http://www.sciencedirect.com/science/journal/03062619/195Volume 195,Pages 1-1112(1 June 2017)(1)A novel study of using oil refinery plants waste gases for thermal desalination and electric power generation:Energy,exer...http://www.sciencedirect.com/science/journal/03062619/195Volume 195,Pages 1-1112(1 June 2017)(1)A novel study of using oil refinery plants waste gases for thermal desalination and electric power generation:Energy,exergy&cost evaluations,P453-477,by Mohamed A.Sharaf Eldean,A.M.Soliman Abstract:Thermal desalination plants need large amounts of展开更多
http://www.sciencedirect.com/science/journal/03062619/201Volume 201,Pages 1-432(1 September 2017)(1)Model-based optimal design of active cool thermal energy storage for maximal life-cycle cost saving from demand manag...http://www.sciencedirect.com/science/journal/03062619/201Volume 201,Pages 1-432(1 September 2017)(1)Model-based optimal design of active cool thermal energy storage for maximal life-cycle cost saving from demand management in commercial buildings,P382-396,by Borui Cui,Dian-ce Gao,Fu Xiao,Shengwei展开更多
This perspectives article is intended highlight the growing importance and emergence of shale gas as an energy resource and as a source of chemicals. Over the next decades huge amounts of newly discovered deposits of ...This perspectives article is intended highlight the growing importance and emergence of shale gas as an energy resource and as a source of chemicals. Over the next decades huge amounts of newly discovered deposits of trapped gas are expected to be produced not only in the USA but elsewhere providing a wealth of methane and ethane not only used for energy production, but also for conversion to lower hydrocarbon chemicals. This manuscript seeks to focus on the potential of trapped natural gas around the world. The potential new volumes of trapped gas within shale or other mineral strata coming to the marketplace offer a tremendous opportunity if scientists can invent new, cost effective ways to convert this methane to higher value chemicals. Understanding how to selectively break a single C-H bond in methane while minimizing methane conversion to C02 is critical.展开更多
文摘http://www.sciencedirect.com/science/journal/03062619/195Volume 195,Pages 1-1112(1 June 2017)(1)A novel study of using oil refinery plants waste gases for thermal desalination and electric power generation:Energy,exergy&cost evaluations,P453-477,by Mohamed A.Sharaf Eldean,A.M.Soliman Abstract:Thermal desalination plants need large amounts of
文摘http://www.sciencedirect.com/science/journal/03062619/201Volume 201,Pages 1-432(1 September 2017)(1)Model-based optimal design of active cool thermal energy storage for maximal life-cycle cost saving from demand management in commercial buildings,P382-396,by Borui Cui,Dian-ce Gao,Fu Xiao,Shengwei
文摘This perspectives article is intended highlight the growing importance and emergence of shale gas as an energy resource and as a source of chemicals. Over the next decades huge amounts of newly discovered deposits of trapped gas are expected to be produced not only in the USA but elsewhere providing a wealth of methane and ethane not only used for energy production, but also for conversion to lower hydrocarbon chemicals. This manuscript seeks to focus on the potential of trapped natural gas around the world. The potential new volumes of trapped gas within shale or other mineral strata coming to the marketplace offer a tremendous opportunity if scientists can invent new, cost effective ways to convert this methane to higher value chemicals. Understanding how to selectively break a single C-H bond in methane while minimizing methane conversion to C02 is critical.
