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Lars Broman, Strömstad Academy, lars.broman@stromstadakademi.se. MSc Solar Energy Education Lars Broman Presentation in Ukraine 22-25 April 2013. Lars Broman, Strömstad Academy, lars.broman@stromstadakademi.se. ESES European Solar Engineering School initiated by Prof. Lars Broman in 1997
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Lars Broman, Strömstad Academy, lars.broman@stromstadakademi.se
MSc Solar Energy Education Lars Broman Presentation in Ukraine 22-25 April 2013 Lars Broman, Strömstad Academy, lars.broman@stromstadakademi.se
ESES European Solar Engineering School initiated by Prof. Lars Broman in 1997 1998 Summer course in Advanced solar thermal engineering at Tingvall, 7.5 cr., taught by Broman. 1999 Summer course in Advanced photovoltaics engineering at Tingvall. 7.5 cr., taught by Dr. Konrad Blum. 1999-2000 First 1-yr ESES program, 60 cr. Lars Broman, Strömstad Academy, lars.broman@stromstadakademi.se
1998 Summer course in Tingvall Lars Broman, Strömstad Academy, lars.broman@stromstadakademi.se
AIM The aim of the course is to provide good understanding of the physics and technology of solar thermal processes. After completion of the course, students shall be able to design solar thermal systems of different sizes. They shall have sufficient background to read and understand research articles in the field of thermal solar energy. CONTENTS The course consists of two parts, one theoretical and one applied. Lars Broman, Strömstad Academy, lars.broman@stromstadakademi.se
Literature Advanced solar thermal engineering Part 1 Duffie, John A. and Beckman, William A. 1991. Solar Engineering of Thermal Processes. Part 2 Beckman, William A. and Klein, Sandie. 1981. F-Chart Software and Manual. Lorenz, Klaus. 1995. Build Your Solar Thermal System Yourself. Lars Broman, Strömstad Academy, lars.broman@stromstadakademi.se
1999 Summer course in Tingvall AIM The aim of the course is to provide good understanding of the physics and technology of photovoltaic processes as well as the technology of photovoltaic systems and their components. After completion of the course, students shall be able to design stand-alone and grid connected solar electrical systems. They shall have sufficient background to read and understand research articles in the fields of photovoltaics and solar electricity. CONTENTS The course consists of two parts, one theoretical and one practical/experimental. Lars Broman, Strömstad Academy, lars.broman@stromstadakademi.se
Literature Advanced solar photovoltaics engineering Part 1 Wenham, S. R., Green, M. A., and Watt, M. E. 1994. Applied Photovoltaics. Kazmerski, L. L. 1997. Photovoltaics: A Review of Cell and Module Technologies. Part 2 Schumacher, Jürgen et. al., 1993. INSEL - Interactive Simulation of Renewable Electrical Energy Supply Systems. Software and Manual. University of Oldenburg, Germany. Lars Broman, Strömstad Academy, lars.broman@stromstadakademi.se
1999-2000 First 1-yr ESES program Advanced solar thermal engineering 7.5 cr. Advanced solar photovoltaics engineering 7.5 cr. Solar architecture/passive solar thermal engg. 7.5 cr. Solar energy engineering for tropical climates and solar energy economy 7.5 cr. Thesis 30 cr. Lars Broman, Strömstad Academy, lars.broman@stromstadakademi.se
Lars Broman, Strömstad Academy, lars.broman@stromstadakademi.se
ESES today www.eses.org Since 1999 over 250 students. Now 30 students/yr. Program Director Dr. Frank Fiedler, ffi@du.se. Lecturers include Assoc. Professor Annette Henning, Professor Tara Kandpal, Lic. Klaus Lorenz, Dr. Bengt Perers, Dr. Thomas Persson, Assoc. Prof. Mats Rönnelid, and guest Professors. Lars Broman, Strömstad Academy, lars.broman@stromstadakademi.se
FIN Lars Broman, Strömstad Academy, lars.broman@stromstadakademi.se