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All Journal Indonesian Journal of Innovation Studies
Mulyadi
Program Studi Teknik Mesin, Universitas Muhammadiyah Sidoarjo
Computer Science & IT Education Engineering Law, Crime, Criminology & Criminal Justice

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Permanent Magnet Generator Design With Stable Output Under Variable Speed: Desain Generator Magnet Permanen dengan Output Stabil pada Kecepatan Variabel Mochamad Aldhy Saputro Alamsyah; A’rasy Fahruddin; Mulyadi; Edi Widodo
Indonesian Journal of Innovation Studies Vol. 27 No. 1 (2026): January
Publisher : Universitas Muhammadiyah Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/ijins.v27i1.2081

Abstract

General Background: Electrical energy demand continues to increase, requiring reliable generation systems with efficient performance. Specific Background: Permanent magnet synchronous generators are widely used due to their simplicity and ability to operate at low speeds. Knowledge Gap: Previous studies have not fully explored optimal design parameters for achieving stable output under varying rotational conditions. Aims: This study aims to design and analyze a permanent magnet generator to evaluate its electrical output characteristics. Results: The generator produces measurable voltage, current, and power under different rotational speeds, demonstrating consistent performance trends across testing conditions. The output increases proportionally with rotational speed, indicating stable operational behavior. Novelty: The study presents a practical implementation of generator design with systematic testing under variable speed conditions. Implications: The results provide a reference for developing small-scale power generation systems with stable electrical output for various applications. Keywords: Permanent Magnet Generator, Electrical Energy, Generator Design, Output Voltage, Rotational Speed Key Findings Highlights Electrical output shows proportional relationship with rotational variation System testing confirms consistent behavior across multiple operating conditions Prototype demonstrates feasibility for small scale energy conversion applications
Steam Turbine Performance Variation Based on Operational Parameters: Variasi Kinerja Turbin Uap Berdasarkan Parameter Operasional A’rasy Fahruddin; Muhammad Iqbal Nur Fadillah; Mulyadi; Rachmat Firdaus
Indonesian Journal of Innovation Studies Vol. 27 No. 1 (2026): January
Publisher : Universitas Muhammadiyah Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/ijins.v27i1.2086

Abstract

This study evaluates the performance characteristics of a steam turbine under varying operational conditions in a power generation system. General Background: Steam turbines are essential components in power plants, converting thermal energy into mechanical energy for electricity generation. Specific Background: Turbine performance is influenced by parameters such as steam flow rate, blade configuration, and operating conditions, which determine efficiency and output power. Knowledge Gap: Previous studies have examined turbine performance, yet detailed evaluation under specific parameter variations in practical systems remains limited. Aims: This research aims to analyze turbine performance by examining the relationship between operational parameters and efficiency. Results: The findings show that variations in steam flow and operational parameters result in measurable differences in turbine efficiency, with certain conditions producing higher performance compared to others. Novelty: The study provides a focused analysis of turbine behavior under controlled parameter variations within a practical framework. Implications: The results provide useful insights for optimizing turbine operation in power plants to achieve improved energy conversion and system performance. Keywords: Steam Turbine, Performance, Efficiency, Power Plant, Operational Parameters Key Findings Highlights Parameter variation produces distinct operational characteristics Certain configurations yield higher system performance levels Measured results show consistent trends across testing conditions
Co-Authors A’rasy Fahruddin Edi Widodo Mochamad Aldhy Saputro Alamsyah Muhammad Iqbal Nur Fadillah Rachmat Firdaus