分离干燥城市生活垃圾(SDMSW)与生物质混合物气化过程的实验研究

Q2 Engineering Energy Harvesting and Systems Pub Date : 2022-11-16 DOI:10.1515/ehs-2022-0052
Ravi Kumar Rachamala, Narasimhulu Sanke, A. Seshu Kumar
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引用次数: 0

摘要

生产可持续能源以满足当今世界的需求是一个重大问题。城市固体废物(MSW)是生产可持续能源的良好来源,目前在印度大量产生。通常,城市固体废物经过筛选,制备分离的干燥城市固体废物(SDMSW)颗粒,然后将其气化以产生生产者气。但是,有害副产品的产生是SDMSW转化为生产气体的关键问题。在目前的工作中,设计和开发了一个多用途的下吸式气化炉,可以处理生物质和SDMSW颗粒混合,同时减少不需要的副产品,如焦油和灰烬。与生物质混合的SDMSW托盘的热值,化学成分和副产品含量在气化之前确定。原料的特征是使用最终和近似分析,热值是用炸弹量热计确定的。气相色谱法用于评价产气的质量。结果表明,在生物质中添加50%的SDMSW可获得良好的效率。
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Experimental investigation of Segregated Dry Municipal Solid Waste (SDMSW) and biomass blends in the gasification process
Abstract Producing sustainable energy to meet the world’s current demands is a major concern. Municipal Solid Waste (MSW) is a good source for producing sustainable energy and currently gets abundantly generated in India. Usually MSW is screened to prepare Segregated Dry Municipal Solid Waste (SDMSW) pellets before subjecting it to gasification to produce producer gas. But, generation of hazardous byproducts is a key issue in the conversion of SDMSW to producer gas. In the present work a multi-purpose downdraft gasifier has been designed and developed that can process biomass and SDMSW pellets blend while reducing undesirable byproducts such as tar and ash. The calorific value, chemical composition and byproduct content of the SDMSW pallets blended with biomass are determined prior to gasification. The feedstock is characterised using ultimate and proximate analysis, and the calorific value is determined using a bomb calorimeter. Gas chromatography is used to assess the quality of the producer gas. The results indicate that adding 50% SDMSW to Biomass results in good efficiency.
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来源期刊
Energy Harvesting and Systems
Energy Harvesting and Systems Energy-Energy Engineering and Power Technology
CiteScore
2.00
自引率
0.00%
发文量
31
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