Research Article
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Year 2020, Volume: 4 Issue: 1, 12 - 21, 31.03.2020
https://doi.org/10.30521/jes.690717

Abstract

References

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  • [2] Tarai, R.K., Kale, P., Development of rasterized map using PVGIS for assessment of solar PV energy potential of Odisha, International Journal of Renewable Energy Research, 2016, 6(1), 61-73.
  • [3] Adnan, S., Khan, A.H., Haider, S., Mahmood, R., Solar energy potential in Pakistan, Journal of renewable and Sustainable Energy, 2012, 4, 032701-032707.
  • [4] Bakhtiar, F., Ahmed, A., A review of solar energy in Pakistan: Current status and future prospects, Science, Technology and Development, 2017, 36(3), 189-195.
  • [5] Meghwar, A., Ul-Haq, L., Irshad, N., Techno economic evaluation of off-grid Hybrid solar-wind power system for village Malo Bheel, Tharparkar Sindh Pakistan, American Journal of Energy Research, 2017, 5(2): 28-34.
  • [6] Ganguli, S., Singh, J., Estimating the Solar Photovoltaic generation potential and possible plant capacity in Patiala, International Journal of Applied Engineering Research, Dindigul, 2010, 1(2), 253-260.
  • [7] Suri, M., Huld, T.A., Dunlop, E.D., Ossenbrink, H.A., Potential of solar electricity generation in the European Union member states and candidate countries, Solar Energy, 2007, 81, 1295-1305.
  • [8] Kenny, R.P., Huld, T.A., Iglesias, S., Energy rating of PV modules based on PVGIS irradiance and temperature database, 21st European Photovoltaic Solar Energy Conference, (4-8 September, Dresden, Germany). 2006, 2088-2092.
  • [9] Suri, M., Huld, T.A., Dunlop, E.D., Albuisson, M., Wald, L., Online data and tools for estimation of solar electricity in Africa: the PVGIS approach, 21st European Photovoltaic Solar Energy Conference and Exhibition (4-8 October Dresden, Germany), 2006, 2623-2626.
  • [10] Barhdadi, A., Bennis, M., PVGIS Approach for assessing the performances of the first PV grid-connected power plant in Morocco. The African Review of Physics, 2012, 7, 337-344.
  • [11] Ali, A., Khan, T.A., Ahmad, S., Analysis of Climate Data of Khyber Pakhtunkhwa, Pakistan, International Research Journal of Engineering and Technology (IRJET), 2018, 5(5), 4266-4282.
  • [12] Hussain, S.S., Hussain, S., Hanif, M., Technical Report on Climate Change Scenarios and Possible Adaptation Measures, Chitral and DIK districts of KPK, Pakistan, 2013, DOI: 10.13140/RG.2.1.3123.7849.
  • [13] ERRA, Report on District Profile-Mansehra. Kamran Printers, Blue Area, Islamabad 2007, http://www.ndma.gov.pk/Publications/District%20Profile%20Mansehra.pdf.
  • [14] Bokhari, SMUH. Pakistan Emergency Situational Analysis District Peshawar, Alhasan Systems Private limited (Islamabad, Pakistan), 2015, ISSN: 2410-8820.
  • [15] Ali, S., Perveen, A., Qaiser, M., Vegetation Structure, Edaphalogy and Ethnobotany of Mahaban and Malka (District Buner) KPK, Pakistan, Pak. J. Bot, 2015, 47, 15-22.
  • [16] Martin, M.S., Tristan, C.A., Mediavilla, M.D., Performance indicators form Sun tracking systems: a case study in Spain, Energy and Power Engineering, 2014, 6(9), 292-302.
  • [17] Huld, T., Muller, R.W., Gambardella, A., A new solar radiation database for estimating PV performance in Europe and Africa, Solar Energy, 2012, 86(6), 1803–1815.
  • [18] Belward, A., Bisselink, B., Bódis, K., Brink, A., Dallemand, J.F., de Roo, A., Huld, T., Kayitakire, F., Mayaux, P., Moner-Girona, M., Ossenbrink, H., Pinedo, I., Sint, H., Thielen, J., Szabó, S., Tromboni, U., Willemen, L., JRC Scientific and Technical Report on Renewable energies in Africa 2011, European Union (EUR 25108, Italy), 2011.
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  • [21] Pavlovic, TM, Milosavljevic, DD, Pirsl, DS. Simulation of photovoltaic systems electricity generation using homer software in specific locations in Serbia. Thermal Science 2013, 17(2): 333-347.
  • [22] Dunlop, E.D., Suri, M., Huld, T.A., Photovoltaic potential assessment to support renewable energies growth in 10 EU candidate countries, In: Gottschalg, R. (ed.) Proceedings of the Conference C79 of the Solar Energy Society CREST, Photovoltaic Science, Applications and Technology, Loughborough University (UK), 2003, 3.-4.4., 1007-1016.
  • [23] Huld, T., PVMAPS: Software tools and data for the estimation of solar radiation and photovoltaic module performance over large geographical areas, Solar Energy, 2017, 1 42, 171-181.
  • [24] Huld, T.A., Šúri, M., Dunlop, E.D., GIS-based estimation of solar radiation and PV generation in central and eastern Europe on the web, 9th EC-GI&GIS Workshop (25-27 June, A Coruña, Spain), 2003.
  • [25] Riaz, M., Ullah, A., Jan, K.U., Prospects and viability of solar energy in Khyber Pakhtunkhwa Pakistan, International Journal of Engineering Research & Technology (IJERT), 2014, 3(8), 162-167.
  • [26] Kenny, R.P., Huld, T.A., Iglesias, S., Energy rating of PV modules based on PVGIS irradiance and temperature database, 21st European Photovoltaic Solar Energy Conference (4-8 September Dresden, Germany), 2006, 2088-2092.
  • [27] Pantic, L.S., Pavlovic, T.M., Milosavljevic, D.D., Mirjanic, D.L., Radonjic, I.S., Radovic, M.K., Electrical energy generation with differently oriented PV modules as Façade elements, Thermal Science, 2015, DOI: 10.2298/tsci150123157p.
  • [28] Pavlovic, T.M., Milosavljevic, D.D., Pirsl, D.S., Simulation of PV systems electricity generation using HOMER software in specific locations in Serbia, Thermal Science, 2013, 2(17), 333-347.
  • [29] Cieslak, K., Dragan, P., Comparison of the existing photovoltaic power plant performance simulation in terms of different sources of meteorological data, E3S Web of Conferences, 2018, 49, 00015, https://doi.org/10.1051/e3sconf/20184900015.

Photovoltaic Geographical Information System module for the estimation of solar electricity generation: A comparative study in Khyber Pakhtunkhwa Pakistan

Year 2020, Volume: 4 Issue: 1, 12 - 21, 31.03.2020
https://doi.org/10.30521/jes.690717

Abstract

Renewable energy resources are safe and easy to access giving solution to the problems caused by non-renewable energy resources (fossil fuels etc.) and can balance the increasing demand of the electricity generation in Pakistan. The aim of this study was to utilize PVGIS module to estimate the solar electricity generation at six districts (such as Dir, Mansehra, Peshawar, Buner, Dera Ismail Khan (DIK) and Chitral) of Khyber Pakhtunkhwa province of Pakistan. PVGIS is a web based interactive GIS system provided database (based on meteorological geostationary satellites e.g., Meteosat & GOES) which include monthly and yearly average values of the global solar irradiation on horizontal and inclined surfaces, as well as climatic parameters (i.e.; Linke atmospheric turbidity, the ratio of diffuse to global irradiation). Based on the PVGIS module, monthly averages of global irradiation were utilized to estimate the solar electricity generation at six locations of Khyber Pakhtunkhwa. The results showed that the daily as well as monthly electricity production (Ed and Em) and global irradiance (Hd and Hm) for all the districts are maximum in the months of March until October and minimum during January, February, November and December. The acquired results of the estimated electricity production (kWh) and the estimated irradiations (kwh/m2) per year from a PV system for the six districts exhibited that Dera Ismail Khan (DIK) district has highest estimated electricity production as well as estimated irradiations followed by Buner, Dir and Peshawar districts. It is concluded that PVGIS datasets can be used for the estimation of solar electricity generation and as a support system for the policy-making in the region.

References

  • [1] Suri, M., Huld, T.A., Dunlop, E.D., PV-GIS: a web-based solar radiation database for the calculation of PV potential in Europe. International Journal of Sustainable Energy, 2005, 24(2), 55-67.
  • [2] Tarai, R.K., Kale, P., Development of rasterized map using PVGIS for assessment of solar PV energy potential of Odisha, International Journal of Renewable Energy Research, 2016, 6(1), 61-73.
  • [3] Adnan, S., Khan, A.H., Haider, S., Mahmood, R., Solar energy potential in Pakistan, Journal of renewable and Sustainable Energy, 2012, 4, 032701-032707.
  • [4] Bakhtiar, F., Ahmed, A., A review of solar energy in Pakistan: Current status and future prospects, Science, Technology and Development, 2017, 36(3), 189-195.
  • [5] Meghwar, A., Ul-Haq, L., Irshad, N., Techno economic evaluation of off-grid Hybrid solar-wind power system for village Malo Bheel, Tharparkar Sindh Pakistan, American Journal of Energy Research, 2017, 5(2): 28-34.
  • [6] Ganguli, S., Singh, J., Estimating the Solar Photovoltaic generation potential and possible plant capacity in Patiala, International Journal of Applied Engineering Research, Dindigul, 2010, 1(2), 253-260.
  • [7] Suri, M., Huld, T.A., Dunlop, E.D., Ossenbrink, H.A., Potential of solar electricity generation in the European Union member states and candidate countries, Solar Energy, 2007, 81, 1295-1305.
  • [8] Kenny, R.P., Huld, T.A., Iglesias, S., Energy rating of PV modules based on PVGIS irradiance and temperature database, 21st European Photovoltaic Solar Energy Conference, (4-8 September, Dresden, Germany). 2006, 2088-2092.
  • [9] Suri, M., Huld, T.A., Dunlop, E.D., Albuisson, M., Wald, L., Online data and tools for estimation of solar electricity in Africa: the PVGIS approach, 21st European Photovoltaic Solar Energy Conference and Exhibition (4-8 October Dresden, Germany), 2006, 2623-2626.
  • [10] Barhdadi, A., Bennis, M., PVGIS Approach for assessing the performances of the first PV grid-connected power plant in Morocco. The African Review of Physics, 2012, 7, 337-344.
  • [11] Ali, A., Khan, T.A., Ahmad, S., Analysis of Climate Data of Khyber Pakhtunkhwa, Pakistan, International Research Journal of Engineering and Technology (IRJET), 2018, 5(5), 4266-4282.
  • [12] Hussain, S.S., Hussain, S., Hanif, M., Technical Report on Climate Change Scenarios and Possible Adaptation Measures, Chitral and DIK districts of KPK, Pakistan, 2013, DOI: 10.13140/RG.2.1.3123.7849.
  • [13] ERRA, Report on District Profile-Mansehra. Kamran Printers, Blue Area, Islamabad 2007, http://www.ndma.gov.pk/Publications/District%20Profile%20Mansehra.pdf.
  • [14] Bokhari, SMUH. Pakistan Emergency Situational Analysis District Peshawar, Alhasan Systems Private limited (Islamabad, Pakistan), 2015, ISSN: 2410-8820.
  • [15] Ali, S., Perveen, A., Qaiser, M., Vegetation Structure, Edaphalogy and Ethnobotany of Mahaban and Malka (District Buner) KPK, Pakistan, Pak. J. Bot, 2015, 47, 15-22.
  • [16] Martin, M.S., Tristan, C.A., Mediavilla, M.D., Performance indicators form Sun tracking systems: a case study in Spain, Energy and Power Engineering, 2014, 6(9), 292-302.
  • [17] Huld, T., Muller, R.W., Gambardella, A., A new solar radiation database for estimating PV performance in Europe and Africa, Solar Energy, 2012, 86(6), 1803–1815.
  • [18] Belward, A., Bisselink, B., Bódis, K., Brink, A., Dallemand, J.F., de Roo, A., Huld, T., Kayitakire, F., Mayaux, P., Moner-Girona, M., Ossenbrink, H., Pinedo, I., Sint, H., Thielen, J., Szabó, S., Tromboni, U., Willemen, L., JRC Scientific and Technical Report on Renewable energies in Africa 2011, European Union (EUR 25108, Italy), 2011.
  • [19] Nelson, J., Emmott, C.J.M., Can solar power deliver? Philosophical Transactions of the Royal Society, 2013, 371, 1-8.
  • [20] Olsan, T., Soucase, B.M., Libra, M., Comparison of predicted and real parameters of PV systems in the Czech Republic and Spain. Agronomy Research, 2018, 16(S1), 1150-1158.
  • [21] Pavlovic, TM, Milosavljevic, DD, Pirsl, DS. Simulation of photovoltaic systems electricity generation using homer software in specific locations in Serbia. Thermal Science 2013, 17(2): 333-347.
  • [22] Dunlop, E.D., Suri, M., Huld, T.A., Photovoltaic potential assessment to support renewable energies growth in 10 EU candidate countries, In: Gottschalg, R. (ed.) Proceedings of the Conference C79 of the Solar Energy Society CREST, Photovoltaic Science, Applications and Technology, Loughborough University (UK), 2003, 3.-4.4., 1007-1016.
  • [23] Huld, T., PVMAPS: Software tools and data for the estimation of solar radiation and photovoltaic module performance over large geographical areas, Solar Energy, 2017, 1 42, 171-181.
  • [24] Huld, T.A., Šúri, M., Dunlop, E.D., GIS-based estimation of solar radiation and PV generation in central and eastern Europe on the web, 9th EC-GI&GIS Workshop (25-27 June, A Coruña, Spain), 2003.
  • [25] Riaz, M., Ullah, A., Jan, K.U., Prospects and viability of solar energy in Khyber Pakhtunkhwa Pakistan, International Journal of Engineering Research & Technology (IJERT), 2014, 3(8), 162-167.
  • [26] Kenny, R.P., Huld, T.A., Iglesias, S., Energy rating of PV modules based on PVGIS irradiance and temperature database, 21st European Photovoltaic Solar Energy Conference (4-8 September Dresden, Germany), 2006, 2088-2092.
  • [27] Pantic, L.S., Pavlovic, T.M., Milosavljevic, D.D., Mirjanic, D.L., Radonjic, I.S., Radovic, M.K., Electrical energy generation with differently oriented PV modules as Façade elements, Thermal Science, 2015, DOI: 10.2298/tsci150123157p.
  • [28] Pavlovic, T.M., Milosavljevic, D.D., Pirsl, D.S., Simulation of PV systems electricity generation using HOMER software in specific locations in Serbia, Thermal Science, 2013, 2(17), 333-347.
  • [29] Cieslak, K., Dragan, P., Comparison of the existing photovoltaic power plant performance simulation in terms of different sources of meteorological data, E3S Web of Conferences, 2018, 49, 00015, https://doi.org/10.1051/e3sconf/20184900015.
There are 29 citations in total.

Details

Primary Language English
Subjects Electrical Engineering
Journal Section Research Articles
Authors

Sapna Tajbar 0000-0003-3448-2864

Lubna Rafiq 0000-0002-4529-5530

Sahar Bıbı 0000-0001-5761-3148

Maha Saıdullah 0000-0002-6911-4693

Publication Date March 31, 2020
Acceptance Date March 13, 2020
Published in Issue Year 2020 Volume: 4 Issue: 1

Cite

Vancouver Tajbar S, Rafiq L, Bıbı S, Saıdullah M. Photovoltaic Geographical Information System module for the estimation of solar electricity generation: A comparative study in Khyber Pakhtunkhwa Pakistan. JES. 2020;4(1):12-21.

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