Complementary Resources for Tomorrow (eBook, PDF)
Proceedings of Energy & Resources for Tomorrow 2019, University of Windsor, Canada
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Complementary Resources for Tomorrow (eBook, PDF)
Proceedings of Energy & Resources for Tomorrow 2019, University of Windsor, Canada
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This book brings together the state-of-the-art in energy and resources research. It covers wind, solar, hydro and geothermal energy, as well as more conventional power generation technologies, such as internal combustion engines. Related areas of research such as the environmental sciences, carbon dioxide emissions, and energy storage are also addressed.
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This book brings together the state-of-the-art in energy and resources research. It covers wind, solar, hydro and geothermal energy, as well as more conventional power generation technologies, such as internal combustion engines. Related areas of research such as the environmental sciences, carbon dioxide emissions, and energy storage are also addressed.
Produktdetails
- Produktdetails
- Verlag: Springer International Publishing
- Erscheinungstermin: 6. März 2020
- Englisch
- ISBN-13: 9783030388041
- Artikelnr.: 58771181
- Verlag: Springer International Publishing
- Erscheinungstermin: 6. März 2020
- Englisch
- ISBN-13: 9783030388041
- Artikelnr.: 58771181
Dr Ahmad Vasel-Be-Hagh is an Assistant Professor of Mechanical Engineering and founder of Fluid Mechanics Research Laboratory (https://sites.tntech.edu/fmrl/) at Tennessee Technological University. He develops analytical models, numerical simulations, and laboratory/field experiments to add physical insight to the understanding of fluid mechanics for more accurate prediction and control of flows. Applications of his research include wind turbines and wind farms, aircrafts and submarines, marine hydrokinetic devices, and mechanical energy storage technologies. He has more than 20 publications in scientific journals. He has edited three books for major publishers including Springer and Taylor & Francis, as well as multiple journal special issues for Sustainable Energy Technologies and Assessments (Elsevier) and International Journal of Sustainable Energy (Taylor & Francis).
Professor David S K Ting is the founder of the Turbulence & Energy Laboratory, www.turbulenceandenergylab.org. He supervises students on a wide range of research projects primarily in the Energy Conservation and Renewable Energy areas; www.dskting.ca. To date, Dr Ting has co/supervised over seventy five graduate students and co-authored more than one hundred and thirty journal papers. His editorial involvement includes a dozen special issues in high-impact journals, three monographs with IET, three with Springer, one with CRC/Taylor and Francis, in addition to his single-authored book on Basics of Engineering Turbulence with Academic Press.
Professor David S K Ting is the founder of the Turbulence & Energy Laboratory, www.turbulenceandenergylab.org. He supervises students on a wide range of research projects primarily in the Energy Conservation and Renewable Energy areas; www.dskting.ca. To date, Dr Ting has co/supervised over seventy five graduate students and co-authored more than one hundred and thirty journal papers. His editorial involvement includes a dozen special issues in high-impact journals, three monographs with IET, three with Springer, one with CRC/Taylor and Francis, in addition to his single-authored book on Basics of Engineering Turbulence with Academic Press.
Chapter 1.Tomorrow’s Energy, Renewables Alone?.- Chapter 2. Subsea pipeline hybrid thermal insulation with phase change material and aerogel – analysis and experiments.- Chapter 3. High pressure DME spray for compression ignition engines.- Chapter 4.Priority estimation model for renewable oils in biodiesel.- Chapter 5. A relationship for estimating the exergy of rice husk using LHV.- Chapter 6. The effects of geometry and substrate material on thermoelectric generator performance.
Chapter 1.Tomorrow's Energy, Renewables Alone?.- Chapter 2. Subsea pipeline hybrid thermal insulation with phase change material and aerogel - analysis and experiments.- Chapter 3. High pressure DME spray for compression ignition engines.- Chapter 4.Priority estimation model for renewable oils in biodiesel.- Chapter 5. A relationship for estimating the exergy of rice husk using LHV.- Chapter 6. The effects of geometry and substrate material on thermoelectric generator performance.
Chapter 1.Tomorrow’s Energy, Renewables Alone?.- Chapter 2. Subsea pipeline hybrid thermal insulation with phase change material and aerogel – analysis and experiments.- Chapter 3. High pressure DME spray for compression ignition engines.- Chapter 4.Priority estimation model for renewable oils in biodiesel.- Chapter 5. A relationship for estimating the exergy of rice husk using LHV.- Chapter 6. The effects of geometry and substrate material on thermoelectric generator performance.
Chapter 1.Tomorrow's Energy, Renewables Alone?.- Chapter 2. Subsea pipeline hybrid thermal insulation with phase change material and aerogel - analysis and experiments.- Chapter 3. High pressure DME spray for compression ignition engines.- Chapter 4.Priority estimation model for renewable oils in biodiesel.- Chapter 5. A relationship for estimating the exergy of rice husk using LHV.- Chapter 6. The effects of geometry and substrate material on thermoelectric generator performance.