Add to ORKGA supply-chain decision tool is outlined that will assess the life-cycle greenhouse gases and energy demand of solar energy technology using a hybrid LCA structure. Energy and greenhouse gas metrics appropriate for the climate change mitigation goals of solar energy are discussed. Applying this methodology to SolFocus Inc. concentrator systems, preliminary results indicate that the energy payback time of SolFocus Panels can vary from 0.6 to 5 years depending on manufacturing locations. The greenhouse gas payback time, a new metric for energy technologies, varies from 1.1 to 64 years depending on the same factors indicating that greenhouse gas metrics are more sensitive to installation and supply chain decisions than energy metrics
The production capacity of photovoltaic industries increased considerably in the last years. In term...
Part 2: Sustainable Supply ChainsInternational audienceThe energy payback performance of an energy g...
Due to increasing worldwide energy needs, several technologies have been elaborated to meet this dem...
A supply-chain decision tool is outlined that will assess the life-cycle greenhouse gases and energy...
Life-cycle assessment (LCA) is utilized to analyze SolFocus Inc. concentrator solar systems. A hybri...
The manufacturing sector is a significant contributor to environmental damage and resource use, whic...
Roll to roll (R2R) continuous production of solar selective surface, is a cost benefit method from t...
The paper presents a holistic evaluation of the energy and environmental profile of two renewable en...
Summary: Solar photovoltaics (PVs) installation would increase 20-fold by 2050; however, considerabl...
Through the Life Cycle Assessment (LCA) approach, a comparative environmental analysis was carried o...
The chapter presents an analysis of solar technologies (solar thermal, photovoltaic (PV) and solar c...
In life cycle assessment (LCA) of solar PV systems, energy pay back time (EPBT) is the commonly used...
© 2018 IEEE. This research paper addresses a detailed environmental life-cycle assessment (LCA) and ...
Life Cycle Assessment (LCA) is an effective methodology to assess the energy and environmental impac...
A systematic literature review was conducted to investigate the environmental impact of solar therma...
The production capacity of photovoltaic industries increased considerably in the last years. In term...
Part 2: Sustainable Supply ChainsInternational audienceThe energy payback performance of an energy g...
Due to increasing worldwide energy needs, several technologies have been elaborated to meet this dem...
A supply-chain decision tool is outlined that will assess the life-cycle greenhouse gases and energy...
Life-cycle assessment (LCA) is utilized to analyze SolFocus Inc. concentrator solar systems. A hybri...
The manufacturing sector is a significant contributor to environmental damage and resource use, whic...
Roll to roll (R2R) continuous production of solar selective surface, is a cost benefit method from t...
The paper presents a holistic evaluation of the energy and environmental profile of two renewable en...
Summary: Solar photovoltaics (PVs) installation would increase 20-fold by 2050; however, considerabl...
Through the Life Cycle Assessment (LCA) approach, a comparative environmental analysis was carried o...
The chapter presents an analysis of solar technologies (solar thermal, photovoltaic (PV) and solar c...
In life cycle assessment (LCA) of solar PV systems, energy pay back time (EPBT) is the commonly used...
© 2018 IEEE. This research paper addresses a detailed environmental life-cycle assessment (LCA) and ...
Life Cycle Assessment (LCA) is an effective methodology to assess the energy and environmental impac...
A systematic literature review was conducted to investigate the environmental impact of solar therma...
The production capacity of photovoltaic industries increased considerably in the last years. In term...
Part 2: Sustainable Supply ChainsInternational audienceThe energy payback performance of an energy g...
Due to increasing worldwide energy needs, several technologies have been elaborated to meet this dem...