Year 2022,
Volume: 26 Issue: 5, 850 - 857, 20.10.2022
Ümit Beyazgül
,
Ufuk Durmaz
,
Orhan Yalçınkaya
,
Mehmet Berkant Özel
,
Ümit Pekparlak
References
- [1] A. P. Prakoso, Warjito, A. I. Siswantara, Budiarso, D. Adanta, “Comparison between 6-DOF UDF and moving mesh approaches in CFD methods for predicting cross-flow pico-hydro turbine performance,” CFD Letters, vol. 11, no. 6, pp. 86–96, 2019.
- [2] Warjito, A. P. Prakoso, Budiarso, D. Adanta, “CFD simulation methodology of cross-flow turbine with six degree of freedom feature,” AIP Conference Proceedings, vol. 2255, no. September, 2020.
- [3] D. Borkowski, M. Węgiel, P. Ocłoń, T. Węgiel, “CFD model and experimental verification of water turbine integrated with electrical generator,” Energy, vol. 185, pp. 875–883, 2019.
- [4] V. Verma, V. K. Gaba, S. Bhowmick, “An Experimental Investigation of the Performance of Cross-flow Hydro Turbines,” Energy Procedia, vol. 141, pp. 630–634, 2017.
- [5] M. Sinagra, C. Aricò, T. Tucciarelli, G. Morreale, “Experimental and numerical analysis of a backpressure Banki in-line turbine for pressure regulation and energy production,” Renewable Energy, vol. 149, pp. 980–986, 2020.
- [6] V. Sammartano, G. Morreale, M. Sinagra, T. Tucciarelli, “Numerical and experimental investigation of a cross-flow water turbine,” Journal of Hydraulic Research, vol. 54, no. 3, pp. 321–331, 2016.
- [7] A. H. Elbatran, O. B. Yaakob, Y. M. Ahmed, A. S. Shehata, “Numerical and experimental investigations on efficient design and performance of hydrokinetic Banki cross flow turbine for rural areas,” Ocean Engineering, vol. 159, no. March, pp. 437–456, 2018.
- [8] A. Dragomirescu M. Schiaua, “Experimental and Numerical Investigation of a Bánki Turbine Operating far away from Design Point,” Energy Procedia, vol. 112, no. October 2016, pp. 43–50, 2017.
- [9] V. Sammartano, G. Morreale, M. Sinagra, A. Collura, T. Tucciarelli, “Experimental study of Cross-Flow micro-turbines for aqueduct energy recovery,” Procedia Engineering, vol. 89, no. December, pp. 540–547, 2014.
- [10] D. R. Giosio, A. D. Henderson, J. M. Walker, P. A. Brandner, J. E. Sargison, P. Gautam, “Design and performance evaluation of a pump-as-turbine micro-hydro test facility with incorporated inlet flow control,” Renewable Energy, vol. 78, pp. 1–6, 2015.
An Experimental Study of a Pico Hydro Turbine
Year 2022,
Volume: 26 Issue: 5, 850 - 857, 20.10.2022
Ümit Beyazgül
,
Ufuk Durmaz
,
Orhan Yalçınkaya
,
Mehmet Berkant Özel
,
Ümit Pekparlak
Abstract
Today, the storage and transporting of electricity from one place to another is still an unsolved problem. Besides, it is not economical to install power lines everywhere for low-voltage electronic circuits such as valves which are used to reduce leakage in water lines. When water demand is lower, it is a practical solution to use the pico hydro turbines to supply the required electrical energy for the electronic circuits of the valves used to reduce the losses in the water discharge lines. For this purpose, it is experimentally investigated electricity production in a pico hydro turbine and validated with experimental data that a pico hydro turbine (PHT) generates 1 W electricity under a water flow velocity of 0.53 m/s. It is concluded that the higher resistances were used in the test rig, the less turbine power produced. As the voltage increased, the current obtained decreased, and the turbine power reached its maximum at a resistance of 130 Ω.
References
- [1] A. P. Prakoso, Warjito, A. I. Siswantara, Budiarso, D. Adanta, “Comparison between 6-DOF UDF and moving mesh approaches in CFD methods for predicting cross-flow pico-hydro turbine performance,” CFD Letters, vol. 11, no. 6, pp. 86–96, 2019.
- [2] Warjito, A. P. Prakoso, Budiarso, D. Adanta, “CFD simulation methodology of cross-flow turbine with six degree of freedom feature,” AIP Conference Proceedings, vol. 2255, no. September, 2020.
- [3] D. Borkowski, M. Węgiel, P. Ocłoń, T. Węgiel, “CFD model and experimental verification of water turbine integrated with electrical generator,” Energy, vol. 185, pp. 875–883, 2019.
- [4] V. Verma, V. K. Gaba, S. Bhowmick, “An Experimental Investigation of the Performance of Cross-flow Hydro Turbines,” Energy Procedia, vol. 141, pp. 630–634, 2017.
- [5] M. Sinagra, C. Aricò, T. Tucciarelli, G. Morreale, “Experimental and numerical analysis of a backpressure Banki in-line turbine for pressure regulation and energy production,” Renewable Energy, vol. 149, pp. 980–986, 2020.
- [6] V. Sammartano, G. Morreale, M. Sinagra, T. Tucciarelli, “Numerical and experimental investigation of a cross-flow water turbine,” Journal of Hydraulic Research, vol. 54, no. 3, pp. 321–331, 2016.
- [7] A. H. Elbatran, O. B. Yaakob, Y. M. Ahmed, A. S. Shehata, “Numerical and experimental investigations on efficient design and performance of hydrokinetic Banki cross flow turbine for rural areas,” Ocean Engineering, vol. 159, no. March, pp. 437–456, 2018.
- [8] A. Dragomirescu M. Schiaua, “Experimental and Numerical Investigation of a Bánki Turbine Operating far away from Design Point,” Energy Procedia, vol. 112, no. October 2016, pp. 43–50, 2017.
- [9] V. Sammartano, G. Morreale, M. Sinagra, A. Collura, T. Tucciarelli, “Experimental study of Cross-Flow micro-turbines for aqueduct energy recovery,” Procedia Engineering, vol. 89, no. December, pp. 540–547, 2014.
- [10] D. R. Giosio, A. D. Henderson, J. M. Walker, P. A. Brandner, J. E. Sargison, P. Gautam, “Design and performance evaluation of a pump-as-turbine micro-hydro test facility with incorporated inlet flow control,” Renewable Energy, vol. 78, pp. 1–6, 2015.