Integrating AIoT for Enhanced Monitoring and Optimization of Transmission Lines Earthing System

Jan 29, 2024

DOI 10.1007/978-3-031-62881-8_29

This study investigates the integration of Artificial Intelligence of Things (AIoT) in transmission line earthing systems for enhanced monitoring and optimization. Leveraging real-time data insights, the research utilizes a dataset encompassing ground resistance, fault currents, and environmental conditions. The methodology involves the seamless integration of AIoT technologies, providing a transformative approach to earthing system management. Findings reveal significant patterns and trends, showcasing the potential of AIoT to revolutionize system dynamics. Contributions include advancements in monitoring and optimization, addressing longstanding challenges. The results highlight the economic, environmental, and safety benefits of the proposed integration, setting the stage for an intelligently adaptive and resilient future in power system management.

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High Pressure Water Solar Collector as Potential of Mini Steam Power Plant in Iraq

Nov 25, 2023

DOI 10.1109/ISAS60782.2023.10391316

This paper explores the potential of utilizing high-pressure water solar collectors as a crucial component in mini steam power plants. The study focuses on integrating solar thermal energy with steam turbines to enhance electricity generation efficiency. By combining parabolic troughs with combined-cycle plants, the paper demonstrates the potential to minimize investment costs associated with the solar field while reducing CO2 emissions linked to conventional plants. A comprehensive analysis of the methodology is provided, encompassing hardware and software installation, advantages, challenges, and future trends. The results and discussions underscore the feasibility of incorporating high-pressure water solar collectors into existing power plants and outline the necessary modifications for successful integration. While solar energy adoption is still in its nascent stages in Iraq, where installation costs and limited expertise pose challenges, the paper highlights the significance of overcoming these barriers to promote energy-efficient systems. It is worth to conclude that by emphasizing the need for collaborative efforts involving private developers, financial institutions, and the government to drive the development and implementation of high-pressure water solar collectors for sustainable energy generation.

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