Multiobjective energy management system for dispatch and inertia synthesis: Application to energy communities

Miguel Ángel Mendieta; Hugo Hernández; Luis Ismael Minchala Ávila

doi:10.1016/B978-0-443-36459-4.00009-9

Multiobjective energy management system for dispatch and inertia synthesis: Application to energy communities

Miguel Ángel Mendieta (First Author)
, Hugo Hernández
, Luis Ismael Minchala Ávila (Last Author)

Universidade Estadual de Campinas

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

Renewable energy sources are essential for reducing greenhouse gas emissions. However, the increasing integration of sources such as solar and wind can destabilize power grids due to a potential decrease in system inertia. In this context, energy communities that primarily rely on renewable energy sources face frequency stability challenges, particularly with distributed generators. This vulnerability stems from their heavy dependence on inverter-based generation, which makes it difficult to maintain frequency within operational limits during events such as load variations or generation disconnections. This chapter focuses on using virtual inertia to control the frequency of power systems in energy communities. It examines both conventional and nonconventional control schemes aimed at maintaining frequency stability in power systems with high levels of renewable energy integration, especially from power electronics-based technologies such as wind farms.

Original language	English
Title of host publication	Energy Communities
Subtitle of host publication	Fundamentals, Technologies, and Emerging Trends
Editors	Carlos Cruz, Wilian Paul Arévalo Cordero, Marcos Tostado Véliz, Francisco Jurado Melguizo
Publisher	Elsevier
Chapter	13
Pages	233-270
Number of pages	38
Edition	Primera
ISBN (Electronic)	978-0-443-36459-4
ISBN (Print)	9780443364600
DOIs	https://doi.org/10.1016/B978-0-443-36459-4.00009-9
State	E-pub ahead of print - 21 Nov 2025

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy
SDG 13 Climate Action

Keywords

Control engineering
Energy management
Energy storage
Microgrid
Virtual inertia

Access to Document

10.1016/B978-0-443-36459-4.00009-9

Cite this

Mendieta, M. Á., Hernández, H., & Minchala Ávila, L. I. (2025). Multiobjective energy management system for dispatch and inertia synthesis: Application to energy communities. In C. Cruz, W. P. Arévalo Cordero, M. Tostado Véliz, & F. Jurado Melguizo (Eds.), Energy Communities: Fundamentals, Technologies, and Emerging Trends (Primera ed., pp. 233-270). Elsevier. Advance online publication. https://doi.org/10.1016/B978-0-443-36459-4.00009-9

Mendieta, Miguel Ángel ; Hernández, Hugo ; Minchala Ávila, Luis Ismael. / Multiobjective energy management system for dispatch and inertia synthesis : Application to energy communities. Energy Communities: Fundamentals, Technologies, and Emerging Trends. editor / Carlos Cruz ; Wilian Paul Arévalo Cordero ; Marcos Tostado Véliz ; Francisco Jurado Melguizo. Primera. ed. Elsevier, 2025. pp. 233-270

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abstract = "Renewable energy sources are essential for reducing greenhouse gas emissions. However, the increasing integration of sources such as solar and wind can destabilize power grids due to a potential decrease in system inertia. In this context, energy communities that primarily rely on renewable energy sources face frequency stability challenges, particularly with distributed generators. This vulnerability stems from their heavy dependence on inverter-based generation, which makes it difficult to maintain frequency within operational limits during events such as load variations or generation disconnections. This chapter focuses on using virtual inertia to control the frequency of power systems in energy communities. It examines both conventional and nonconventional control schemes aimed at maintaining frequency stability in power systems with high levels of renewable energy integration, especially from power electronics–based technologies such as wind farms.",

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Mendieta, MÁ, Hernández, H & Minchala Ávila, LI 2025, Multiobjective energy management system for dispatch and inertia synthesis: Application to energy communities. in C Cruz, WP Arévalo Cordero, M Tostado Véliz & F Jurado Melguizo (eds), Energy Communities: Fundamentals, Technologies, and Emerging Trends. Primera edn, Elsevier, pp. 233-270. https://doi.org/10.1016/B978-0-443-36459-4.00009-9

Multiobjective energy management system for dispatch and inertia synthesis: Application to energy communities. / Mendieta, Miguel Ángel (First Author); Hernández, Hugo; Minchala Ávila, Luis Ismael (Last Author).
Energy Communities: Fundamentals, Technologies, and Emerging Trends. ed. / Carlos Cruz; Wilian Paul Arévalo Cordero; Marcos Tostado Véliz; Francisco Jurado Melguizo. Primera. ed. Elsevier, 2025. p. 233-270.

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

TY - CHAP

T1 - Multiobjective energy management system for dispatch and inertia synthesis

T2 - Application to energy communities

AU - Mendieta, Miguel Ángel

AU - Hernández, Hugo

AU - Minchala Ávila, Luis Ismael

PY - 2025/11/21

Y1 - 2025/11/21

N2 - Renewable energy sources are essential for reducing greenhouse gas emissions. However, the increasing integration of sources such as solar and wind can destabilize power grids due to a potential decrease in system inertia. In this context, energy communities that primarily rely on renewable energy sources face frequency stability challenges, particularly with distributed generators. This vulnerability stems from their heavy dependence on inverter-based generation, which makes it difficult to maintain frequency within operational limits during events such as load variations or generation disconnections. This chapter focuses on using virtual inertia to control the frequency of power systems in energy communities. It examines both conventional and nonconventional control schemes aimed at maintaining frequency stability in power systems with high levels of renewable energy integration, especially from power electronics–based technologies such as wind farms.

AB - Renewable energy sources are essential for reducing greenhouse gas emissions. However, the increasing integration of sources such as solar and wind can destabilize power grids due to a potential decrease in system inertia. In this context, energy communities that primarily rely on renewable energy sources face frequency stability challenges, particularly with distributed generators. This vulnerability stems from their heavy dependence on inverter-based generation, which makes it difficult to maintain frequency within operational limits during events such as load variations or generation disconnections. This chapter focuses on using virtual inertia to control the frequency of power systems in energy communities. It examines both conventional and nonconventional control schemes aimed at maintaining frequency stability in power systems with high levels of renewable energy integration, especially from power electronics–based technologies such as wind farms.

KW - Control engineering

KW - Energy management

KW - Energy storage

KW - Microgrid

KW - Virtual inertia

KW - Energía renovable

KW - Reducción de gases

KW - Redes eléctricas

KW - Sistemas eléctricos

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SN - 9780443364600

SP - 233

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BT - Energy Communities

A2 - Cruz, Carlos

A2 - Arévalo Cordero, Wilian Paul

A2 - Tostado Véliz, Marcos

A2 - Jurado Melguizo, Francisco

PB - Elsevier

ER -

Mendieta MÁ, Hernández H, Minchala Ávila LI. Multiobjective energy management system for dispatch and inertia synthesis: Application to energy communities. In Cruz C, Arévalo Cordero WP, Tostado Véliz M, Jurado Melguizo F, editors, Energy Communities: Fundamentals, Technologies, and Emerging Trends. Primera ed. Elsevier. 2025. p. 233-270 Epub 2025 Nov 21. doi: 10.1016/B978-0-443-36459-4.00009-9

Multiobjective energy management system for dispatch and inertia synthesis: Application to energy communities

Abstract

UN SDGs

Keywords

Access to Document

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