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Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
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This book explores how the concepts, methods and tools of systemic analyses have been utilised in various contexts, and at different levels, to improve the efficiency and optimisation of sustainable energy systems.
Research & information: general --- renewable portfolio standards --- emissions trading scheme --- optimal operational strategy --- generation expansion plan --- energy planning --- public institution --- passive energy --- CRITIC method --- urban metabolism --- household energy metabolism --- household energy metabolism assessment methods --- household energy consumption --- energy systems optimisation --- exergy analysis --- cumulative-exergy consumption minimisation --- multi-energy systems --- energy-system design --- municipal energy systems --- internet of things --- IoT applications --- energy efficiency --- energy in buildings --- smart energy systems --- smart grid --- flexible demand --- energy storage --- concentrating solar power --- geographic information systems --- potential assessment --- renewable energy --- solar thermal --- South Africa --- CSP --- energy and economy transition --- decision making --- international energy security risk index --- multiple regression analysis --- multicollinearity test --- multicollinearity test with variance inflation factors --- renewable energy systems --- microgrids --- optimal expansion planning --- energy resilience --- resilient energy systems --- critical loads --- electric vehicles --- techno-economic analysis --- HOMER Pro --- New Zealand
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Effective environmental decision-making is often challenging and complex, where final solutions frequently possess inherently subjective political and socio-economic components. Consequently, complex sustainability applications in the “real world” frequently employ computational decision-making approaches to construct solutions to problems containing numerous quantitative dimensions and considerable sources of uncertainty. This volume includes a number of such applied computational analytics papers that either create new decision-making methods or provide innovative implementations of existing methods for addressing a wide spectrum of sustainability applications, broadly defined. The disparate contributions all emphasize novel approaches of computational analytics as applied to environmental decision-making and sustainability analysis – be this on the side of optimization, simulation, modelling, computational solution procedures, visual analytics, and/or information technologies.
Research & information: general --- Mathematics & science --- streamflow forecasting --- C-vine copula --- quantile regression --- joint dependencies --- water resource management --- ecological relationship --- factorial analysis --- input-output analysis --- optimal path --- reduction --- urban solid waste system --- desalination --- reverse osmosis --- modelling --- simulation --- parameter estimation --- seawater --- boron --- watershed management --- nonpoint source pollution --- point source pollution --- water quality --- pollutant loadings --- South Texas --- eco-efficiency --- DEA --- CO2 emissions --- forecasting --- ecological indicators --- biomass gasification --- machine learning --- computer modeling --- computer simulation --- regression --- model reduction --- LASSO --- classification --- feature selection --- financial market --- investing --- sustainability --- renewable energy support --- energy modeling --- energy system design --- generation profile --- environmental footprint --- renewable energy --- electricity production --- unlisted companies --- Germany --- feed-in tariff --- biofuel policy --- investment profitability analysis --- the pay-off method --- simulation decomposition --- sourcing --- operational flexibility --- business aviation --- turboprop --- electric motor --- specific power --- Monte Carlo simulation --- Iowa food-energy-water nexus --- nitrogen export --- system modeling --- weather modeling --- optimal allocation --- interval --- fuzzy --- dynamic programming --- water resources --- n/a
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
This book explores how the concepts, methods and tools of systemic analyses have been utilised in various contexts, and at different levels, to improve the efficiency and optimisation of sustainable energy systems.
renewable portfolio standards --- emissions trading scheme --- optimal operational strategy --- generation expansion plan --- energy planning --- public institution --- passive energy --- CRITIC method --- urban metabolism --- household energy metabolism --- household energy metabolism assessment methods --- household energy consumption --- energy systems optimisation --- exergy analysis --- cumulative-exergy consumption minimisation --- multi-energy systems --- energy-system design --- municipal energy systems --- internet of things --- IoT applications --- energy efficiency --- energy in buildings --- smart energy systems --- smart grid --- flexible demand --- energy storage --- concentrating solar power --- geographic information systems --- potential assessment --- renewable energy --- solar thermal --- South Africa --- CSP --- energy and economy transition --- decision making --- international energy security risk index --- multiple regression analysis --- multicollinearity test --- multicollinearity test with variance inflation factors --- renewable energy systems --- microgrids --- optimal expansion planning --- energy resilience --- resilient energy systems --- critical loads --- electric vehicles --- techno-economic analysis --- HOMER Pro --- New Zealand
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Effective environmental decision-making is often challenging and complex, where final solutions frequently possess inherently subjective political and socio-economic components. Consequently, complex sustainability applications in the “real world” frequently employ computational decision-making approaches to construct solutions to problems containing numerous quantitative dimensions and considerable sources of uncertainty. This volume includes a number of such applied computational analytics papers that either create new decision-making methods or provide innovative implementations of existing methods for addressing a wide spectrum of sustainability applications, broadly defined. The disparate contributions all emphasize novel approaches of computational analytics as applied to environmental decision-making and sustainability analysis – be this on the side of optimization, simulation, modelling, computational solution procedures, visual analytics, and/or information technologies.
streamflow forecasting --- C-vine copula --- quantile regression --- joint dependencies --- water resource management --- ecological relationship --- factorial analysis --- input-output analysis --- optimal path --- reduction --- urban solid waste system --- desalination --- reverse osmosis --- modelling --- simulation --- parameter estimation --- seawater --- boron --- watershed management --- nonpoint source pollution --- point source pollution --- water quality --- pollutant loadings --- South Texas --- eco-efficiency --- DEA --- CO2 emissions --- forecasting --- ecological indicators --- biomass gasification --- machine learning --- computer modeling --- computer simulation --- regression --- model reduction --- LASSO --- classification --- feature selection --- financial market --- investing --- sustainability --- renewable energy support --- energy modeling --- energy system design --- generation profile --- environmental footprint --- renewable energy --- electricity production --- unlisted companies --- Germany --- feed-in tariff --- biofuel policy --- investment profitability analysis --- the pay-off method --- simulation decomposition --- sourcing --- operational flexibility --- business aviation --- turboprop --- electric motor --- specific power --- Monte Carlo simulation --- Iowa food-energy-water nexus --- nitrogen export --- system modeling --- weather modeling --- optimal allocation --- interval --- fuzzy --- dynamic programming --- water resources --- n/a
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
This book explores how the concepts, methods and tools of systemic analyses have been utilised in various contexts, and at different levels, to improve the efficiency and optimisation of sustainable energy systems.
Research & information: general --- renewable portfolio standards --- emissions trading scheme --- optimal operational strategy --- generation expansion plan --- energy planning --- public institution --- passive energy --- CRITIC method --- urban metabolism --- household energy metabolism --- household energy metabolism assessment methods --- household energy consumption --- energy systems optimisation --- exergy analysis --- cumulative-exergy consumption minimisation --- multi-energy systems --- energy-system design --- municipal energy systems --- internet of things --- IoT applications --- energy efficiency --- energy in buildings --- smart energy systems --- smart grid --- flexible demand --- energy storage --- concentrating solar power --- geographic information systems --- potential assessment --- renewable energy --- solar thermal --- South Africa --- CSP --- energy and economy transition --- decision making --- international energy security risk index --- multiple regression analysis --- multicollinearity test --- multicollinearity test with variance inflation factors --- renewable energy systems --- microgrids --- optimal expansion planning --- energy resilience --- resilient energy systems --- critical loads --- electric vehicles --- techno-economic analysis --- HOMER Pro --- New Zealand --- renewable portfolio standards --- emissions trading scheme --- optimal operational strategy --- generation expansion plan --- energy planning --- public institution --- passive energy --- CRITIC method --- urban metabolism --- household energy metabolism --- household energy metabolism assessment methods --- household energy consumption --- energy systems optimisation --- exergy analysis --- cumulative-exergy consumption minimisation --- multi-energy systems --- energy-system design --- municipal energy systems --- internet of things --- IoT applications --- energy efficiency --- energy in buildings --- smart energy systems --- smart grid --- flexible demand --- energy storage --- concentrating solar power --- geographic information systems --- potential assessment --- renewable energy --- solar thermal --- South Africa --- CSP --- energy and economy transition --- decision making --- international energy security risk index --- multiple regression analysis --- multicollinearity test --- multicollinearity test with variance inflation factors --- renewable energy systems --- microgrids --- optimal expansion planning --- energy resilience --- resilient energy systems --- critical loads --- electric vehicles --- techno-economic analysis --- HOMER Pro --- New Zealand
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Effective environmental decision-making is often challenging and complex, where final solutions frequently possess inherently subjective political and socio-economic components. Consequently, complex sustainability applications in the “real world” frequently employ computational decision-making approaches to construct solutions to problems containing numerous quantitative dimensions and considerable sources of uncertainty. This volume includes a number of such applied computational analytics papers that either create new decision-making methods or provide innovative implementations of existing methods for addressing a wide spectrum of sustainability applications, broadly defined. The disparate contributions all emphasize novel approaches of computational analytics as applied to environmental decision-making and sustainability analysis – be this on the side of optimization, simulation, modelling, computational solution procedures, visual analytics, and/or information technologies.
Research & information: general --- Mathematics & science --- streamflow forecasting --- C-vine copula --- quantile regression --- joint dependencies --- water resource management --- ecological relationship --- factorial analysis --- input-output analysis --- optimal path --- reduction --- urban solid waste system --- desalination --- reverse osmosis --- modelling --- simulation --- parameter estimation --- seawater --- boron --- watershed management --- nonpoint source pollution --- point source pollution --- water quality --- pollutant loadings --- South Texas --- eco-efficiency --- DEA --- CO2 emissions --- forecasting --- ecological indicators --- biomass gasification --- machine learning --- computer modeling --- computer simulation --- regression --- model reduction --- LASSO --- classification --- feature selection --- financial market --- investing --- sustainability --- renewable energy support --- energy modeling --- energy system design --- generation profile --- environmental footprint --- renewable energy --- electricity production --- unlisted companies --- Germany --- feed-in tariff --- biofuel policy --- investment profitability analysis --- the pay-off method --- simulation decomposition --- sourcing --- operational flexibility --- business aviation --- turboprop --- electric motor --- specific power --- Monte Carlo simulation --- Iowa food-energy-water nexus --- nitrogen export --- system modeling --- weather modeling --- optimal allocation --- interval --- fuzzy --- dynamic programming --- water resources --- streamflow forecasting --- C-vine copula --- quantile regression --- joint dependencies --- water resource management --- ecological relationship --- factorial analysis --- input-output analysis --- optimal path --- reduction --- urban solid waste system --- desalination --- reverse osmosis --- modelling --- simulation --- parameter estimation --- seawater --- boron --- watershed management --- nonpoint source pollution --- point source pollution --- water quality --- pollutant loadings --- South Texas --- eco-efficiency --- DEA --- CO2 emissions --- forecasting --- ecological indicators --- biomass gasification --- machine learning --- computer modeling --- computer simulation --- regression --- model reduction --- LASSO --- classification --- feature selection --- financial market --- investing --- sustainability --- renewable energy support --- energy modeling --- energy system design --- generation profile --- environmental footprint --- renewable energy --- electricity production --- unlisted companies --- Germany --- feed-in tariff --- biofuel policy --- investment profitability analysis --- the pay-off method --- simulation decomposition --- sourcing --- operational flexibility --- business aviation --- turboprop --- electric motor --- specific power --- Monte Carlo simulation --- Iowa food-energy-water nexus --- nitrogen export --- system modeling --- weather modeling --- optimal allocation --- interval --- fuzzy --- dynamic programming --- water resources
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