. Gas & Heat, 2018, 38(1): 43-47. 本文引用 [1]

[10]	林世平. 工业园区小型分布式能源系统应用研究[J]. 沈阳工程学院学报(自然科学版), 2011, 7(2): 103-106. LIN Shiping. Application research on miniature distribution energy system in industry parks[J]. Journal of Shenyang Institute of Engineering(Natural Science), 2011, 7(2): 103-106. 本文引用 [1]

[11]	王圣，王锋涛，杨硕. 我国重点地区天然气分布式能源项目形势及发展分析[J]. 环境保护，2018, 46(2): 68-70. WANG Sheng, WANG Fengtao, YANG Shuo. Analysis on situation and development of natural gas distributed energy in key area in China[J]. Environmental Protection, 2018, 46(2): 68-70. 本文引用 [1]

[12]	蒋建文，宗仁怀，杨厚君. 燃气分布式能源项目冷热电三联供的应用[J]. 城市燃气，2016(3): 9-11. JIANG Jianwen, ZONG Renhuai, YANG Houjun. The application of gas distributed CCHP energy project[J]. Urban Gas, 2016(3): 9-11. 本文引用 [1]

[13]	陈曦. 分布式能源系统在工业联产中的应用研究[D]. 北京：华北电力大学，2016. CHEN Xi. Research on the application of distributed energy system in industrial co-production[D]. Beijing: North China Electric Power University, 2016. 本文引用 [1]

[14]	马隆龙，唐志华，汪丛伟，等. 生物质能研究现状及未来发展策略[J]. 中国科学院院刊，2019, 34(4): 434-442. MA Longlong, TANG Zhihua, WANG Congwei, et al. Research status and future development strategy of biomass energy[J]. Bulletin of Chinese Academy of Sciences, 2019, 34(4)：434-442. 本文引用 [1]

[15]	初雷哲，张衍国，康建斌. 多流程循环流化床技术及其在生物质锅炉中的应用[J]. 生物产业技术，2019(5): 15-21. CHU Leizhe, ZHANG Yanguo, KANG Jianbin. Research and application of multi-pass circulating fluidized bed biomass boiler[J]. Biotechnology & Business, 2019(5): 15-21. 本文引用 [1]

[16]	郁洁. 多元影响因素下的冷热电联产系统经济性分析[D]. 南京：东南大学，2015. YU Jie. Economic analysis of combined cooling heating and power system under multivariate factors[D]. Nanjing: Southeast University, 2015. 本文引用 [1]

[17]	丛堃林，李清海，韩峰，等. 多流程卧式循环流化床气固流动的传热特性[J]. 燃烧科学与技术，2018, 24(4): 31-38. CONG Kunlin, LI Qinghai, HAN Feng, et, al. Gas-solid convective heat transfer in the multi-pss horizontal circulating fluidized bed furnaces[J]. Journal of Combustion Science and Technology, 2018, 24(4): 31-38. 本文引用 [1]

[18]	丛堃林，李清海，鲁伟，等. 多流程循环流化床锅炉热力计算方法研究[J]. 中国电力，2018, 51(8): 139-147. CONG Kunlin, LI Qinghai, LU Wei, et, al. Study of the thermal calculation for the multi-path horizontal circulating fluidized bed boiler[J]. Electric Power, 2018, 51(8): 139-147. 本文引用 [1]

[19]	环境保护部，国家质量监督检验检疫总局. 锅炉大气污染物排放标准：GB 13271—2014[S]. 北京：中国环境科学出版社，2014. 本文引用 [1]

[20]	国家能源局. 国家能源局关于开展“百个城镇”生物质热电联产县域清洁供热示范项目建设的通知[EB/OL]. (2018-01-19)[2020-01-26]． http://zfxxgk.nea.gov.cn/auto87/201802/t20180211_3116.htm 本文引用 [1]

[21]	兴化市发展和改革委员会. 兴化市热电联产规划(2017—2020)[EB/OL]. (2017-07-10)[2020-01-26]. http://www.taizhou.gov.cn/art/2017/7/10/art_392_1160780.html 本文引用 [1]