Add to ORKGPinch Analysis is a methodology that allows the calculation of minimum hot and cold utilities consumption in a process from the knowledge of some data of the hot and cold streams. These energy targets are calculated through the Problem Table Method, that is based on the description of the process using constant heat capacity flowrates. This hypothesis is not valid in certain situations, particularly when phase changes are involved. A modification to Problem Table Method is proposed, that allows the use of enthalpies rigorously calculated from thermodynamic correlations. One case study is provided, where an error of 240% in hot target is verified if phase changes are neglected
Steelmaking is a highly energy intensive industry but has during the past years done a lot to make t...
To reduce the dependence on fossil fuel, Process Integration and energy efficiency are crucial in ch...
Pinch Analysis has evolved over the past four decades from a methodology originally developed for op...
The principles of Pinch Technology which are stemming from thermodynamics have changed dramatically ...
A method for determining the efficiency and scope for improvement of a process plant's energy consum...
Pinch Analysis was originally developed as a thermodynamically-based methodology for targeting and d...
Pinch analysis is a methodology used for minimizing energy and material consumption in engineering p...
Pinch technology is the state of the art-technique for design of energy efficient processing that al...
Steelmaking is an energy intensive industry. Much development work has been accomplished during the ...
Steelmaking is an energy intensive industry. Much development work has been accomplished during the ...
Exergy analysis is widely used in energy system analysis for more efficient energy use. It identifie...
Exergy analysis is widely used in energy system analysis for more efficient energy use. It identifie...
Abstract: Steelmaking is an energy intensive industry. Much development work has been accomplished d...
Exergy Analysis, also known as Thermodynamic Analysis, is a tool that has been widely used to analys...
Steelmaking is a highly energy intensive industry but has during the past years done a lot to make t...
Steelmaking is a highly energy intensive industry but has during the past years done a lot to make t...
To reduce the dependence on fossil fuel, Process Integration and energy efficiency are crucial in ch...
Pinch Analysis has evolved over the past four decades from a methodology originally developed for op...
The principles of Pinch Technology which are stemming from thermodynamics have changed dramatically ...
A method for determining the efficiency and scope for improvement of a process plant's energy consum...
Pinch Analysis was originally developed as a thermodynamically-based methodology for targeting and d...
Pinch analysis is a methodology used for minimizing energy and material consumption in engineering p...
Pinch technology is the state of the art-technique for design of energy efficient processing that al...
Steelmaking is an energy intensive industry. Much development work has been accomplished during the ...
Steelmaking is an energy intensive industry. Much development work has been accomplished during the ...
Exergy analysis is widely used in energy system analysis for more efficient energy use. It identifie...
Exergy analysis is widely used in energy system analysis for more efficient energy use. It identifie...
Abstract: Steelmaking is an energy intensive industry. Much development work has been accomplished d...
Exergy Analysis, also known as Thermodynamic Analysis, is a tool that has been widely used to analys...
Steelmaking is a highly energy intensive industry but has during the past years done a lot to make t...
Steelmaking is a highly energy intensive industry but has during the past years done a lot to make t...
To reduce the dependence on fossil fuel, Process Integration and energy efficiency are crucial in ch...
Pinch Analysis has evolved over the past four decades from a methodology originally developed for op...