Marmara Üniversitesi
Marmara Üniversitesi Eğitim-Öğretim Bilgi Sistemi

Enerji üretimi ve tüketiminde problem tanımı ve yenilenebilir enerji çözümlerinin gösterilmesi.

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İklim Değişikliği, Proses ısısı, elektrik ve üretim için Güneş Enerjisi Yenilenebilir Enerji Teknolojileri, Enerji Verimliliği, Ulaşım, bina ve endüstri için Güneş Enerjisi Teknolojileri, Güneş Enerjisi Ekonomisi, Biyoenerji, Jeotermal, Güneş Enerjisi ile

Ders Notları, Powerpoint Sunumları, Ödevler

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İngilizce

1 Synergies Between Renewable Energy and Energy Efficiency, D. Gielen, D. Saygın, N. Wagner, K. Petrichenko and A. Tsakiris, IRENA and C2E2, 2015. 2 The Renewable Route to Sustainable Transport – A Working Paper based on Remap, D. Gielen, D. Saygın and N. Wagner, IRENA, 2016. 3 Renewable Energy Prospects - Germany, D. Gielen, D. Saygın and N. Wagner, IRENA, 2015. 4 From Baseload to Peak - Renewables Provide a Reliable Solution, F. Ueckerdt and R. Kempener, IRENA, 2015. 5 The Power to Change - Solar and Wind Cost Reduction Potential to 2025, M. Taylor, P. Ralon and A. Ilas, IRENA, 2016. 6 Wind Power - Technology Brief E07, IEA-ETSAP and IRENA, 2016. 7 Parabolic Trough Solar Receivers Characterization Using Specific Test Bench for Transmittance, Absorptance and Heat Loss Simultaneous Measurement, J.L. Navarro-Hermoso, G. Espinosa-Rueda, C. Heras, I. Salinas, N. Martinez and M. Gallas, Solar Energy 136 (2016) 268–277. 8 Letting in The Light - How Solar Photovoltaics will Revolutionise the Electricity System, D. Gielen, R. Kempener, M. Taylor, F. Boshell and A. Seleem, IRENA, 2016. 9 A Systematic Review of Enhanced (or Engineered) Geothermal Systems Past, Present and Future, K. Breede, K. Dzebisashvili, X. Liu and G. Falcone, Geothermal Energy 2013, 1.4. 10 Overview of Geothermal Deployment - Trends, M. Sander and J. Newson. In IGA Stakeholder Meeting, Nairobi, 2015. 11 A Renewable Energy System in Frederikshavn Using Low-Temperature Geothermal, P.A. Østergaard and H. Lund, Applied Energy 88 (2011) 479–487. 12 History and Future of Domestic Biogas Plants in the Developing World, T. Bond and M.R. Templeton, Energy for Sustainable Development 15 (2011) 347–354. 13 Biogas Plants in Denmark Successes and Setbacks, R.P.J.M. Raven and K.H. Gregersen, Renewable and Sustainable Energy Reviews 11 (2007) 116–132. 14 Biomass for Heat and Power - Technology Brief E05, IEA-ETSAP and IRENA, 2015. 15 Boosting Biofuels - Sustainable Paths to Greater Energy Security, J. Skeer and S. Nakada, IRENA, 2016. 16 Biofuels For Transport – Short Version, WBA. 17 Quality Infrastructure for Renewable Energy Technologies - Solar Water Heaters, T. Forsyth, J. Burch, F. Boshell and R. Baranowski, IRENA, 2015. 18 Solar Heat for Industrial Processes - Technology Brief E21, IEA-ETSAP and IRENA, 2015. 19 Solar Heating and Cooling for Residential Applications - Technology Brief R12, IEA-ETSAP and IRENA, 2015 20 Renewable Desalination - Technology Options For Islands 2015, J. Koschikowski, V. Jülch, T. Kec and N.S. Hussein, IRENA, 2015. 21 Rethinking Energy - Renewable Energy and Climate Change, H. Wuester, R. Ferroukhi, L. El-Katiri, D. Saygın, T. Rinke and D. Nagpal, IRENA, 2015.

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• Name a wide range of applications for solar energy technology.
• Understand the structure of a solar energy system.
• Identify the technological steps used in solar technology manufacturing.
• By the end of this course the student should be understand the nature of solar heat and light utilization on earth.
• Students will be capable to know which renewable energy source should be used in different environments.