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首页> 外文期刊>Environmental Science & Technology >Biosolids-A Fuel or a Waste? An Integrated Appraisal of Five Co-combustion Scenarios with Policy Analysis
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Biosolids-A Fuel or a Waste? An Integrated Appraisal of Five Co-combustion Scenarios with Policy Analysis

机译:生物固体是燃料还是废物?通过政策分析对五种混合燃烧情景进行综合评估

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摘要

An integrated appraisal of five technology scenarios for the co-combustion of biosolids in the UK energy and waste management policy context is presented.Co-combustion scenarios with coal,municipal solid waste,wood,and for cement manufacture were subject to thermodynamic and materials flow modeling and evaluated by 19 stakeholder representatives.All scenarios provided a net energy gain (0.58-5.0 kWh/kg dry solids),having accounted for the energy required fortransportation and sludge drying.Co-combustion within the power generation and industrial (e.g.,cement) sectors is most readily implemented but provides poor water utility control,and it suffers from poor public perception.Co-combustion with wastes or biomass appears more sustainable but requires greater investment and presents significant risks to water utilities.Incongruities within current energy and waste management policy are discussed and conclusions for improved understanding are drawn.
机译:提出了对英国能源和废物管理政策中生物固体混合燃烧的五种技术方案的综合评估。煤,市政固体废物,木材和水泥制造的混合燃烧方案受热力学和物料流的影响由19个利益相关者代表进行建模和评估。所有方案均提供了净能源收益(0.58-5.0 kWh / kg干固体),已考虑了运输和污泥干燥所需的能量。发电和工业(例如水泥)中的共燃)部门最容易实施,但对公共事业的控制却很差,而且公众对它的看法也很差。与废物或生物质的共燃似乎更具可持续性,但需要更大的投资,给水务企业带来了巨大的风险。当前能源和废物管理的不一致性讨论了政策,并得出了增进理解的结论。

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  • 来源
    《Environmental Science & Technology》 |2006年第3期|p.649-658|共10页
  • 作者

    ELISE CARTMELL; PETER GOSTELOW; DRUSILLA RIDDELL-BLACK; NIGEL SIMMS; JOHN OAKEY;

  • 作者单位

    Sustainable Systems Department,School of Industrial and Manufacturing Science,Cranfield University,Cranfield,Bedfordshire,MK43 OAL,U.K.,Lupus Science,Huntercombe,Nuffield,Oxfordshire,RG9 5SG,U.K.,and Institute of Water and Environment,Cranfleld Unive;

    Sustainable Systems Department,School of Industrial and Manufacturing Science,Cranfield University,Cranfield,Bedfordshire,MK43 OAL,U.K.,Lupus Science,Huntercombe,Nuffield,Oxfordshire,RG9 5SG,U.K.,and Institute of Water and Environment,Cranfleld Unive;

    Sustainable Systems Department,School of Industrial and Manufacturing Science,Cranfield University,Cranfield,Bedfordshire,MK43 OAL,U.K.,Lupus Science,Huntercombe,Nuffield,Oxfordshire,RG9 5SG,U.K.,and Institute of Water and Environment,Cranfleld Unive;

    Sustainable Systems Department,School of Industrial and Manufacturing Science,Cranfield University,Cranfield,Bedfordshire,MK43 OAL,U.K.,Lupus Science,Huntercombe,Nuffield,Oxfordshire,RG9 5SG,U.K.,and Institute of Water and Environment,Cranfleld Unive;

    Sustainable Systems Department,School of Industrial and Manufacturing Science,Cranfield University,Cranfield,Bedfordshire,MK43 OAL,U.K.,Lupus Science,Huntercombe,Nuffield,Oxfordshire,RG9 5SG,U.K.,and Institute of Water and Environment,Cranfleld Unive;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 环境化学;
  • 关键词

  • 入库时间 2022-08-17 14:06:50

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