Advances in New and Renewable Energy >
Policy Analysis and Implementation of Biomass Molding Fuels Industry in China
Received date: 2015-09-02
Revised date: 2015-10-20
Online published: 2015-12-30
Biomass molding fuels (BMF) have the advantages of being carbon neutral, low content of NOx and SOx, convenient to convey. Theoretically, BMF could replace traditional fossil fuels like coal, oil and NG to provide fuels for power generation and heat supply in China substantially. The utilization of BMF could also reduce air pollution and GHG emission, and therefore is a commendable option for realizing the sustained development. Albeit a series of incentive polices to promote this industry, there are lots of challenges and barriers lying in the development of BMF in China. This study sorts and analyzes all kinds of existing policies both in China and in developed countries, carries out a tracking survey on the implementation effects of key policies, such as for subsidy policy to utilize straws, tax deduction and exemption, environmental protection measures, etc., and finally provides corresponding suggestions for improvement.
XU Jie , LIU Shu-na , JIANG Yang , YUAN Zhen-hong . Policy Analysis and Implementation of Biomass Molding Fuels Industry in China[J]. Advances in New and Renewable Energy, 2015 , 3(6) : 477 -484 . DOI: 10.3969/j.issn.2095-560X.2015.06.011
[1] 许洁, 袁振宏, 刘姝娜, 等. 中国生物质能源发展现状、障碍与对策[J]. 太阳能学报, 2012, 33(S1): 122-128.
[2] 袁振宏, 许洁. 中国生物质发电与供热发展路线图研 究[R]. 广州: 中科院广州能源研究所, 2014.
[3] TIAN Y S. A potential analysis report of china biomass resources that can be used as raw materials of biomass liquid fuels[R]. Beijing: Chinese Academy of Agricultural Engineering, 2014. (in Chinese and English)
[4] ZHOU Z Q, YIN X L, XU J, et al, The development situation of biomass gasification power generation in China, Energy Policy[J]. 2012, 51: 52-57.
[5] STELTE W. Fuel pellets from biomass: The importance of the pelletizing pressure and its dependency on the processing conditions[J]. Fuel, 2011, 90(11): 3285-3290.
[6] PA A, BI X T, SOKHANSANJ S. Evaluation of wood pellet application for residential heating in British Columbia based on a streamlined life cycle analysis[J]. Biomass and Bioenergy, 2013, 49: 109-122.
[7] AGAR D. Torrefied versus conventional pellet production – A comparative study on energy and emission balance based on pilot-plant data and EU sustainability criteria[J]. Applied Energy, 2015, 138: 621-630.
[8] CASTELLANO J M. Study on the effects of raw materials composition and pelletization conditions on the quality and properties of pellets obtained from different woody and non woody biomasses[J]. Fuel, 2015. 139: 629-636.
[9] 田宜水. 中国生物质固体成型燃料产业发展分析[J]. 农业工程技术: 新能源产业, 2009, 3(2): 13-18
[10] 苏俊林, 赵晓文, 王巍. 生物质成型燃料研究现状及进展[J]. 节能技术, 2009, 27(154): 177-120.
[11] 张百良, 王许涛, 杨世关. 秸秆成型燃料生产应用的关键问题探讨[J]. 农业工程学报, 2008, 24(7): 296-300.
[12] 雷廷宙. 中国生物质成型燃料市场分析[R]. 郑州: 河南省科学院, 2012.
[13] WIP Renewable Energies, Wolfgang Hiegl, Rainer Janssen. Pellet market overview report EUROPE[R]. Munich, 2009.
[14] SGARBOSSA A, COSTA C, MENESATTI P, et al. A multivariate SIMCA index as discriminant in wood pellet quality assessment[J]. Renewable Energy, 2015, 76: 258-263.
[15] SIKKEMA R, STEINER M, JUNGINGER M, et al. Final report on producers, traders and consumers of wood pellets[R]. Vienna, 2009.
[16] 张百良, 任天宝, 徐桂转, 等. 中国固体生物质成型燃料标准体系[J]. 农业工程学报, 2010, 26(2): 257-262.
[17] 洪浩, 尤玉平, 严德福. 我国林业生物质成型燃料产业化实证研究[J]. 中国工程科学, 2011, 13(2): 66-77.
[18] 邢献军, 李涛, 马培勇, 等. 欧盟与中国生物质成型燃料产业发展现状对比[J]. 安徽科技, 2015(1): 39-41.
[19] 张大雷, 生物质成型燃料开发现状及应用前景[J]. 现代农业, 2007(12): 98-103.
[20] 刘国华. 生物质成型燃料技术及应用前景[J]. 应用能源技术, 2011(1): 44-47.
[21] 张国梁, 张振涛, 孙照斌, 等. 生物质成型燃料生产与应用的问题分析[J]. 农机化研究, 2011(8): 177-183.
[22] 霍丽丽, 姚宗路, 田宜水, 等. 波兰生物质成型燃料的发展及借鉴[J]. 可再生能源, 2013, 31(12): 130-141.
[23] 袁振宏, 许洁. 中国生物质固体成型燃料政策分析报告[R]. 广州: 中国科学院广州能源研究所, 2012.
[24] 袁振宏, 孙永明. 中国生物质固体成型燃料路线图报告[R]. 广州: 中国科学院广州能源研究所, 2012.
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