Object-oriented logic configuration platform design for large power grid security and stability simulation

In response to the multi-state simulation business process requirements of large power grids in actual engineering, a logic configuration platform of large power grid security and stability simulation is designed in this paper. In order to improve the application adaptability of the existing configuration software, firstly, the overall architecture and visual operation interface design of the logic configuration platform of large power grid security and stability simulation are proposed. Secondly, the key technologies to realize the generalized logic configuration platform of large power grid simulation are deeply discussed from the aspects of logic compilation and engine implementation. Thirdly, based on the configuration platform, the innovative application of intelligent large power grid operation mode arrangement system is realized. Practice shows that after the introduction of logic configuration, the time consumption is reduced by more than 85% compared with the traditional manual flow coding method and by more than 90% compared with the traditional manual batch power flow calculation and modulation process, which effectively improves the work efficiency and greatly saves the working time. In the system development, the visual logic configuration mode replaces the engineering customization mode of conventional manual software coding, which greatly improves the engineering adaptability of multi-state large power grid simulation business requirements.