刘建文;袁瑞佳;陈楠;
LIU Jianwen;YUAN Ruijia;CHEN Nan;College of Architecture & Urban and Rural Planning,Hunan University of Technology;College of Finance and Economics,Hunan University of Technology;Zhuzhou Lanyu Heat Energy Science and Technology Development Co. ,Ltd.;

• 1:湖南工业大学建筑与城乡规划学院
• 2:湖南工业大学财经学院
• 3:株洲市蓝宇热能科技研制有限公司

摘要(Abstract)：

生物质水煤浆可以实现生物质有机废弃物资源化利用,节约能源、提高能效和代替煤炭,因此,生物质水煤浆技术是适应中国CDM机制项目重点开发的领域。为了推进企业与工业园区生态、低碳化建设,促进城市低碳发展,开展生物质水煤浆技术CDM机制项目发展分析和碳减排评价分析。结果表明:生物质水煤浆制浆燃烧集成系统具有显著的碳减排效果,尤其适用于大中型化工、食品加工、中药医药等行业高浓度有机废液与生物质固体废弃物协同处理。运用这一集成系统时,要注意结合中国煤炭资源分布及利用情况,充分考虑煤炭运输条件及环境,选择合理、经济的系统集成技术和项目运作方式。
As a key development area of CDM mechanism project,the Bio-CWM can utilize the biomass organism,save energy and improve energy efficiency. To promote ecological and low-carbon construction for enterprises and industrial park,improve the low-carbon development of cities. Evaluate and analyse the carbon emission reduction effects of integrated system of Bio-CWM preparation and combustion. The results show that,the integrated system of biomass coal-water slurry pulping and burning can significantly reduce carbon emission,its especially suitable for large and medium-sized chemical,food processing,medicine and other enterprises and industrial parks which need co-treatment with high concentration organic waste water and solid waste. However,when using the integrated system,attention should be paid to distribution and utilization of coal resources in China,give full consideration to the conditions and environment of coal transportation,choose a reasonable and economical system integration technology and mode of operration of project.

关键词(KeyWords)： 生物质水煤浆;CDM机制;碳减排;评价
Bio-CWM;CDM;carbon emission reduction;evaluation

Abstract:

Keywords:

基金项目(Foundation): 湖南省自然科学联合基金资助项目(12JJ9035)

作者(Authors): 刘建文;袁瑞佳;陈楠;
LIU Jianwen;YUAN Ruijia;CHEN Nan;College of Architecture & Urban and Rural Planning,Hunan University of Technology;College of Finance and Economics,Hunan University of Technology;Zhuzhou Lanyu Heat Energy Science and Technology Development Co. ,Ltd.;

DOI: 10.13226/j.issn.1006-6772.2014.02.029

参考文献(References)：

• [1]水煤浆技术的概述[EB/OL].[2001-12-19].http://www.cecol.com.cn/a/20120331/1533552.html.
• [2]申宝宏,赵路正.高碳能源低碳化利用途径分析[J].中国能源,2010(1):10-13.
• [3]全国人大财经委“促进煤炭清洁生产与高效利用”课题组.促进煤炭清洁生产与高效利用推动“高碳能源”实现“绿色发展”[R].北京:中国发展基金研究会,2012.
• [4]清洁发展机制[EB/OL].[2013-12-10].http://baike.so.com/doc/5987261.html.
• [5]盛智中研经济研究院.2013—2018年中国清洁发展机制CDM市场投资策略指导研究报告[R].北京:北京亚博中研信息咨询有限公司,2013.
• [6]贾抒.CDM“打包者”的环保之路[EB/OL].[2010-01-19].http://epaper.nfdaily.cn/html/2010-01/19/content_6813158.htm.
• [7]宋然平,杨抒,孙淼.能源消耗引起的温室气体排放计算工具指南[R].北京:世界资源研究所,2011.
• [8]IPCC.2006 IPCC Guidelines for National Greenhouse Gas Inventories[R].Geneva:[s.n.],2006.

文章评论(Comment)：