Collaborative optimization model of industrial high-energy consumption park under green and low-carbon transformation

Under the background of green and low-carbon transformation of industrial high-energy-consuming parks, in order to realize the coordinated development planning of energy and transportation under different peaking capacity requirements, this paper proposes a collaborative optimization model of industrial high-energy-consuming parks under green and low-carbon. Firstly, by studying the energy balance mechanism between industrial load and new energy, an energy topology prior model of energy interaction in the next generation of industrial new energy power grid is constructed. Then, based on the probability characteristics of the equilibrium state of different regions in the high-energy-consuming industrial zone, combined with the prior knowledge of industrial load and low-carbon power system, a collaborative development planning model of high-energy-consuming industrial parks is constructed. Finally, the proposed model is simulated. From the simulation results the authors can see the dynamic division model and solution algorithm of energy balance region established in this paper can effectively improve the energy balance ability of power grid, reduce peak shaving demand and use more renewable energy.