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Main Authors: Badakhshan, Sobhan, Jacob, Roshni Anna, Rad, Ali Mahboub, Pan, Chao, Li, Yaoyu, Zhang, Jie
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.09110
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author Badakhshan, Sobhan
Jacob, Roshni Anna
Rad, Ali Mahboub
Pan, Chao
Li, Yaoyu
Zhang, Jie
author_facet Badakhshan, Sobhan
Jacob, Roshni Anna
Rad, Ali Mahboub
Pan, Chao
Li, Yaoyu
Zhang, Jie
contents The accelerating growth of computational demand in modern data centers has further heightened the need for power infrastructures that are highly reliable, environmentally sustainable, and capable of supporting grid stability. Small Modular Reactors (SMRs) as a clean source of energy are particularly attractive for next-generation hyperscale data centers with significant electrical and cooling demands. This paper presents a comprehensive dynamic modeling and stability analysis of a grid-connected Integrated Energy System (IES) designed for data center applications. The proposed IES integrates an SMR and a battery energy storage system to jointly supply electricity for computational and cooling load while providing stability support to the main grid. A coupled computational-thermal load model is developed to capture the real-time power demand of the data center, incorporating CPU utilization, cooling efficiency, and ambient temperature effects. The integrated SMR-powered data center model is implemented in PSSE and tested on the IEEE 118-bus system under various fault scenarios. Simulation results demonstrate that the IES substantially enhances voltage and frequency stability compared to a conventionally grid-connected data center, minimizing disturbance-induced deviations and improving post-fault recovery.
format Preprint
id arxiv_https___arxiv_org_abs_2603_09110
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Dynamic Stability Assessment of Grid-Connected Data Centers Powered by Small Modular Reactors
Badakhshan, Sobhan
Jacob, Roshni Anna
Rad, Ali Mahboub
Pan, Chao
Li, Yaoyu
Zhang, Jie
Systems and Control
The accelerating growth of computational demand in modern data centers has further heightened the need for power infrastructures that are highly reliable, environmentally sustainable, and capable of supporting grid stability. Small Modular Reactors (SMRs) as a clean source of energy are particularly attractive for next-generation hyperscale data centers with significant electrical and cooling demands. This paper presents a comprehensive dynamic modeling and stability analysis of a grid-connected Integrated Energy System (IES) designed for data center applications. The proposed IES integrates an SMR and a battery energy storage system to jointly supply electricity for computational and cooling load while providing stability support to the main grid. A coupled computational-thermal load model is developed to capture the real-time power demand of the data center, incorporating CPU utilization, cooling efficiency, and ambient temperature effects. The integrated SMR-powered data center model is implemented in PSSE and tested on the IEEE 118-bus system under various fault scenarios. Simulation results demonstrate that the IES substantially enhances voltage and frequency stability compared to a conventionally grid-connected data center, minimizing disturbance-induced deviations and improving post-fault recovery.
title Dynamic Stability Assessment of Grid-Connected Data Centers Powered by Small Modular Reactors
topic Systems and Control
url https://arxiv.org/abs/2603.09110