Add to ORKGConventional process design philosophy usually results in utility systems being designed after process design defines the Process/Utility interface. Clearly, changing the process design can result in different utility demands and possibly in different utility system designs. This paper presents a procedure, using Pinch Technology, for the simultaneous design of process and utility as an optimally integrated system. Also, the implications for furnace integration are discussed
A low level of energy use is an important feature of the minimum impact mill. Process integration is...
pro er c, sity of au, R in Tal ersity In this pa al in design speci mete of optimal c ing ( its opti...
The very first flow sheet for a new plant arises when a number of unit operations are put together i...
Conventional process design philosophy usually results in utility systems being designed after pro...
The pinch concept for integrated heat recovery networks has recently become established in chemical ...
Industrial heat and power systems are complex and not fully understood as integrated systems. Within...
The selection of heat and power systems usually does not include a thorough analysis of the proces...
The research in Process Integration through Pinch Technology started in the late 1970s and early 198...
Process design is a complex task. Many decisions regarding feedstock, reaction routes, separation ...
This chapter discusses the main aspects of application of Pinch Analysis to the analysis and synthes...
Over the last five years, significant energy savings have been achieved by several international com...
Production systems are commonly designed without considering the required utility system. Only subse...
Within the past few years, pinch technology has revolutionised the way engineers design and retrofi...
The refining and petrochemical industries generally own process plants and utility systems. Process ...
This paper presents the results of a recent process integration study by TENSA Services of a food p...
A low level of energy use is an important feature of the minimum impact mill. Process integration is...
pro er c, sity of au, R in Tal ersity In this pa al in design speci mete of optimal c ing ( its opti...
The very first flow sheet for a new plant arises when a number of unit operations are put together i...
Conventional process design philosophy usually results in utility systems being designed after pro...
The pinch concept for integrated heat recovery networks has recently become established in chemical ...
Industrial heat and power systems are complex and not fully understood as integrated systems. Within...
The selection of heat and power systems usually does not include a thorough analysis of the proces...
The research in Process Integration through Pinch Technology started in the late 1970s and early 198...
Process design is a complex task. Many decisions regarding feedstock, reaction routes, separation ...
This chapter discusses the main aspects of application of Pinch Analysis to the analysis and synthes...
Over the last five years, significant energy savings have been achieved by several international com...
Production systems are commonly designed without considering the required utility system. Only subse...
Within the past few years, pinch technology has revolutionised the way engineers design and retrofi...
The refining and petrochemical industries generally own process plants and utility systems. Process ...
This paper presents the results of a recent process integration study by TENSA Services of a food p...
A low level of energy use is an important feature of the minimum impact mill. Process integration is...
pro er c, sity of au, R in Tal ersity In this pa al in design speci mete of optimal c ing ( its opti...
The very first flow sheet for a new plant arises when a number of unit operations are put together i...