Add to ORKGA transparent and comparable understanding of the energy efficiency, carbon footprint, and environmental impacts of renewable resources are required in the decision making and planning process towards a more sustainable energy system. Therefore, a new approach is proposed for measuring the environmental sustainability of anaerobic digestion green gas production pathways. The approach is based on the industrial metabolism concept, and is expanded with three known methods. First, the Material Flow Analysis method is used to simulate the decentralized energy system. Second, the Material and Energy Flow Analysis method is used to determine the direct energy and material requirements. Finally, Life Cycle Analysis is used to calculate the indirec...
In this paper, which was prepared as part of IEA Bioenergy Task XV (“Greenhouse Gas Balances of Bioe...
In this paper, which was prepared as part of IEA Bioenergy Task XV (“Greenhouse Gas Balances of Bioe...
In this paper, which was prepared as part of IEA Bioenergy Task XV (“Greenhouse Gas Balances of Bioe...
A transparent and comparable understanding of the energy efficiency, carbon footprint, and environme...
A transparent and comparable understanding of the energy efficiency, carbon footprint, and environme...
To avoid energy scarcity as well as climate change, a transition towards a sustainable society must ...
Biogas produced through Anaerobic Digestion can be seen as a flexible and storable energy carrier. H...
Biogas produced through Anaerobic Digestion can be seen as a flexible and storable energy carrier. H...
Biogas produced through Anaerobic Digestion can be seen as a flexible and storable energy carrier. H...
Biogas produced through Anaerobic Digestion can be seen as a flexible and storable energy carrier. H...
Biogas produced through Anaerobic Digestion can be seen as a flexible and storable energy carrier. H...
The energy efficiency and sustainability of an anaerobic green gas production pathway was evaluated,...
The energy efficiency and sustainability of an anaerobic green gas production pathway was evaluated,...
Abstract written to Biogas Science for oral presentation. Regarding a new methodology for determinin...
One potential renewable energy resource is green gas production through anaerobic digestion (AD). Ho...
In this paper, which was prepared as part of IEA Bioenergy Task XV (“Greenhouse Gas Balances of Bioe...
In this paper, which was prepared as part of IEA Bioenergy Task XV (“Greenhouse Gas Balances of Bioe...
In this paper, which was prepared as part of IEA Bioenergy Task XV (“Greenhouse Gas Balances of Bioe...
A transparent and comparable understanding of the energy efficiency, carbon footprint, and environme...
A transparent and comparable understanding of the energy efficiency, carbon footprint, and environme...
To avoid energy scarcity as well as climate change, a transition towards a sustainable society must ...
Biogas produced through Anaerobic Digestion can be seen as a flexible and storable energy carrier. H...
Biogas produced through Anaerobic Digestion can be seen as a flexible and storable energy carrier. H...
Biogas produced through Anaerobic Digestion can be seen as a flexible and storable energy carrier. H...
Biogas produced through Anaerobic Digestion can be seen as a flexible and storable energy carrier. H...
Biogas produced through Anaerobic Digestion can be seen as a flexible and storable energy carrier. H...
The energy efficiency and sustainability of an anaerobic green gas production pathway was evaluated,...
The energy efficiency and sustainability of an anaerobic green gas production pathway was evaluated,...
Abstract written to Biogas Science for oral presentation. Regarding a new methodology for determinin...
One potential renewable energy resource is green gas production through anaerobic digestion (AD). Ho...
In this paper, which was prepared as part of IEA Bioenergy Task XV (“Greenhouse Gas Balances of Bioe...
In this paper, which was prepared as part of IEA Bioenergy Task XV (“Greenhouse Gas Balances of Bioe...
In this paper, which was prepared as part of IEA Bioenergy Task XV (“Greenhouse Gas Balances of Bioe...