Virtual Power Plants: Pilots, Challenges, and Innovations Shaping Future Development

Fei Ding; Kumar Utkarsh; Jesse Dugan; Brittany Speetles; Seong Choi; Ben Kroposki

doi:10.1109/MPE.2025.3587184

Virtual Power Plants: Pilots, Challenges, and Innovations Shaping Future Development

National Laboratory of the Rockies

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

3 Scopus Citations

Abstract

Virtual Power Plants (VPPs) aggregate distributed energy resources (DERs) to provide grid services traditionally delivered by centralized power plants. This article reviews the current state of VPP deployment, highlighting business models, compensation mechanisms, and global pilot projects. While VPPs offer benefits such as grid flexibility, resilience, and cost savings, challenges remain in communication infrastructure, regulatory frameworks, market access, and customer engagement. To address these, we propose a scalable, privacy-preserving hierarchical VPP architecture that coordinates with distribution utilities and preserves customer data. We also present the Integrated T&D Control Room of the Future as a key test bed for validating and accelerating VPP adoption. These innovations can help transition VPPs from pilot programs to integral components of a modern, reliable power grid.

Original language	American English
Pages (from-to)	32-47
Number of pages	16
Journal	IEEE Power and Energy Magazine
Volume	23
Issue number	6
DOIs	https://doi.org/10.1109/MPE.2025.3587184
State	Published - 2025

NLR Publication Number

NLR/JA-5D00-93670

Keywords

business
computer security
costs
distributed power generation
electricity supply industry
interoperability
life estimation
power grids
reliability
resilience
resource management
virtual power plants

Access to Document

10.1109/MPE.2025.3587184

Cite this

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title = "Virtual Power Plants: Pilots, Challenges, and Innovations Shaping Future Development",

abstract = "Virtual Power Plants (VPPs) aggregate distributed energy resources (DERs) to provide grid services traditionally delivered by centralized power plants. This article reviews the current state of VPP deployment, highlighting business models, compensation mechanisms, and global pilot projects. While VPPs offer benefits such as grid flexibility, resilience, and cost savings, challenges remain in communication infrastructure, regulatory frameworks, market access, and customer engagement. To address these, we propose a scalable, privacy-preserving hierarchical VPP architecture that coordinates with distribution utilities and preserves customer data. We also present the Integrated T\&D Control Room of the Future as a key test bed for validating and accelerating VPP adoption. These innovations can help transition VPPs from pilot programs to integral components of a modern, reliable power grid.",

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author = "Fei Ding and Kumar Utkarsh and Jesse Dugan and Brittany Speetles and Seong Choi and Ben Kroposki",

year = "2025",

doi = "10.1109/MPE.2025.3587184",

language = "American English",

volume = "23",

pages = "32--47",

journal = "IEEE Power and Energy Magazine",

issn = "1540-7977",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

number = "6",

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TY - JOUR

T1 - Virtual Power Plants: Pilots, Challenges, and Innovations Shaping Future Development

AU - Ding, Fei

AU - Utkarsh, Kumar

AU - Dugan, Jesse

AU - Speetles, Brittany

AU - Choi, Seong

AU - Kroposki, Ben

PY - 2025

Y1 - 2025

N2 - Virtual Power Plants (VPPs) aggregate distributed energy resources (DERs) to provide grid services traditionally delivered by centralized power plants. This article reviews the current state of VPP deployment, highlighting business models, compensation mechanisms, and global pilot projects. While VPPs offer benefits such as grid flexibility, resilience, and cost savings, challenges remain in communication infrastructure, regulatory frameworks, market access, and customer engagement. To address these, we propose a scalable, privacy-preserving hierarchical VPP architecture that coordinates with distribution utilities and preserves customer data. We also present the Integrated T&D Control Room of the Future as a key test bed for validating and accelerating VPP adoption. These innovations can help transition VPPs from pilot programs to integral components of a modern, reliable power grid.

AB - Virtual Power Plants (VPPs) aggregate distributed energy resources (DERs) to provide grid services traditionally delivered by centralized power plants. This article reviews the current state of VPP deployment, highlighting business models, compensation mechanisms, and global pilot projects. While VPPs offer benefits such as grid flexibility, resilience, and cost savings, challenges remain in communication infrastructure, regulatory frameworks, market access, and customer engagement. To address these, we propose a scalable, privacy-preserving hierarchical VPP architecture that coordinates with distribution utilities and preserves customer data. We also present the Integrated T&D Control Room of the Future as a key test bed for validating and accelerating VPP adoption. These innovations can help transition VPPs from pilot programs to integral components of a modern, reliable power grid.

KW - business

KW - computer security

KW - costs

KW - distributed power generation

KW - electricity supply industry

KW - interoperability

KW - life estimation

KW - power grids

KW - reliability

KW - resilience

KW - resource management

KW - virtual power plants

U2 - 10.1109/MPE.2025.3587184

DO - 10.1109/MPE.2025.3587184

M3 - Article

SN - 1540-7977

VL - 23

SP - 32

EP - 47

JO - IEEE Power and Energy Magazine

JF - IEEE Power and Energy Magazine

IS - 6

ER -

Virtual Power Plants: Pilots, Challenges, and Innovations Shaping Future Development

Abstract

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Keywords

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