Litcius/Paper detail

Bi-Level Carbon Trading Model on Demand Side for Integrated Electricity-Gas System

Yan Zhi-chao, Chunyan Li, Yiming Yao, Weibin Lai, Jiyuan Tang, Changzheng Shao, Qian Zhang

2022IEEE Transactions on Smart Grid83 citationsDOI

Abstract

With the exploration of deep decarbonization around the world, it has become a broad consensus that the carbon trading mechanism can promote the low-carbon operation of the energy system by exploring the underlying driver of emissions. The end-users, as the motivator of emission in the integrated electricity-gas system (IEGS), have not been developed so far to participate in the carbon market and help emissions abatement. This paper proposes a bi-level carbon trading scheme on demand side considering the energy consumption level of users and low-carbon demand response. In the upper-level market, an optimal step-based carbon prices customization model is built to impose differentiated incentives on users, thereby balancing the emission mitigation and social welfare. In the lower-level market, a carbon trading mechanism based on the competitive auction program is proposed, then an optimal carbon trading strategy is studied to maximize the consumer surplus and further motivate the low-carbon energy consumption. On the source side, a low-carbon dispatching model of IEGS considering the flexible carbon capture power plant and power-to-gas (CCPP-P2G) is established. Moreover, the Benders decomposition algorithm is used to solve the bi-level optimal model. Case studies verify the feasibility of carbon trading on demand side and demonstrate the environmental and economic benefits of the proposed bi-level carbon trading mechanism.

Topics & Concepts

ElectricityEmissions tradingEnvironmental economicsGreenhouse gasDemand responseCarbon fibersIncentiveElectricity marketEnergy consumptionBusinessIndustrial organizationNatural resource economicsMicroeconomicsComputer scienceEconomicsEngineeringElectrical engineeringBiologyAlgorithmEcologyComposite numberIntegrated Energy Systems OptimizationSmart Grid Energy ManagementElectric Vehicles and Infrastructure