This paper investigates the solicitation of an integral minus tilt derivative controller (I-TD) in an automatic generation control (AGC) system that integrates renewable energy sources (RES) into three areas. A Mayfly optimization algorithm (MOA) approaches were used to enhance the system and controller parameters. The effectiveness of the suggested I-TD controller is shown by the way it outperforms conventional TID and PID controllers in terms of overshoots (OS) by 53%, undershoots (US) by 50%, and settling time (ST) by 58%. The advantages of incorporating HVDC and RES lines into the dynamics of the system are also examined. It is discovered that dynamics in terms of OS, US, and ST is improved by combining RES by 23% and HVDC links by 45%.

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Application of HVDC Link in a RES Integrated Multi-area Power System Using MOA Optimized I-TD Controller

  • Naladi Ram Babu,
  • Surampudi Satyanarayana,
  • Areti Bala Sai,
  • Mede V. V. S. Subrahmanyeswara Reddy,
  • Tadi Venkata Satyanarayana Reddy,
  • Pooja,
  • Manjeet Kumar,
  • Tirumalasetty Chiranjeevi

摘要

This paper investigates the solicitation of an integral minus tilt derivative controller (I-TD) in an automatic generation control (AGC) system that integrates renewable energy sources (RES) into three areas. A Mayfly optimization algorithm (MOA) approaches were used to enhance the system and controller parameters. The effectiveness of the suggested I-TD controller is shown by the way it outperforms conventional TID and PID controllers in terms of overshoots (OS) by 53%, undershoots (US) by 50%, and settling time (ST) by 58%. The advantages of incorporating HVDC and RES lines into the dynamics of the system are also examined. It is discovered that dynamics in terms of OS, US, and ST is improved by combining RES by 23% and HVDC links by 45%.