Litcius/Paper detail

Resilience Enhancement of Integrated Electricity-Gas-Heat Urban Energy System With Data Centres Considering Waste Heat Reuse

Ran Tao, Dongmei Zhao, Chenyu Xu, Haoxiang Wang, Xuan Xia

2022IEEE Transactions on Smart Grid42 citationsDOI

Abstract

In this paper, a novel co-optimization model is proposed for integrated electricity-gas-heat urban energy systems to improve resilience during extreme events. This paper modelled and analysed data centres’ optimal operation, workload redistribution, and waste heat reuse. In addition to guaranteeing power supply as critical loads, data centres also provide the generated waste heat to customers via the urban heating network. Meanwhile, the proposed model considers complex interactions of multiple energy systems and the recovery decisions of the power distribution system. Energy conversion devices and electric-driven coupling components are modelled. Even more importantly, the dynamic characteristics of natural gas and heating systems, which cannot be neglected, are also considered and discussed in detail. Case studies verify the effectiveness of the proposed co-optimization model. The results indicate that the resilience of urban energy systems requires to be improved by collaboration between multiple sectors. Considering interdependencies and coupling among multiple energy systems can enhance their response and resistance to extreme events.

Topics & Concepts

Waste heatElectricityReuseResilience (materials science)Waste heat recovery unitInterdependenceWorkloadComputer scienceProcess engineeringEnvironmental scienceEngineeringWaste managementMechanical engineeringHeat exchangerElectrical engineeringMaterials scienceLawPolitical scienceComposite materialOperating systemIntegrated Energy Systems OptimizationSmart Grid Energy ManagementInfrastructure Resilience and Vulnerability Analysis