Litcius/Paper detail

Globally optimal synthesis of heat exchanger networks. Part I: Minimal networks

Chenglin Chang, Alice Peccini, Yufei Wang, André L.H. Costa, Miguel J. Bagajewicz

2020AIChE Journal24 citationsDOI

Abstract

Abstract This article introduces the concept of minimal structure (MSTR) and presents an enumeration algorithm for the synthesis of heat exchanger networks based on MSTR. Minimal Structures refer to a class of heat exchanger networks featuring acyclic heat transfer networks without energy loops. The enumerations used are either exhaustive or smart with a stopping criterion. Without loss of generality we use the isothermal mixing Synheat model, that is, the method applies identically to other superstructures, with likely variations in the optimization models associated to each step. A conjecture is used to state that the algorithm renders solutions that are globally optimal. Literature examples are used to demonstrate the capabilities of the enumeration algorithm. Most of our solutions compare favorably with the best reported ones in literature, with exceptions where the reported solution is not minimal.

Topics & Concepts

Heat exchangerEnumerationConjectureMixing (physics)Mathematical optimizationClass (philosophy)Isothermal processMathematicsComputer scienceHeat transferApplied mathematicsThermodynamicsCombinatoricsPhysicsArtificial intelligenceQuantum mechanicsProcess Optimization and IntegrationAdvanced Control Systems Optimization
Globally optimal synthesis of heat exchanger networks. Part I: Minimal networks | Litcius