Advances in New and Renewable Energy >
Industrialized Characterization of Biomass Gasification Technology Applied for the Industrial Boiler Heating-supply
Received date: 2015-05-04
Revised date: 2015-06-05
Online published: 2015-08-30
Based on an industrialized demonstration, the biomass gasification technology applied in industrial boiler industry was studied in the paper. The operation characteristics and the energy consumption were investigated. Meanwhile, the effects on both the environment and the economy for the demonstration were analyzed. The result showed that Chinese redwood displayed the best capability in terms of the system operation characteristics compared with other biomass feedstock. Moreover, the energy consumption analysis presented that heat loss resulting from the exhaust gas, the recyclable cooling water and the equipment & pipeline accounted approximately for 16% of the total energy, which could be further saved for the system. Finally, the demonstration was proved to be largely environment-friendly and profitable by its low pollutant emission and high investment income. Furthermore, it was found that the sales price of the steam would be the main factor determining the economic benefits for other similar-scale projects.
ZHAN Hao , SU De-ren , PAN Xian-qi , ZHANG Jia-ping , LI Xin-ai , TANG Guang-wen , ZHOU Yi . Industrialized Characterization of Biomass Gasification Technology Applied for the Industrial Boiler Heating-supply[J]. Advances in New and Renewable Energy, 2015 , 3(4) : 270 -279 . DOI: 10.3969/j.issn.2095-560X.2015.04.006
[1] 环境保护部办公厅. 关于征求国家环境保护标准《锅炉大气污染物排放标准》(征求意见稿)意见的函[EB/OL]. 2013-08-02. http://www.zhb.gov.cn/gkml/hbb/ bgth/201308/t20130805_256939.htm.
[2] 李茂东, 黎华, 钟志强. 工业锅炉能耗现状分析与节能措施[J]. 石油和化工设备, 2009(7): 67-69.
[3] 赵钦新, 王善武. 我国工业锅炉未来发展分析[J]. 工业锅炉, 2007, 15(1): 19-20.
[4] 赵军明. 广州市工业锅炉能耗分析与节能技术研究[D]. 广州: 华南理工大学, 2010.
[5] 何心良. 我国工业锅炉使用现状与节能减排对策探讨[J]. 工业锅炉, 2010, 25(3): 1-8.
[6] GB 13271-2014, 锅炉大气污染物排放标准[S].
[7] 环境保护部办公厅. 关于生物质成型燃料有关问题的复函[EB/OL]. 2013-08-07. http://www.zhb.gov.cn/info/ bgw/bbgth/200908/t20090812_157379.htm.
[8] E4Tech. Review of Technologies for Gasification of Biomass and Wastes Final report[C]. NNFCC project 09/008, 2009.
[9] Stahl K, Neergaard M. IGCC power plant for biomass utilization, Varnamo, Sweden[J]. Biomass and Bioenergy, 1998, 15(3): 205-211.
[10] 吴创之, 刘华财, 阴秀丽. 生物质气化技术发展分析[J] 燃料化学学报, 2013, 41(7): 798-804.
[11] 董玉平, 邓波, 景元琢, 等. 中国生物质气化技术的研究和发展现状[J] 山东大学学报(工学版), 2007, 37(2): 1-7, 29.
[12] TSGG0002-2010, 锅炉节能技术监督管理规程[S].
[13] 吴创之, 潘贤齐, 周肇秋, 等. 一种生物质混流式气化装置: 中国, ZL201120164215.9[P]. 2012-01-18.
[14] Collard F X, Blin J. A review on pyrolysis of biomass constituents:Mechanisms and composition of the products obtained from the conversion of cellulose, hemicelluloses and lignin[J]. Renewable and Sustainable Energy Reviews, 2014, 38: 594-608.
[15] GB/T 212-2008, 煤的工业分析方法[S].
[16] Abatzoglou N, Barker N, Hasler P, et al. The development of a draft protocol for the sampling and analysis of particulate and organic contaminants in the gas from small biomass gasifier[J]. Biomass and bioenergy, 2000(18): 5-17.
[17] HG/T 20525-2006, 化学工业管式炉传热计算设计规定[S].
[18] HJ 2.4-2009, 环境影响评价技术导则 声环境[S].
[19] GB12348-2008, 工业企业厂界环境噪声排放标准[S].
[20] 王中华. 热解、气化过程中燃料-N的形态转化及迁移
规律研究[D]. 武汉: 华中科技大学, 2011.
[21] van der Drift A, van Doorn J, Vermeulen J W. Ten residual biomass fuels for circulating fluidized-bed gasification[J]. Biomass and Bioenergy. 2001, 20(1): 45-56.
[22] 李刚. 生物质气化过程氮污染物形成机理研究[D]. 天津: 天津大学, 2005.
[23] 王微, 林剑艺, 崔胜辉, 等. 碳足迹分析方法研究综述[J]. 环境科学与技术, 2010, 33(7): 71-78.
[24] 丁绍兰, 陈鹏. 生命周期评价应用中应注意的问题[J]. 环境科学与管理, 2009, 34(3): 61-64.
[25] 刘莉, 董国亮, 王云龙, 等. 公路运输能源消耗统计指标研究[J]. 交通节能与环保, 2008(3): 16-22.
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