In distribution systems, it is important to guarantee the protected operating state of the power system by the transmission suppliers. To transmit a secure, dependable and economical supply of electric power, long separation bulk power transmission is fundamental. Despite that, the power transfer capacity of the power system is constrained because of the elements like thermal limits, voltage limits and security limits. Crow Search Optimizations (CSO) have been exhibited to be reasonable methodologies in taking care of nonlinear power system issues with Available Transfer Capability (ATC). It is conceivable to improve transmission capabilities. This proposed method based on the IEEE 30-bus system is considered with two distinct areas, and furthermore, the input source is a typical load system with a distributed network. There is a need to control the reactive power flow at the Point of Common Coupling (PCC) between the grids of various voltage levels. To operate a power system securely and furthermore to acquire the benefit of bulk power transfer, ATC evaluation is required. The load gets raised from 50% to 100% in the distribution side by including the thermal power plant (85% and 95% load is included) and with the procured condition, ATC and losses are to be determined. This ATC is determined for verified power supply to the consumers.

中文翻译：

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使用 Crow Search 优化和可用传输能力降低配电网无功损耗

在配电系统中，保证输电供应商保护电力系统的运行状态非常重要。为了传输安全、可靠和经济的电力供应，长距离的大容量电力传输至关重要。尽管如此，电力系统的电力传输能力仍受到热限制、电压限制和安全限制等因素的限制。乌鸦搜索优化 (CSO) 已被证明是处理具有可用传输能力 (ATC) 的非线性电力系统问题的合理方法。可以想象提高传输能力。这种基于 IEEE 30 总线系统的方法被认为具有两个不同的区域，此外，输入源是具有分布式网络的典型负载系统。需要控制不同电压等级电网之间的公共耦合点 (PCC) 处的无功功率流。为了安全地运行电力系统并进一步获得大容量电力传输的好处，需要进行 ATC 评估。通过包括火力发电厂（包括 85% 和 95% 的负载），配电侧的负载从 50% 提高到 100%，并在采购条件下确定 ATC 和损耗。该 ATC 是为向消费者提供经过验证的电源而确定的。通过包括火力发电厂（包括 85% 和 95% 的负载），配电侧的负载从 50% 提高到 100%，并在采购条件下确定 ATC 和损耗。该 ATC 是为向消费者提供经过验证的电源而确定的。通过包括火力发电厂（包括 85% 和 95% 的负载），配电侧的负载从 50% 提高到 100%，并在采购条件下确定 ATC 和损耗。该 ATC 是为向消费者提供经过验证的电源而确定的。