Decreasing greenhouse gas (GHG) emissions will be a major driver when designing or retrofitting industrial process energy systems in the future. This can be achieved by e.g. increased heat recovery, heat pumping of waste heat, integration of combined heat and power (CHP), increased component energy efficiency, and switching to renewable fuels. For many applications, it is expected that energy policy instruments will result in fuel switching in favour of biomass fuels. Biomass fuel is a limited resource, thus it is expected that the increased demand for biofuel will increase the market price for this type of fuel
Much attention is directed towards how to rapidly decarbonise the energy system. Unlike the present ...
Bioenergy as well as bioenergy with carbon capture and storage are key options to embark on cost-eff...
In 2015, industrial sector installations included in the European emission trading system (EU ETS) e...
Decreasing greenhouse gas (GHG) emissions will be a major driver when designing or retrofitting indu...
Decreasing greenhouse gas (GHG) emissions will be a major driver when designing or retrofitting indu...
Increasing the energy efficiency of industrial systems is a major challenge for the future. The aim ...
Biomass chemical conversion processes allow the production of solid, liquid and gaseous biofuels, wh...
Abstract Fuel combustion for heat and/or electric power production is often the largest contributor ...
There are currently many driving forces for increasing electricity production in biomass CHP plants....
The adoption of energy efficiency measures can significantly reduce industrial energy use. This stud...
As political pressure to improve efficiency and reduce CO2-emissions increases, natural gas combined...
Biomass gasification has been pointed out as a technology with significant potential to produce moto...
Anthropogenic climate change is one of the greatest challenges of this century: The consequences of ...
This document summarizes the method and assumptions made to construct the reference and frozen effic...
This paper presents a methodology to analyse total system costs and CO2 emission consequences for en...
Much attention is directed towards how to rapidly decarbonise the energy system. Unlike the present ...
Bioenergy as well as bioenergy with carbon capture and storage are key options to embark on cost-eff...
In 2015, industrial sector installations included in the European emission trading system (EU ETS) e...
Decreasing greenhouse gas (GHG) emissions will be a major driver when designing or retrofitting indu...
Decreasing greenhouse gas (GHG) emissions will be a major driver when designing or retrofitting indu...
Increasing the energy efficiency of industrial systems is a major challenge for the future. The aim ...
Biomass chemical conversion processes allow the production of solid, liquid and gaseous biofuels, wh...
Abstract Fuel combustion for heat and/or electric power production is often the largest contributor ...
There are currently many driving forces for increasing electricity production in biomass CHP plants....
The adoption of energy efficiency measures can significantly reduce industrial energy use. This stud...
As political pressure to improve efficiency and reduce CO2-emissions increases, natural gas combined...
Biomass gasification has been pointed out as a technology with significant potential to produce moto...
Anthropogenic climate change is one of the greatest challenges of this century: The consequences of ...
This document summarizes the method and assumptions made to construct the reference and frozen effic...
This paper presents a methodology to analyse total system costs and CO2 emission consequences for en...
Much attention is directed towards how to rapidly decarbonise the energy system. Unlike the present ...
Bioenergy as well as bioenergy with carbon capture and storage are key options to embark on cost-eff...
In 2015, industrial sector installations included in the European emission trading system (EU ETS) e...