Optimal scheduling of natural gas-electricity coupling system considering hydrogen-mixed natural gas network and low-carbon reward

Aiming at the optimal scheduling problem of natural gas-electricity coupling system，the natural gas-electricity coupling system model with hydrogen-mixed natural gas network is established，in which the refinement model of power to hydrogen，the variation of operating state for hydrogen-mixed natural gas network and the strict safety restrictions of hydrogen-mixed are considered. Meanwhile，based on the stepped carbon trading mechanism，the reward and punishment ladder-type carbon trading mechanism is proposed，setting the ladder-type reward when there is a surplus of carbon quota. Furthermore，considering the carbon transaction cost and operation cost comprehensively，the low-carbon optimal scheduling model of natural gas-electricity coupling system is established. Finally，the simulation is carried out based on the system composed of the improved IEEE 39-bus power grid model and the Belgian 20-node natural gas grid model，and CPLEX solver is used to solve the scheduling model. Through analyzing and comparing the results of four scheduling scenarios，the effectiveness of the proposed model in aspects of reducing carbon emission，controlling total cost and accommodating abandoned wind is verified. The effects of different calorific value calculation methods and reward benchmark price on scheduling results in hydrogen-mixed natural gas network are analyzed. In addition，the reference pricing of reward benchmark price is analyzed. © 2023 Electric Power Automation Equipment Press. All rights reserved.