A Progressive Polyhedral Approximation Method for Nonlinear PDE-Constrained Electricity-Water Nexus Dispatch

Zhihao Hua; Bin Zhou; Ka Wing Chan; Cong Zhang; Yingping Cao; Pengcheng Wang; Mingchao Xia

doi:10.1109/TSG.2025.3553737

A Progressive Polyhedral Approximation Method for Nonlinear PDE-Constrained Electricity-Water Nexus Dispatch

Zhihao Hua
, Bin Zhou
, Ka Wing Chan
, Cong Zhang
, Yingping Cao
, Pengcheng Wang
, Mingchao Xia

Research output: Journal article publication › Journal article › Academic research › peer-review

5 Citations (Scopus)

Abstract

This letter proposes an efficient progressive polyhedral approximation (PA) method to tackle the high nonlinearity and nonconvexity of optimal electricity-water nexus (EWN) dispatch caused by hyperbolic nonlinear partial differential equations (HNPDEs). In this method, the HNPDE-constrained EWN dispatch model can be reformulated into a tractable mixedinteger linear programming (MILP) problem by tailored adaptive discretization and piecewise PA. Furthermore, a progressive approximation refinement technique is developed to dynamically strengthen the MILP for efficient convergence to a near-optimal solution. Comparative studies have validated the effectiveness of the proposed method in reducing decision-making time for the EWN dispatch.

Original language	English
Pages (from-to)	2703-2706
Number of pages	4
Journal	IEEE Transactions on Smart Grid
Volume	16
Issue number	3
DOIs	https://doi.org/10.1109/TSG.2025.3553737
Publication status	Published - May 2025

Keywords

Distribution networks
emergency coordination
PDE-constrained optimization
water-energy nexus

ASJC Scopus subject areas

General Computer Science

More information

10.1109/TSG.2025.3553737

Cite this

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title = "A Progressive Polyhedral Approximation Method for Nonlinear PDE-Constrained Electricity-Water Nexus Dispatch",

abstract = "This letter proposes an efficient progressive polyhedral approximation (PA) method to tackle the high nonlinearity and nonconvexity of optimal electricity-water nexus (EWN) dispatch caused by hyperbolic nonlinear partial differential equations (HNPDEs). In this method, the HNPDE-constrained EWN dispatch model can be reformulated into a tractable mixedinteger linear programming (MILP) problem by tailored adaptive discretization and piecewise PA. Furthermore, a progressive approximation refinement technique is developed to dynamically strengthen the MILP for efficient convergence to a near-optimal solution. Comparative studies have validated the effectiveness of the proposed method in reducing decision-making time for the EWN dispatch.",

keywords = "Distribution networks, emergency coordination, PDE-constrained optimization, water-energy nexus",

author = "Zhihao Hua and Bin Zhou and Chan, \{Ka Wing\} and Cong Zhang and Yingping Cao and Pengcheng Wang and Mingchao Xia",

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T1 - A Progressive Polyhedral Approximation Method for Nonlinear PDE-Constrained Electricity-Water Nexus Dispatch

AU - Hua, Zhihao

AU - Zhou, Bin

AU - Chan, Ka Wing

AU - Zhang, Cong

AU - Cao, Yingping

AU - Wang, Pengcheng

AU - Xia, Mingchao

PY - 2025/5

Y1 - 2025/5

N2 - This letter proposes an efficient progressive polyhedral approximation (PA) method to tackle the high nonlinearity and nonconvexity of optimal electricity-water nexus (EWN) dispatch caused by hyperbolic nonlinear partial differential equations (HNPDEs). In this method, the HNPDE-constrained EWN dispatch model can be reformulated into a tractable mixedinteger linear programming (MILP) problem by tailored adaptive discretization and piecewise PA. Furthermore, a progressive approximation refinement technique is developed to dynamically strengthen the MILP for efficient convergence to a near-optimal solution. Comparative studies have validated the effectiveness of the proposed method in reducing decision-making time for the EWN dispatch.

AB - This letter proposes an efficient progressive polyhedral approximation (PA) method to tackle the high nonlinearity and nonconvexity of optimal electricity-water nexus (EWN) dispatch caused by hyperbolic nonlinear partial differential equations (HNPDEs). In this method, the HNPDE-constrained EWN dispatch model can be reformulated into a tractable mixedinteger linear programming (MILP) problem by tailored adaptive discretization and piecewise PA. Furthermore, a progressive approximation refinement technique is developed to dynamically strengthen the MILP for efficient convergence to a near-optimal solution. Comparative studies have validated the effectiveness of the proposed method in reducing decision-making time for the EWN dispatch.

KW - Distribution networks

KW - emergency coordination

KW - PDE-constrained optimization

KW - water-energy nexus

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DO - 10.1109/TSG.2025.3553737

M3 - Journal article

AN - SCOPUS:105003811021

SN - 1949-3053

VL - 16

SP - 2703

EP - 2706

JO - IEEE Transactions on Smart Grid

JF - IEEE Transactions on Smart Grid

IS - 3

ER -

A Progressive Polyhedral Approximation Method for Nonlinear PDE-Constrained Electricity-Water Nexus Dispatch

Abstract

Keywords

ASJC Scopus subject areas

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