Heterogeneous effects of battery storage deployment strategies on decarbonization of provincial power systems in China

Abstract Battery storage is critical for integrating variable renewable generation, yet how the location, scale, and timing of storage deployment affect system costs and carbon dioxide (CO 2 ) emissions is uncertain. We improve a power system model, SWITCH-China, to examine three nationally uniform battery deployment strategies (Renewable-connected, Grid-connected, and Demand-side) and a heterogeneous battery deployment strategy where each province is allowed to utilize any of the three battery strategies. Here, we find that the heterogeneous strategy always provides the lowest system costs among all four strategies, where provinces with abundant renewable resources dominantly adopt Renewable-connected batteries while those with limited renewables dominantly adopt Demand-side batteries. However, which strategy achieves the lowest CO 2 emissions depends on carbon prices. The Renewable-connected strategy achieves the lowest CO 2 emissions when carbon prices are relatively low, and the heterogeneous strategy results in the lowest CO 2 emissions only at extremely high carbon prices.