Add to ORKGIn the industrial sector approximately 30 % of the fuels used are consumed by furnaces. On top of that, 10 % of the industrial electricity demand is used in furnaces. Prior studies on industrial furnaces and ovens have concluded that potential for efficiency improvements lie between 10 and 40 % depending on the sector and the application. Within our paper we will describe an approach to assess the future energy demand of industrial furnaces. In addition, the corresponding CO2-emissions and saving potentials will be determined. The timeframe of our analysis is from 2015 to 2030 considering the EU-28 countries and Switzerland, Norway and Iceland. To show the application of our methodology, we will present the glass sector as a case study. The...
Reduction of fuel consumption in glass melting furnaces can cut the cost of production, and tackle t...
Climate change is a key challenge of our time. The iron and steel industry emits 6.5 % of global ant...
Under intensive industry, industrial furnaces must cope with new challenges to improve the efficienc...
Enemy benchmarking of processes is important for setting energy efficiency targets and planning ener...
The possibilities of energy saving technologies for glass furnaces have been investigated and compar...
Industries, which are mainly responsible for high energy consumption, need to invest in research pro...
As an energy-intensive industry sector, the glass industry is strongly affected by the increasingly ...
Space heating accounts for around 10 % of industrial final energy demand in Europe. This was equival...
Industrial process heating furnace operations consume considerable energy in the U.S. manufacturing ...
The potential for reducing industrial energy demand and greenhouse gas (GHG) emissions in the UK gla...
All over the world, there is an increasing drive to develop new technologies or concepts for industr...
Abstract Nowadays, energy efficiency is a crucial factor for the competitiveness of manufacturing fi...
Climate change is a key challenge of our time. The iron and steel industry emits 6.5 % of global ant...
This paper analyses the cost effectiveness of the implementation of some of the Best Available Techn...
This study is intended as a following study of the recent ''Thermic study'' on energy technology in ...
Reduction of fuel consumption in glass melting furnaces can cut the cost of production, and tackle t...
Climate change is a key challenge of our time. The iron and steel industry emits 6.5 % of global ant...
Under intensive industry, industrial furnaces must cope with new challenges to improve the efficienc...
Enemy benchmarking of processes is important for setting energy efficiency targets and planning ener...
The possibilities of energy saving technologies for glass furnaces have been investigated and compar...
Industries, which are mainly responsible for high energy consumption, need to invest in research pro...
As an energy-intensive industry sector, the glass industry is strongly affected by the increasingly ...
Space heating accounts for around 10 % of industrial final energy demand in Europe. This was equival...
Industrial process heating furnace operations consume considerable energy in the U.S. manufacturing ...
The potential for reducing industrial energy demand and greenhouse gas (GHG) emissions in the UK gla...
All over the world, there is an increasing drive to develop new technologies or concepts for industr...
Abstract Nowadays, energy efficiency is a crucial factor for the competitiveness of manufacturing fi...
Climate change is a key challenge of our time. The iron and steel industry emits 6.5 % of global ant...
This paper analyses the cost effectiveness of the implementation of some of the Best Available Techn...
This study is intended as a following study of the recent ''Thermic study'' on energy technology in ...
Reduction of fuel consumption in glass melting furnaces can cut the cost of production, and tackle t...
Climate change is a key challenge of our time. The iron and steel industry emits 6.5 % of global ant...
Under intensive industry, industrial furnaces must cope with new challenges to improve the efficienc...