Abstract: This study examines the technical and economic viability of integrating steam turbines into embedded power generation systems in the Enugu region of Nigeria. Faced with unstable grid supply and increasing industrial energy demands, the region presents a strong case for decentralized generation solutions. Using a combined-cycle configuration that recovers exhaust heat from gas turbines, the research models the performance of a steam turbine system designed to enhance overall efficiency and energy utilization. Mathematical models were developed to simulate energy recovery and turbine output using MATLAB/Simulink. The results show that the steam turbine contributed approximately 0.70 MW of additional power with a local efficiency of 24%, representing a significant secondary utilization of thermal energy without additional fuel input. These findings highlight the potential of cogeneration to improve operational efficiency, reduce transmission losses, and promote sustainable industrial energy supply. The study recommends targeted policy incentives, local capacity development, and streamlined regulations to facilitate the adoption of steam turbine-based embedded generation across the region.
Keywords: Steam Turbine, Enugu Region, Embedded Power Generation, Cogeneration, Operational Efficiency.
Title: STEAM TURBINE DEPLOYMENT IN EMBEDDED POWER GENERATION SYSTEM IN ENUGU REGION, NIGERIA
Author: Omeni C. G, Odeh A. A, Onuigbo C.M, Ene P.C
International Journal of Electrical and Electronics Research
ISSN 2348-6988 (online)
Vol. 13, Issue 4, October 2025 - December 2025
Page No: 31-37
Research Publish Journals
Website: www.researchpublish.com
Published Date: 24-October-2025
