Integrated electric-gas system carbon abatement with a novel dispatch model: From the perspective of natural gas shippers

As the integrated gas-electricity system (IEGS) grows within the context of carbon abatement, natural gas shippers (NGSs) face a twofold challenge: perceiving the dynamic behavior of the gas system swiftly while considering the revenue and costs of IEGS. To address these challenges, a novel Integrated Electric-Gas Dispatch (IEGD) model is introduced in this paper. Firstly, the Box-Jenkins-based NGPN rapid transient flow model is proposed. Secondly, an IEGD model with optimization targets focusing on IEGS cost and NGSs revenue is introduced. Finally, the proposed natural gas flow model is validated through its application to an interprovincial natural gas pipeline network and a regional-level network in China's central and western regions. A comparison with commercial software indicates that the proposed model offers additional advantages, with a total relative average error of 0.57% and 0.36%, respectively, and a computation speed of 62.3 times and 72.4 faster. When the IEGD model is applied to an IEGS, promising outcomes are revealed by two distinct scenarios: carbon emissions within the IEGS can be reduced by as much as 32.64% per day, considering carbon taxes. Furthermore, through intensifying the collaborative integration of gas and electricity systems, overall carbon emissions can be lowered by up to 48.19%, and NGSs revenue can be boosted by as much as 11.2%.