Abstract
Transient stability preventive control (TSPC) ensures that power systems have a sufficient stability margin by adjusting power flow before faults occur. The generation of TSPC measures requires accuracy and efficiency. In this paper, a novel model interpretation-based multi-fault coordinated data-driven preventive control optimization strategy is proposed. First, an augmented dataset covering the fault information is constructed, enabling the transient stability assessment (TSA) model to discriminate the system stability under different fault scenarios. Then, the adaptive synthetic sampling (ADASYN) method is implemented to deal with the imbalanced instances of power systems. Next, an instance-based machine model interpretation tool, Shapley additive explanations (SHAP), is embedded to explain the TSA model’s predictions and to find out the most effective control objects, thus narrowing the number of control objects. Finally, differential evolution is deployed to optimize the generation of TSPC measures, taking into account the security and economy of TSPC. The proposed method’s efficiency and robustness are verified on the New England 39-bus system and the IEEE 54-machine 118-bus system.
Highlights
Practical transient stability assessment (TSA) and transient stability preventive control (TSPC) of power systems are the keys to preventing accidents [4,5]
We focus on the transient stability constrained optimal power flow (TSCOPF)
The data are labeled by transient stability index (TSI) after time-domain simulation (TDS)
Summary
The power system is a strategic system for national economic development. Its safety and stability are of great significance to ensuring the electrical power supply. In the course of social development, there inevitably are situations where the network or the operation of power systems is not compatible with power supply demand, bringing the operating point close to the stability limit and bringing a significant challenge to the dispatch and control of power systems. Practical transient stability assessment (TSA) and transient stability preventive control (TSPC) of power systems are the keys to preventing accidents [4,5]. TSPC is usually performed as power generation rescheduling. In the context of the electricity market and sustainable development, the economic operation of power systems cannot be ignored either. A trade-off between safety, economy, and efficiency needs to be considered in preventive control
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