A Matheuristic for Design and Dispatch of a Utility-Connected Distributed Energy System: Article No. 37

James Grymes; Alexandra Newman; Alexander Zolan; Dinesh Mehta

doi:10.1007/s10732-025-09567-0

A Matheuristic for Design and Dispatch of a Utility-Connected Distributed Energy System: Article No. 37

James Grymes
, Alexandra Newman
, Alexander Zolan
, Dinesh Mehta

Center for Energy Conversion and Storage Systems

Colorado School of Mines

Research output: Contribution to journal › Article › peer-review

Abstract

Modeling distributed power generation systems often requires complicated mathematical expressions that present challenges for commercial optimization solvers. This paper presents a matheuristic to solve a mixed-integer optimization model that informs decisions regarding the design and dispatch of a utility-connected microgrid. We deploy a genetic algorithm to search the system design space and a linear program to solve the economic dispatch problem. The model is a component of a web tool that requires solutions within a few minutes. Our method yields objective function values within 5% of an exogenously produced optimal in fewer than 30 seconds for 90% of our test cases compared to only 10% of our test cases by a traditional optimization solver in the same amount of time.

Original language	American English
Number of pages	52
Journal	Journal of Heuristics
Volume	31
DOIs	https://doi.org/10.1007/s10732-025-09567-0
State	Published - 2025

NLR Publication Number

NREL/JA-5700-87129

Keywords

combined heat and power
genetic algorithm
matheuristic
microgrid
mixed-integer linear program
optimization

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10.1007/s10732-025-09567-0

Cite this

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title = "A Matheuristic for Design and Dispatch of a Utility-Connected Distributed Energy System: Article No. 37",

abstract = "Modeling distributed power generation systems often requires complicated mathematical expressions that present challenges for commercial optimization solvers. This paper presents a matheuristic to solve a mixed-integer optimization model that informs decisions regarding the design and dispatch of a utility-connected microgrid. We deploy a genetic algorithm to search the system design space and a linear program to solve the economic dispatch problem. The model is a component of a web tool that requires solutions within a few minutes. Our method yields objective function values within 5\% of an exogenously produced optimal in fewer than 30 seconds for 90\% of our test cases compared to only 10\% of our test cases by a traditional optimization solver in the same amount of time.",

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AU - Zolan, Alexander

AU - Mehta, Dinesh

PY - 2025

Y1 - 2025

N2 - Modeling distributed power generation systems often requires complicated mathematical expressions that present challenges for commercial optimization solvers. This paper presents a matheuristic to solve a mixed-integer optimization model that informs decisions regarding the design and dispatch of a utility-connected microgrid. We deploy a genetic algorithm to search the system design space and a linear program to solve the economic dispatch problem. The model is a component of a web tool that requires solutions within a few minutes. Our method yields objective function values within 5% of an exogenously produced optimal in fewer than 30 seconds for 90% of our test cases compared to only 10% of our test cases by a traditional optimization solver in the same amount of time.

AB - Modeling distributed power generation systems often requires complicated mathematical expressions that present challenges for commercial optimization solvers. This paper presents a matheuristic to solve a mixed-integer optimization model that informs decisions regarding the design and dispatch of a utility-connected microgrid. We deploy a genetic algorithm to search the system design space and a linear program to solve the economic dispatch problem. The model is a component of a web tool that requires solutions within a few minutes. Our method yields objective function values within 5% of an exogenously produced optimal in fewer than 30 seconds for 90% of our test cases compared to only 10% of our test cases by a traditional optimization solver in the same amount of time.

KW - combined heat and power

KW - genetic algorithm

KW - matheuristic

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KW - mixed-integer linear program

KW - optimization

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JO - Journal of Heuristics

JF - Journal of Heuristics

ER -

A Matheuristic for Design and Dispatch of a Utility-Connected Distributed Energy System: Article No. 37

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Keywords

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