Research Article
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Year 2019, Volume: 7 Issue: 1, 72 - 80, 31.01.2019
https://doi.org/10.17694/bajece.492804

Abstract

References

  • [1] Uluslararası Enerji Ajansı (IEA), “World Energy Outlook 2016”, 2016
  • [2] ABD Enerji Bilgi İdaresi (EIA), “International Energy Outlook 2016”, Mayıs 2016
  • [3] EÜAŞ, “2016 Elektrik Üretim Sektör Raporu”, Mayıs 2017.
  • [4] Avrupa Komisyonu,“EU Energy in Fig., Statistical Pocket Book 2016”, Belçika, 2016.
  • [5] Intergovernmental Panel on Climate Change, "Climate Change 2014, Mitigation of Climate Change", 2014
  • [6] US Environmental Protection Agency, “Global Greenhouse Gas Emissions Data”, https://www.epa.gov/ghgemissions/global-greenhouse-gas-emiss.-data,29 Mayıs 2017.
  • [7] Boden T., Andres B., Marland G., “Fossil-Fuel CO2 Emissions by Nation”, http://cdiac.ornl.gov/trends/emis/tre_coun.html# , 29 Mayıs 2017.
  • [8] Aksoy, M.H., “Güneş ve Rüzgar Enerjisi ile Çalışan Su Pompalama Sisteminin Deneysel İncelenmesi”, Selçuk Üniversitesi Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi, 2011.
  • [9] Köksal, M.A.,“Güneş Enerjisiyle su pompalama üzerine bir araştırma”, Çukurova Üniversitesi Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi, 2012.
  • [10] Yeşilata, B. ve Aktacir, A., “Fotovoltaik Güç Sistemli Su Pompalarının Dizayn Esaslarının Araştırılması”, Mühendis ve Makina Dergisi, 42 (493), 29-34, 2001.
  • [11] Fiaschi, D.,et al,“Improving the effectiveness of solar pumping systems by using modular centrifugal pumps with variable rotational speed”, Solar Energy, 234-244, 2005.
  • [12] Kavlak, İ. ve Güngör, H., “Fotovoltaik Piller ve Fotovoltaik Pillerin Tarımsal Sulamada Kullanılması”, I. Ulusal Güneş ve Hidrojen Enerjisi Kongresi, Eskişehir, 22-29, 2006.
  • [13] Purohit, B., and Kandpal, T., C., “Renewable energy technologies for irrigation water pumping in India: projected levels of dissemination, energy delivery and investment requirements using available diffusion models”, Renewable & Sustainable Energy Reviews, 592-607, 2005.
  • [14] Dursun, M. ve Saygın, A., “Güneş Enerjisi İle Çalışan Bir Sulama Sistemi İçin Boost Konvertörlü Anahtarlamalı Relüktans Motor Sürücüsü”, Erciyes Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 22 (1-2), 57-65, 2006.
  • [15] Glasnovic, Z. and Margeta, J, “A model for optimal sizing of photovoltaic irrigation water pumping systems”, Solar Energy, 81, 904–916, 2007.
  • [16] Ramos, J.S. and Ramos, H.M., “Solar powered pumps to supply water for rural or isolated zones: A case study. Energy Conversion and Manag.”, 49, 2711–2719, 2008.
  • [17] Kaldellis J.K., et al., “Experimental validation of autonomous PV-based water pumping system optimum sizing”, Renewable Energy, 34, 1106-1113, 2009.
  • [18] Granich, W. and Elmore, A.C., “An evaluation of the use of renewable energy to pump water in Sacala las Lomas, Guatemala”, Environmental Earth Science, 61,4, 837-846, 2010.
  • [19] Dursun, E., vd., “Performance evaluation of a stand-alone photovoltaic/wind turbine/fuel cell power system for each province in the Aegean Region of Turkey”, 5th International Ege Energy Symposium and Exhibition (IEESE-5), 298, 2010.
  • [20] Chen, H. H., et al., “Strategic selection of suitable projects for hybrid solar-wind power generation systems”, Renewable and Sustainable Energy Reviews, 14, 413-421, 2010.
  • [21] Mokeddem, A., “Performance of a directly-coupled PV water pumping system”, Energy Conversion and Management, 52, 3089-3095, 2011.
  • [22] Belgacem, B.G., “Performance of submersible PV water pumping systems in Tunisia”, Energy for Sustainable Development, 16, 415-420, 2012.
  • [23] Yusufoğlu, G., “Şebeke elektriğinin bulunmadığı tarımsal alanlarda güneş enerjisiyle sulamanın yapılması”, Marmara Üniversitesi, Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi, 2013.
  • [24] Gençoğlu, E., “Güneş pili ile çalısan bir su pompalama sisteminin tasarımı ve gerçekleştirilmesi” Fırat Üniversitesi Fen Bilimleri Enstitüsü Yüksek Lisans Tezi, Elazığ, 2015.
  • [25] Gündoğdu, A., “Fotovoltaik Sistemlerde Kısmi Gölgelenmenin Sistem Performansı Üzerindeki Etkileri”, International Engineering, Science and Education Conference, 54-64, 2016.

Design, Construction and Implementation of Low Cost Photovoltaic Water Pumping System for Agricultural Irrigatin

Year 2019, Volume: 7 Issue: 1, 72 - 80, 31.01.2019
https://doi.org/10.17694/bajece.492804

Abstract

In this study, design, manufacturing and
installation of a new agricultural irrigation system with a 2.2 kW photovoltaic
(PV) panel, which has a lower volume and lower cost in terms of size and cost,
was carried out within the boundaries of Batman province that has a long
sunshine duration. Through making winding and connection changes on a 380v-star
connected asynchronous submersible motor with 2.2 kW power, which operates
compatibly with HSPL/H2200H model inverter, the HSPL/H2200L model inverter was
brought in compliance with the delta having 220v between its phases and having
output voltage. Dimension analysis of a photovoltaic system that was
independent of the grid and where this new voltage level would be obtained was
performed and the operation of rewinding the motor and changing the connection
shape was explained. The real-time current, voltage and power data obtained
after the installation are presented in tables and graphs. The advantages of
this low-cost new irrigation system over the existing irrigation systems with
similar power are explained in detail through the size and cost analyses.

References

  • [1] Uluslararası Enerji Ajansı (IEA), “World Energy Outlook 2016”, 2016
  • [2] ABD Enerji Bilgi İdaresi (EIA), “International Energy Outlook 2016”, Mayıs 2016
  • [3] EÜAŞ, “2016 Elektrik Üretim Sektör Raporu”, Mayıs 2017.
  • [4] Avrupa Komisyonu,“EU Energy in Fig., Statistical Pocket Book 2016”, Belçika, 2016.
  • [5] Intergovernmental Panel on Climate Change, "Climate Change 2014, Mitigation of Climate Change", 2014
  • [6] US Environmental Protection Agency, “Global Greenhouse Gas Emissions Data”, https://www.epa.gov/ghgemissions/global-greenhouse-gas-emiss.-data,29 Mayıs 2017.
  • [7] Boden T., Andres B., Marland G., “Fossil-Fuel CO2 Emissions by Nation”, http://cdiac.ornl.gov/trends/emis/tre_coun.html# , 29 Mayıs 2017.
  • [8] Aksoy, M.H., “Güneş ve Rüzgar Enerjisi ile Çalışan Su Pompalama Sisteminin Deneysel İncelenmesi”, Selçuk Üniversitesi Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi, 2011.
  • [9] Köksal, M.A.,“Güneş Enerjisiyle su pompalama üzerine bir araştırma”, Çukurova Üniversitesi Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi, 2012.
  • [10] Yeşilata, B. ve Aktacir, A., “Fotovoltaik Güç Sistemli Su Pompalarının Dizayn Esaslarının Araştırılması”, Mühendis ve Makina Dergisi, 42 (493), 29-34, 2001.
  • [11] Fiaschi, D.,et al,“Improving the effectiveness of solar pumping systems by using modular centrifugal pumps with variable rotational speed”, Solar Energy, 234-244, 2005.
  • [12] Kavlak, İ. ve Güngör, H., “Fotovoltaik Piller ve Fotovoltaik Pillerin Tarımsal Sulamada Kullanılması”, I. Ulusal Güneş ve Hidrojen Enerjisi Kongresi, Eskişehir, 22-29, 2006.
  • [13] Purohit, B., and Kandpal, T., C., “Renewable energy technologies for irrigation water pumping in India: projected levels of dissemination, energy delivery and investment requirements using available diffusion models”, Renewable & Sustainable Energy Reviews, 592-607, 2005.
  • [14] Dursun, M. ve Saygın, A., “Güneş Enerjisi İle Çalışan Bir Sulama Sistemi İçin Boost Konvertörlü Anahtarlamalı Relüktans Motor Sürücüsü”, Erciyes Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 22 (1-2), 57-65, 2006.
  • [15] Glasnovic, Z. and Margeta, J, “A model for optimal sizing of photovoltaic irrigation water pumping systems”, Solar Energy, 81, 904–916, 2007.
  • [16] Ramos, J.S. and Ramos, H.M., “Solar powered pumps to supply water for rural or isolated zones: A case study. Energy Conversion and Manag.”, 49, 2711–2719, 2008.
  • [17] Kaldellis J.K., et al., “Experimental validation of autonomous PV-based water pumping system optimum sizing”, Renewable Energy, 34, 1106-1113, 2009.
  • [18] Granich, W. and Elmore, A.C., “An evaluation of the use of renewable energy to pump water in Sacala las Lomas, Guatemala”, Environmental Earth Science, 61,4, 837-846, 2010.
  • [19] Dursun, E., vd., “Performance evaluation of a stand-alone photovoltaic/wind turbine/fuel cell power system for each province in the Aegean Region of Turkey”, 5th International Ege Energy Symposium and Exhibition (IEESE-5), 298, 2010.
  • [20] Chen, H. H., et al., “Strategic selection of suitable projects for hybrid solar-wind power generation systems”, Renewable and Sustainable Energy Reviews, 14, 413-421, 2010.
  • [21] Mokeddem, A., “Performance of a directly-coupled PV water pumping system”, Energy Conversion and Management, 52, 3089-3095, 2011.
  • [22] Belgacem, B.G., “Performance of submersible PV water pumping systems in Tunisia”, Energy for Sustainable Development, 16, 415-420, 2012.
  • [23] Yusufoğlu, G., “Şebeke elektriğinin bulunmadığı tarımsal alanlarda güneş enerjisiyle sulamanın yapılması”, Marmara Üniversitesi, Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi, 2013.
  • [24] Gençoğlu, E., “Güneş pili ile çalısan bir su pompalama sisteminin tasarımı ve gerçekleştirilmesi” Fırat Üniversitesi Fen Bilimleri Enstitüsü Yüksek Lisans Tezi, Elazığ, 2015.
  • [25] Gündoğdu, A., “Fotovoltaik Sistemlerde Kısmi Gölgelenmenin Sistem Performansı Üzerindeki Etkileri”, International Engineering, Science and Education Conference, 54-64, 2016.
There are 25 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Araştırma Articlessi
Authors

Ahmet Gündoğdu 0000-0001-7240-204X

Bayram Güre This is me

Publication Date January 31, 2019
Published in Issue Year 2019 Volume: 7 Issue: 1

Cite

APA Gündoğdu, A., & Güre, B. (2019). Design, Construction and Implementation of Low Cost Photovoltaic Water Pumping System for Agricultural Irrigatin. Balkan Journal of Electrical and Computer Engineering, 7(1), 72-80. https://doi.org/10.17694/bajece.492804

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