A preliminary bottom-up analysis of the energy use in the chemical industry has been performed, using a model containing datasets on production processes for 52 of the most important bulk chemicals as well as production volumes for these chemicals. The processes analysed are shown to cover between 70% and 100% of the total energy use in the chemical sector. Energy use and the heat effects of the reactions taking place are separately quantified. The processes are also compared with energetically-ideal processes following the stoichometric reactions. The comparison shows that there is significant room for process improvements, both in the direction of more selective processes and in the direction of further energy-savings.Chemical industry En...
This paper gives a representative energy process-step model of hydrogen production in the U.S. Chemi...
This paper presents energy end-use model of the U.S. Chemical Industry. The model allocates combusti...
This paper gives a representative energy process-step model of hydrogen production in the U.S. Chemi...
A preliminary bottom-up analysis of the energy use in the chemical industry has been performed, usin...
We prepared energy and carbon balances for 68 petrochemical processes in the petrochemical industry ...
Economics and sustainability improvements of some chemical processes are assessed after the retrofit...
Analyzing the chemical industry's energy use is challenging because of the sector's complexity and t...
Analyzing the chemical industry’s energy use is challenging because of the sector’s complexity and t...
The U.S. chemical industry is the largest in the world, and responsible for about 11% of the U.S. in...
The chemical sector is the largest industrial energy user, but detailed analysis of its energy use d...
The utilization of CO2 in various products and services must be carefully assessed in order to achie...
Water and energy are the two main operating costs in a chemical process plant. With the increase in ...
For a proper assessment of the impact of global energy use on the climate system, consistent and rel...
Industrial chemicals and their derivatives are all-pervasive. Plastic, rubber and synthetic textiles...
Capital allocated to energy savings projects competes with that for new or revised plants. Thus, i...
This paper gives a representative energy process-step model of hydrogen production in the U.S. Chemi...
This paper presents energy end-use model of the U.S. Chemical Industry. The model allocates combusti...
This paper gives a representative energy process-step model of hydrogen production in the U.S. Chemi...
A preliminary bottom-up analysis of the energy use in the chemical industry has been performed, usin...
We prepared energy and carbon balances for 68 petrochemical processes in the petrochemical industry ...
Economics and sustainability improvements of some chemical processes are assessed after the retrofit...
Analyzing the chemical industry's energy use is challenging because of the sector's complexity and t...
Analyzing the chemical industry’s energy use is challenging because of the sector’s complexity and t...
The U.S. chemical industry is the largest in the world, and responsible for about 11% of the U.S. in...
The chemical sector is the largest industrial energy user, but detailed analysis of its energy use d...
The utilization of CO2 in various products and services must be carefully assessed in order to achie...
Water and energy are the two main operating costs in a chemical process plant. With the increase in ...
For a proper assessment of the impact of global energy use on the climate system, consistent and rel...
Industrial chemicals and their derivatives are all-pervasive. Plastic, rubber and synthetic textiles...
Capital allocated to energy savings projects competes with that for new or revised plants. Thus, i...
This paper gives a representative energy process-step model of hydrogen production in the U.S. Chemi...
This paper presents energy end-use model of the U.S. Chemical Industry. The model allocates combusti...
This paper gives a representative energy process-step model of hydrogen production in the U.S. Chemi...