Audun Aspelund scite author profile

This article presents an optimization formulation for the synthesis of heat exchanger networks where pressure levels of process streams can be adjusted to improve heat integration. Especially important at subambient conditions, this allows for the interconversion of work, temperature, and pressure-based exergy and leads to reduced usage of expensive cold utility. Furthermore, stream temperatures and pressures are tuned for close tracking of the composite curves yielding increased exergy efficiency. The formulation is showcased on a simple example and applied to a case study drawn from the design of an offshore natural gas liquefaction process. Aided by the optimization, it is demonstrated how the process can extract exergy from liquid nitrogen and carbon dioxide streams to support the liquefaction of a natural gas stream without additional utilities. This process is part of a liquefied energy chain, which, supplies natural gas for power generation while facilitating carbon dioxide sequestration.

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An optimization-simulation model for a simple LNG process

Aspelund

Gundersen

Myklebust

et al. 2010

Computers & Chemical Engineering

195

137

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An Extended Pinch Analysis and Design procedure utilizing pressure based exergy for subambient cooling

Aspelund¹,

Berstad²,

Gundersen³

2007

Applied Thermal Engineering

189

117

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Gas conditioning—The interface between CO2 capture and transport

Aspelund

Jordal

2007

International Journal of Greenhouse Gas Control

185

113

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A liquefied energy chain for transport and utilization of natural gas for power production with CO2 capture and storage – Part 1

Aspelund

Gundersen

2009

Applied Energy

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Audun Aspelund

Synthesis of heat exchanger networks at subambient conditions with compression and expansion of process streams

An optimization-simulation model for a simple LNG process

An Extended Pinch Analysis and Design procedure utilizing pressure based exergy for subambient cooling

Gas conditioning—The interface between CO2 capture and transport

A liquefied energy chain for transport and utilization of natural gas for power production with CO2 capture and storage – Part 1

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