![]() ĭresch J (1971) Survey in Lut desert, translated by Mahmoudi F, Institute of Geography, University of Tehran. ![]() ĭouglas PM, Pagani M, Canuto MA, Brenner M, Hodell DA, Eglinton TI, Curtis JH (2015) Drought, agricultural adaptation, and sociopolitical collapse in the Maya lowlands. ĭoherty TJ, Clayton S (2011) The psychological impacts of global climate change. US Global Change Research Program, Washington, DC, pp 217–46. In: The impacts of climate change on human health in the United States: a scientific assessment. Accessed 2014ĭodgen D, Donato D, Kelly N, La Greca A, Morganstein J, Reser J, Ruzek J, Schweitzer S, Shimamoto MM, Tart KT, Ursano R (2016) Mental health and well-being. (80)90047-7ĭhass AD, Natarajan E, Lakshmi P (2014) An investigation of temperature effects on solar photovoltaic cells and modules. (09)60935-1Ĭuddihy EF (1980) Theoretical considerations of soil retention. ĬEIC (2021) Iran electricity consumption accessed 2021Ĭostello A, Abbas M, Allen A, Ball S, Bell S, Bellamy R, Friel S, Groce N, Johnson A, Kett M, Lee M (2009) Managing the health effects of climate change: lancet and University College London Institute for Global Health Commission. ![]() Ĭastellano NN, Parra JAG, Valls-Guirado J, Manzano-Agugliaro F (2015) Optimal displacement of photovoltaic array’s rows using a novel shading model. īüntgen U, Tegel W, Nicolussi K, McCormick M, Frank D, Trouet V, Kaplan JO, Herzig F, Heussner KU, Wanner H, Luterbacher J (2011) 2500 years of European climate variability and human susceptibility. īesarati SM, Padilla RV, Goswami DY, Stefanakos E (2013) The potential of harnessing solar radiation in Iran: generating solar maps and viability study of PV power plants. Īzizkhani M, Vakili A, Noorollahi Y, Naseri F (2017) Potential survey of photovoltaic power plants using analytical hierarchy process (AHP) method in Iran. Īzizi G, Alavipanah SK, Goudarzi N, Kazemi M (2007) An estimation of the temperature of Lut desert using MODIS sensor data. Īlizadeh-Choobari O, Zawar-Reza P, Sturman A (2014) The “wind of 120 days” and dust storm activity over the Sistan Basin. Iran’s Geology Institution Press, TehranĪlamdari P, Nematollahi O, Alemrajabi AA (2013) Solar energy potentials in Iran: a review. The results show that this project requires 140 solar PV power plants with a 1 GW capacity in an area of 2100 km 2.Īghanabati A (2004) Geology of Iran. The modeling of this project has been done in PVsyst software with the annual temperature data of the Lut region. In the proposed power plant, 305 WLG solar panels and 60 kW SMA solar inverters are applied. ![]() This region receives the maximum solar radiation per year. In this study, technical research is done on the potential of solar photovoltaic (PV) power plant installment in Lut Desert, located in eastern Iran, to provide all electricity consumption of the country. The largest source of renewable energy is solar radiation, and Iran is one of the countries with high solar energy potential. To mitigate climate change, the widespread use of renewable energy and the reduction of fossil fuel utilization are feasible solutions. Although the general trend of temperature in the Late Holocene has been toward cooling, due to the growing population and intense human activities over the past 150 years, the global temperature has risen. Human health and subsistence have always been, directly and indirectly, affected by climate change events. ![]()
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