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Enhancement of Energy Effi ciency of Hydro Turbine Generators by Energy Conservation Techniques


Affiliations
1 Energy Effi ciency and Renewable Energy Division, Central Power Research Institute, Bangalore, India
2 National Institute of Technology Karnataka, Surathakal, Mangalore, India
     

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This paper describes the results of enhancing energy effi ciency of hydro turbines by implementing the energy conservation measures for hydro turbine generators. The procedure for evaluating the on-line performance of generators is discussed. The energy saving in generators by maintaining optimum generator terminal voltage, by reducing the stator winding temperature, by improving the performance of coolers and reducing the excitation loss by appropriate tuning of excitation system are enumerated in detail with case studies. The implementation of energy conservation measures has a techno-economic feasibility with a payback period of 1–5 years.

Keywords

Generator, Hydro turbine, Energy effi ciency, Stator copper loss, Rotor copper loss, Generator cooling, Generator excitation.
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  • Enhancement of Energy Effi ciency of Hydro Turbine Generators by Energy Conservation Techniques

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Authors

Rajashekar P. Mandi
Energy Effi ciency and Renewable Energy Division, Central Power Research Institute, Bangalore, India
Udaykumar R. Yaragatti
National Institute of Technology Karnataka, Surathakal, Mangalore, India

Abstract


This paper describes the results of enhancing energy effi ciency of hydro turbines by implementing the energy conservation measures for hydro turbine generators. The procedure for evaluating the on-line performance of generators is discussed. The energy saving in generators by maintaining optimum generator terminal voltage, by reducing the stator winding temperature, by improving the performance of coolers and reducing the excitation loss by appropriate tuning of excitation system are enumerated in detail with case studies. The implementation of energy conservation measures has a techno-economic feasibility with a payback period of 1–5 years.

Keywords


Generator, Hydro turbine, Energy effi ciency, Stator copper loss, Rotor copper loss, Generator cooling, Generator excitation.



DOI: https://doi.org/10.33686/prj.v8i1.189772