机译:可再生能源系统对环境影响及缓解策略的批判 - 风,水电,生物量和地热
Chemical Engineering Department Faculty of Engineering Minia University Egypt Center for Advanced Materials Research University of Sharjah 27272 Sharjah United Arab Emirates;
Mechanical Engineering and Design Aston University School of Engineering and Applied Science Aston Triangle Birmingham B4 7ET UK;
Chemical Engineering Department Texas A&M University College Station TX 77843-3122 USA;
Department of Sustainable and Renewable Energy Engineering University of Sharjah 27272 Sharjah United Arab Emirates;
Chemical Engineering Department Faculty of Engineering Minia University Egypt Center for Advanced Materials Research University of Sharjah 27272 Sharjah United Arab Emirates Department of Sustainable and Renewable Energy Engineering University of Sharjah 27272 Sharjah United Arab Emirates;
Department of Environmental Engineering Korea Maritime and Ocean University 727 Taejong-ro Yeongdo-gu Busan 49112 Republic of Korea Interdisciplinary Major of Ocean Renewable Energy Engineering Korea Maritime and Ocean University 727 Taejong-ro Yeongdo-gu Busan 49112 South Korea;
Mechanical Engineering and Design Aston University School of Engineering and Applied Science Aston Triangle Birmingham B4 7ET UK Department of Sustainable and Renewable Energy Engineering University of Sharjah 27272 Sharjah United Arab Emirates;
Environmental impacts; Wind energy systems; Hydro energy systems; Biomass; Geothermal; Environmental solutions;
机译:风/地热/生物质/太阳能/水电加燃料电池Quintuple可再生混合系统的设计,构建和性能
机译:新型封装纳米相变材料的设计与制作,提高Quintule可再生地热/水电/生物质/太阳能/风混合系统的热效率
机译:新西兰的100%可再生能源发电系统,利用水,风,地热和生物质资源
机译:考虑可再生能源策略和环境影响的电网设计优化
机译:低温地热能系统的热可持续性:系统相互作用和环境影响。
机译:Hellisheiði地热发电厂对环境的影响以及地热能和其他能源技术的碳强度数据
机译:评估生态足迹和监测可再生能源:风能,太阳能,水能和地热能的概念框架