Deny Hamdani
Potential of Pikohydro Power Plant in Indonesia as a clean and continuous energy solution to get a clean and continuous energy solution. significant attention. This paper focuses on implementing the intelligent control system for Pikohydro Power Plants in Indonesia, with an emphasis on the design of the electric system, security considerations, and integration of intelligent monitoring technology. Electric system design aspects explore efficient integration of various components, including turbines, generators, power converters, and energy storage systems, into strong and reliable infrastructure. Factors such as power quality, voltage regulation, reactive power compensation, and load balance are handled to ensure optimal power extraction from water sources. This paper highlights the role of intelligent control techniques in improving the performance and efficiency of the electrical system. Given the unique challenges of power plants in Indonesia, this paper emphasizes the implementation of strong security actions. Because Pikohydro Power Plants are often located in remote or isolated areas, they are vulnerable to physical and cyber threats. This paper discusses the adoption of security protocols, such as intrusion detection systems, encryption mechanisms, and access control mechanisms, to maintain power plant infrastructure. It also explores the integration of an intelligent monitoring system that enables real time supervision, early threat detection, and a quick response to security violations. Furthermore, this paper highlights the potential of intelligent monitoring technology in optimizing the operation and maintenance of Pikohydro Power Plants in Indonesia. This explores the use of advanced data analytic, long distance monitoring, and condition monitoring techniques to improve system performance, error detection, and predictive maintenance. This paper emphasizes the role of intelligent monitoring in increasing reliability, efficiency, and effectiveness of the cost of Pikohydro Power Plants. In conclusion, this paper focuses on the implementation of the intelligent control system for the Pikohydro Power Plant in Indonesia, taking into account the design of the electricity system, security considerations, and intelligent monitoring technology. This highlights the potential of Pikohydro Power Plants as a sustainable energy solution in Indonesia and emphasizes the importance of intelligent control techniques, strong security actions, and intelligent monitoring to optimize its performance. This paper provides a basis for further research and development in the field of Pikohydro Power Plant Implementation, with the implications for sustainable energy landscapes in Indonesia.
Improve the lack of PLTPH in the form of a turbine that does not rotate to the maximum due to the size of the pipe intake from the river which is less large.; Adding an IoT -based monitoring aspect to PLTPH to facilitate the process of collecting data efficiency data and tool maintenance; Improving PLTPH performance in order to produce 500W power every time by increasing the size of the pipe diameter in the intake generator so that the water discharge is larger.
Electricity from the Pikohydro generator is used for public street lighting and community service cleaning