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AN EVALUATION ON SOLAR POWERED HYDROGEN PRODUCTION

Year 2018, Volume: 3 Issue: 2, 26 - 35, 01.01.2019

Abstract

Hydrogen is considered the lightest, simplest and
most plentiful element in the universe. It can be a source of new, renewable
and almost the cleanest fuel of the future. Also, solar energy has a
significant share among renewable energy source. Especially photovoltaic power
plants represent a good solution concerning electric energy supply. Turkey is
looking for environment friendly renewable energy sources like most country. Photovoltaic
power plants can be a sustainable energy source with huge potential for Turkey.
Bursa province is located in the northwestern region and there are more
efficient regions in terms of solar energy such as south region in Turkey. Soğuksu
photovoltaic solar power plant is the first large scale power plant with 7 MW peak
power in Bursa. In this study, generation values of a power plant were observed
under actual operating conditions. The generation data showing the actual daily
electricity generation values have been recorded in the library of the plant.
This data has been used to investigation of daily hydrogen production
performance of the power plant in theoretically. Proton Exchange Membrane (PEM)
electrolyzer was selected for electrolysis of water. According to results, the maximum
mass flow of hydrogen production can be 0.0625 kgs
-1H2
for peak load and the electrolyzer can produce 1630 kg hydrogen in a clear
summer day.

References

  • [1] Saadi, A., Becherif, M., Ramadan, H. S. Hydrogen production horizon using solar energy in Biskra, Algeria. Int. J. Hydrogen Energy 2016; 41: 21899 – 21912.
  • [2] Hepbaslı, A., Ulgen, K., Eke, R. Solar Energy Applications in Turkey. Energy Sources 2004; 26: 551 – 561.
  • [3] Kumar, B. S. Sudhakar, K. Performance evaluation of 10 MW grid connected solar photovoltaic power plant in India. Energy Reports 2015; 1: 184 – 192.
  • [4] Incekara, C. O., Ogulata, S. N. Turkey’s energy planning considering global environmental concerns. Ecological Engineering 2017; 102: 589 – 595.
  • [5] Boran, F. E., Menlik, T., Boran, K. Multi-criteria Axiomatic Design Approach to Evaluate Sites for Grid-connected Photovoltaic Power Plants: A Case Study in Turkey. Energy Sources, Part B: Economics, Planning, and Policy 2010; 5: 290 – 300.
  • [6] Kanoglu, M. Yilmaz, C. Abusoglu, A. Geothermal energy use in hydrogen production. Journal of Thermal Engineering 2016; 2: 699-708.
  • [7] Cilogulları M., Erden M., Karakilcik M., Dincer I. Investigation of hydrogen production performanceof a Photovoltaic and Thermal System, Int. J. Hydrogen Energy 2017; 42: 2547 – 2552.
  • [8] Boudries, R., Khellaf, A., Aliane, A., Ihaddaden L., Khida F. PV system design for powering an industrial unit for hydrogen production. Int. J. Hydrogen Energy 2014; 39: 15188 – 15195.
  • [9] Likkasit, C., Maroufmashat, A., Elkamel, A., Ku, H., Fowler, M. Solar-aided hydrogen production methods for the integration of renewable energies into oil & gas industries. Energ convers manage 2018; 168: 395 – 406.
  • [10] Pereira., C. A., Coelho, P. M. Fermandes, J. F., Gomes M. H. Study of an energy mix for the production ofhydrogen. Int. J. Hydrogen Energy 2017; 42: 1375 – 1382.
  • [11] Yilmaz., C., Kanoglu, M. Thermodynamic evaluation of geothermal energy powered hydrogenproduction by PEM water electrolysis. Energy 2014; 69: 592 – 602.
  • [12] Yuksel, E. Y., Ozturk, M. Thermodynamic and thermoeconomic analyses ofa geothermal energy based integrated system forhydrogen production. Int. J. Hydrogen Energy 2017; 42: 2530 – 2546.
  • [13] Saka., K. Kaynakli, Ö., Yamankaradeniz. R. (2018) Bursa’da bulunan şebeke bağlantili bir pv güç santraliningünlük elektrik üretimi. IV. Uluslararası Katılımlı Anadolu Enerji Sempozyumu18-20 Nisan 2018, Trakya Üniversitesi, Edirne, 1479 – 1485.
Year 2018, Volume: 3 Issue: 2, 26 - 35, 01.01.2019

Abstract

References

  • [1] Saadi, A., Becherif, M., Ramadan, H. S. Hydrogen production horizon using solar energy in Biskra, Algeria. Int. J. Hydrogen Energy 2016; 41: 21899 – 21912.
  • [2] Hepbaslı, A., Ulgen, K., Eke, R. Solar Energy Applications in Turkey. Energy Sources 2004; 26: 551 – 561.
  • [3] Kumar, B. S. Sudhakar, K. Performance evaluation of 10 MW grid connected solar photovoltaic power plant in India. Energy Reports 2015; 1: 184 – 192.
  • [4] Incekara, C. O., Ogulata, S. N. Turkey’s energy planning considering global environmental concerns. Ecological Engineering 2017; 102: 589 – 595.
  • [5] Boran, F. E., Menlik, T., Boran, K. Multi-criteria Axiomatic Design Approach to Evaluate Sites for Grid-connected Photovoltaic Power Plants: A Case Study in Turkey. Energy Sources, Part B: Economics, Planning, and Policy 2010; 5: 290 – 300.
  • [6] Kanoglu, M. Yilmaz, C. Abusoglu, A. Geothermal energy use in hydrogen production. Journal of Thermal Engineering 2016; 2: 699-708.
  • [7] Cilogulları M., Erden M., Karakilcik M., Dincer I. Investigation of hydrogen production performanceof a Photovoltaic and Thermal System, Int. J. Hydrogen Energy 2017; 42: 2547 – 2552.
  • [8] Boudries, R., Khellaf, A., Aliane, A., Ihaddaden L., Khida F. PV system design for powering an industrial unit for hydrogen production. Int. J. Hydrogen Energy 2014; 39: 15188 – 15195.
  • [9] Likkasit, C., Maroufmashat, A., Elkamel, A., Ku, H., Fowler, M. Solar-aided hydrogen production methods for the integration of renewable energies into oil & gas industries. Energ convers manage 2018; 168: 395 – 406.
  • [10] Pereira., C. A., Coelho, P. M. Fermandes, J. F., Gomes M. H. Study of an energy mix for the production ofhydrogen. Int. J. Hydrogen Energy 2017; 42: 1375 – 1382.
  • [11] Yilmaz., C., Kanoglu, M. Thermodynamic evaluation of geothermal energy powered hydrogenproduction by PEM water electrolysis. Energy 2014; 69: 592 – 602.
  • [12] Yuksel, E. Y., Ozturk, M. Thermodynamic and thermoeconomic analyses ofa geothermal energy based integrated system forhydrogen production. Int. J. Hydrogen Energy 2017; 42: 2530 – 2546.
  • [13] Saka., K. Kaynakli, Ö., Yamankaradeniz. R. (2018) Bursa’da bulunan şebeke bağlantili bir pv güç santraliningünlük elektrik üretimi. IV. Uluslararası Katılımlı Anadolu Enerji Sempozyumu18-20 Nisan 2018, Trakya Üniversitesi, Edirne, 1479 – 1485.
There are 13 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Kenan Saka 0000-0002-2296-894X

Ahmet Serhan Canbolat 0000-0002-0423-6411

Publication Date January 1, 2019
Acceptance Date January 17, 2019
Published in Issue Year 2018 Volume: 3 Issue: 2

Cite

APA Saka, K., & Canbolat, A. S. (2019). AN EVALUATION ON SOLAR POWERED HYDROGEN PRODUCTION. The International Journal of Energy and Engineering Sciences, 3(2), 26-35.

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