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Integrated Reliability Modeling and Maintenance Optimization for Performance Enhancement of Hydropower Equipment: A Case Study of the Kapshagay HPP

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  • Askar Abdykadyrov

    (Institute of Mechanics and Machine Science Named by Academician U.A. Dzholdasbekov, Almaty 050010, Kazakhstan
    Department of Electronics, Telecommunications and Space Technologies, Satbayev University, Almaty 050013, Kazakhstan)

  • Amandyk Tuleshov

    (Institute of Mechanics and Machine Science Named by Academician U.A. Dzholdasbekov, Almaty 050010, Kazakhstan)

  • Amangeldy Bekbayev

    (Department of Power Engineering, Satbayev University, Almaty 050013, Kazakhstan)

  • Yerlan Sarsenbayev

    (Department of Power Engineering, Satbayev University, Almaty 050013, Kazakhstan)

  • Rakhilya Nurgaliyeva

    (Department of Power Engineering, Satbayev University, Almaty 050013, Kazakhstan)

  • Nurzhigit Smailov

    (Institute of Mechanics and Machine Science Named by Academician U.A. Dzholdasbekov, Almaty 050010, Kazakhstan
    Department of Electronics, Telecommunications and Space Technologies, Satbayev University, Almaty 050013, Kazakhstan)

  • Zhandos Dosbayev

    (Institute of Mechanics and Machine Science Named by Academician U.A. Dzholdasbekov, Almaty 050010, Kazakhstan
    Department of Electronics, Telecommunications and Space Technologies, Satbayev University, Almaty 050013, Kazakhstan)

  • Sunggat Marxuly

    (Institute of Mechanics and Machine Science Named by Academician U.A. Dzholdasbekov, Almaty 050010, Kazakhstan
    Department of Electronics, Telecommunications and Space Technologies, Satbayev University, Almaty 050013, Kazakhstan)

Abstract

This paper investigates the optimization of maintenance strategies to improve the reliability of equipment at the Kapshagay Hydropower Plant (HPP), located in Kazakhstan. Operational data for the period 2020–2025 were analyzed to evaluate the effectiveness of existing maintenance systems. The analysis showed that the failure frequency of the main equipment averaged 3.8–4.2 events per year, while annual unplanned downtime reached 80–100 h, resulting in electricity generation losses of 2.5–3.2%. In addition, total maintenance costs were approximately 150 million KZT per year, with about 40% related to unplanned repairs. A reliability-centered maintenance model was developed using mathematical modeling and simulation tools such as Python 3.11 and SMath Solver 0.99.7920. The study integrates reliability theory, exponential failure modeling, and statistical performance analysis based on operational data from the Kapshagay HPP. Simulation-based validation was performed to compare baseline and optimized maintenance strategies under real operating conditions. After implementing the proposed model, equipment failure probability decreased by 15%, failure rate decreased by 28%, the mean time between failures increased from 120 days to 165 days, and repair duration decreased from 6 days to 4 days. Additionally, failure probability decreased from 0.10 to 0.07, while annual downtime decreased from 6.2 days to 4.1 days. Electricity generation losses decreased by approximately 18–22 GWh per year, while the annual economic benefit was estimated at 320–480 million KZTn. The results demonstrate that reliability-centered maintenance can increase equipment reliability by 20–30%, reduce maintenance costs by 10–12%, and improve electricity generation efficiency by 1.8–2.4%. The obtained results have practical significance for improving the technical and economic performance of hydropower plants.

Suggested Citation

  • Askar Abdykadyrov & Amandyk Tuleshov & Amangeldy Bekbayev & Yerlan Sarsenbayev & Rakhilya Nurgaliyeva & Nurzhigit Smailov & Zhandos Dosbayev & Sunggat Marxuly, 2026. "Integrated Reliability Modeling and Maintenance Optimization for Performance Enhancement of Hydropower Equipment: A Case Study of the Kapshagay HPP," Sustainability, MDPI, vol. 18(6), pages 1-22, March.
    • Handle: RePEc:gam:jsusta:v:18:y:2026:i:6:p:2946-:d:1896499
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