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Deviation in the Performance of Solar Module Under Climatic Parameter as Ambient Temperature and Wind Velocity in Composite Climate

Year 2012, Volume: 2 Issue: 3, 486 - 490, 01.09.2012

Abstract

An effort has been made to develop an equation with the given data for different seasons of particular location called Lucknow, India consisting of composite climate, which is helpful in developing a relation of efficiency of photovoltaic modules with the major climatic parameters like temperature, wind velocity; further this equation developed mathematically is in good correlation with the measured data. Here data are shown for a whole year from 2010-2011 considering daily monthly average values of the variables (efficiency with temperature and wind velocity). Here performance of module gives a broad view of impact of climatic variables and helps us to find out the efficiency of modules while knowing the climatic parameters of a particular area.

References

  • Omubo-Pepple V B, Israel-Cookey C and Alaminokuma G I, “Effects of Temperature, Solar flux and Relative Humidity on the Efficient Conversion of Solar Energy to Electricity,” European Journal of Scientific Research, vol.35(2), pp. 173-180,2009.
  • Kawamura T, Harada K, Ishihara Y, Todaka T, Oshiro T, Nakamura H, Imataki M, “Analysis of MPPT Characteristics in Photovoltaic power system,” Solar Energy Materials and Solar Cells, vol.47, pp. 155-165, 1997.
  • Bajpai, U and Singh K, “Instant Solar Radiation and Its Dependence on Meteorological Parameter,” Indian Journal of Power and River Valley Development, vol59 (3&4), pp 34-37, 2009.
  • Akpabio, L E and Udoimuk A B, “Characteristics Distribution of Total, Diffuse and Direct Solar Radiation at Calabar,” Global Journal of Pure and Applied Sciences, vol 9(1), pp 45-49, 2003.
  • Bajpai, U and Singh K, “Estimation of Instant Solar Radiation Using Instant Temperature,” Acta Montanistica Slovaca, vol 14 (2), pp. 189-196, 2009.
  • Osterwald, C R and Mc Mohan, T J, “History of accelerated and qualification testing of terrestrial photovoltaic modules: A literature review,” Prog. Photovoltaics Res Appl, vol 17(1), pp. 11-33, 2008.
  • Syafaruddin, Karatepe E, Hujama T, “Polar coordinated fuzzy controller based real time maximum power point control of Photovoltaic System,” Renewable Energy, vol 34, pp. 2597-2606, 2009.
  • Ben Salah C, Chaaben M, Ben Ammar M, “Multi criteria fuzzy algorithm for energy management of a domestic Photovoltaic panel,” Renewable Energy, vol 33, pp. 993- 1001, 2008.
  • Malik Q, Lim Chee Ming, Tan Kha Sheng and Blundell M, “Influence of Temperature on the Performance of Photovoltaic Polycrystalline Silicon Module in the Bruneian Climate,” AJSTD, vol 26 (2),pp. 61-72, 2010 . [10]
  • Abentin J, Cueli A B, Diaz J, Moracho J, Lagunas A R,“ New accredited laboratory for PV module testing,” Proceedings of the 20th European Photovoltaic Solar Energy Conference, Barcelona, Spain, pp.2124-2128, 2005. [11]
  • Arya R R, Carlson D E, “Amorphous silicon PV module manufacturing at BP Solar,” Progress in Photovoltaics: Research and Applications, vol10 (2), pp. 69-76, 2002. [12]
  • Wohlgemuth J H, Conway M, Meakin D H, “Reliability and performance testing of photovoltaic modules,” 28th IEEE PVSC, pp. 1483-1486, 2000. [13]
  • Topic M, Breel, K and Sites J, “Effective Efficiency of PV modules under Field Conditions,” Progress in Photovoltaics: Research and Application, vol15, pp. 19- 26, 2007. [14] Sahin D, Dincer I
  • “Thermodynamic Analysis of Solar Photovoltaic Cell Systems,” Solar Energy Materials and Solar Cells, vol 91, pp.153-159, 2007. and Rosen M A, [15]
  • Carlson D E, Romero R, Willing F, Meakin D H, Gonzalez L, Murphy R, “Corrosion Effects in thin film photovoltaic modules,” Progress in Photovoltaics: Research Applications, vol11, pp.377, 2003. Doi: 10.1002/pip. 500. [16]
  • Katkar A A, Shinde N N, Patil P S, “Performance & Evaluation of Industrial Solar Cell w.r.t. Temperature and Humidity,” International Journal of Research in Mechanical Engineering and Technology, vol 1(1), pp. 69-73, 2011. [17]
  • Armstrong S, Hurley W G, “A New Methodology to Optimize Solar Energy Extraction under Cloudy Conditions,” Renewable Energy, vol35, pp.780-787, 2010. [18]
  • Osterwald C R, Adelstein J, Duel Cueto J A, Kroposki B, Trudell D, Moriarty T, “Comparison of Degradation rates of individual modules held at maximum power,” Proceedings of the 4th World Conference on PV Energy Conversion, Waikoloa, Hawai, USA, pp. 2085-2088, 2006. [19]
  • Green M A, “Silicon photovoltaic modules a brief history of the first 50 years,” Progress in Photovoltaic‟s: Research Application, vol13, pp. 447-455, 2005. Doi: 10.1002/pip.612. [20]
  • Saly V, Ruzinsky M, Redi P, “Accelerated testing of small Photovoltaic modules and encapsulations at elevated voltage, temperature and humidity,” Proceedings of the 7th European PV Solar Energy Conference, Munich, Germany, pp. 749-752, 2001. [21]
  • King D L, Quintana M A, Kratochvil J A, Ellibee D E, Hansen B R, “ Photovoltaic module performance and durability following long term field exposure”, Progress in Photovoltaic‟s: Research Application, vol 8, pp. 241- 256,2000. [22]
  • Bala E J, Ojosu, J O and Umar I H, “Government Policies and Programmes on the Development of PV Sector in Nigeria.” Nigerian Journal of Renewable Energy, vol8 (1&2), pp. 1-6, 2000.
Year 2012, Volume: 2 Issue: 3, 486 - 490, 01.09.2012

Abstract

References

  • Omubo-Pepple V B, Israel-Cookey C and Alaminokuma G I, “Effects of Temperature, Solar flux and Relative Humidity on the Efficient Conversion of Solar Energy to Electricity,” European Journal of Scientific Research, vol.35(2), pp. 173-180,2009.
  • Kawamura T, Harada K, Ishihara Y, Todaka T, Oshiro T, Nakamura H, Imataki M, “Analysis of MPPT Characteristics in Photovoltaic power system,” Solar Energy Materials and Solar Cells, vol.47, pp. 155-165, 1997.
  • Bajpai, U and Singh K, “Instant Solar Radiation and Its Dependence on Meteorological Parameter,” Indian Journal of Power and River Valley Development, vol59 (3&4), pp 34-37, 2009.
  • Akpabio, L E and Udoimuk A B, “Characteristics Distribution of Total, Diffuse and Direct Solar Radiation at Calabar,” Global Journal of Pure and Applied Sciences, vol 9(1), pp 45-49, 2003.
  • Bajpai, U and Singh K, “Estimation of Instant Solar Radiation Using Instant Temperature,” Acta Montanistica Slovaca, vol 14 (2), pp. 189-196, 2009.
  • Osterwald, C R and Mc Mohan, T J, “History of accelerated and qualification testing of terrestrial photovoltaic modules: A literature review,” Prog. Photovoltaics Res Appl, vol 17(1), pp. 11-33, 2008.
  • Syafaruddin, Karatepe E, Hujama T, “Polar coordinated fuzzy controller based real time maximum power point control of Photovoltaic System,” Renewable Energy, vol 34, pp. 2597-2606, 2009.
  • Ben Salah C, Chaaben M, Ben Ammar M, “Multi criteria fuzzy algorithm for energy management of a domestic Photovoltaic panel,” Renewable Energy, vol 33, pp. 993- 1001, 2008.
  • Malik Q, Lim Chee Ming, Tan Kha Sheng and Blundell M, “Influence of Temperature on the Performance of Photovoltaic Polycrystalline Silicon Module in the Bruneian Climate,” AJSTD, vol 26 (2),pp. 61-72, 2010 . [10]
  • Abentin J, Cueli A B, Diaz J, Moracho J, Lagunas A R,“ New accredited laboratory for PV module testing,” Proceedings of the 20th European Photovoltaic Solar Energy Conference, Barcelona, Spain, pp.2124-2128, 2005. [11]
  • Arya R R, Carlson D E, “Amorphous silicon PV module manufacturing at BP Solar,” Progress in Photovoltaics: Research and Applications, vol10 (2), pp. 69-76, 2002. [12]
  • Wohlgemuth J H, Conway M, Meakin D H, “Reliability and performance testing of photovoltaic modules,” 28th IEEE PVSC, pp. 1483-1486, 2000. [13]
  • Topic M, Breel, K and Sites J, “Effective Efficiency of PV modules under Field Conditions,” Progress in Photovoltaics: Research and Application, vol15, pp. 19- 26, 2007. [14] Sahin D, Dincer I
  • “Thermodynamic Analysis of Solar Photovoltaic Cell Systems,” Solar Energy Materials and Solar Cells, vol 91, pp.153-159, 2007. and Rosen M A, [15]
  • Carlson D E, Romero R, Willing F, Meakin D H, Gonzalez L, Murphy R, “Corrosion Effects in thin film photovoltaic modules,” Progress in Photovoltaics: Research Applications, vol11, pp.377, 2003. Doi: 10.1002/pip. 500. [16]
  • Katkar A A, Shinde N N, Patil P S, “Performance & Evaluation of Industrial Solar Cell w.r.t. Temperature and Humidity,” International Journal of Research in Mechanical Engineering and Technology, vol 1(1), pp. 69-73, 2011. [17]
  • Armstrong S, Hurley W G, “A New Methodology to Optimize Solar Energy Extraction under Cloudy Conditions,” Renewable Energy, vol35, pp.780-787, 2010. [18]
  • Osterwald C R, Adelstein J, Duel Cueto J A, Kroposki B, Trudell D, Moriarty T, “Comparison of Degradation rates of individual modules held at maximum power,” Proceedings of the 4th World Conference on PV Energy Conversion, Waikoloa, Hawai, USA, pp. 2085-2088, 2006. [19]
  • Green M A, “Silicon photovoltaic modules a brief history of the first 50 years,” Progress in Photovoltaic‟s: Research Application, vol13, pp. 447-455, 2005. Doi: 10.1002/pip.612. [20]
  • Saly V, Ruzinsky M, Redi P, “Accelerated testing of small Photovoltaic modules and encapsulations at elevated voltage, temperature and humidity,” Proceedings of the 7th European PV Solar Energy Conference, Munich, Germany, pp. 749-752, 2001. [21]
  • King D L, Quintana M A, Kratochvil J A, Ellibee D E, Hansen B R, “ Photovoltaic module performance and durability following long term field exposure”, Progress in Photovoltaic‟s: Research Application, vol 8, pp. 241- 256,2000. [22]
  • Bala E J, Ojosu, J O and Umar I H, “Government Policies and Programmes on the Development of PV Sector in Nigeria.” Nigerian Journal of Renewable Energy, vol8 (1&2), pp. 1-6, 2000.
There are 22 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Rahnuma Siddiqui This is me

Usha Bajpai This is me

Publication Date September 1, 2012
Published in Issue Year 2012 Volume: 2 Issue: 3

Cite

APA Siddiqui, R., & Bajpai, U. (2012). Deviation in the Performance of Solar Module Under Climatic Parameter as Ambient Temperature and Wind Velocity in Composite Climate. International Journal Of Renewable Energy Research, 2(3), 486-490.
AMA Siddiqui R, Bajpai U. Deviation in the Performance of Solar Module Under Climatic Parameter as Ambient Temperature and Wind Velocity in Composite Climate. International Journal Of Renewable Energy Research. September 2012;2(3):486-490.
Chicago Siddiqui, Rahnuma, and Usha Bajpai. “Deviation in the Performance of Solar Module Under Climatic Parameter As Ambient Temperature and Wind Velocity in Composite Climate”. International Journal Of Renewable Energy Research 2, no. 3 (September 2012): 486-90.
EndNote Siddiqui R, Bajpai U (September 1, 2012) Deviation in the Performance of Solar Module Under Climatic Parameter as Ambient Temperature and Wind Velocity in Composite Climate. International Journal Of Renewable Energy Research 2 3 486–490.
IEEE R. Siddiqui and U. Bajpai, “Deviation in the Performance of Solar Module Under Climatic Parameter as Ambient Temperature and Wind Velocity in Composite Climate”, International Journal Of Renewable Energy Research, vol. 2, no. 3, pp. 486–490, 2012.
ISNAD Siddiqui, Rahnuma - Bajpai, Usha. “Deviation in the Performance of Solar Module Under Climatic Parameter As Ambient Temperature and Wind Velocity in Composite Climate”. International Journal Of Renewable Energy Research 2/3 (September 2012), 486-490.
JAMA Siddiqui R, Bajpai U. Deviation in the Performance of Solar Module Under Climatic Parameter as Ambient Temperature and Wind Velocity in Composite Climate. International Journal Of Renewable Energy Research. 2012;2:486–490.
MLA Siddiqui, Rahnuma and Usha Bajpai. “Deviation in the Performance of Solar Module Under Climatic Parameter As Ambient Temperature and Wind Velocity in Composite Climate”. International Journal Of Renewable Energy Research, vol. 2, no. 3, 2012, pp. 486-90.
Vancouver Siddiqui R, Bajpai U. Deviation in the Performance of Solar Module Under Climatic Parameter as Ambient Temperature and Wind Velocity in Composite Climate. International Journal Of Renewable Energy Research. 2012;2(3):486-90.