Handbook for Transversely Finned Tube Heat Exchanger Design
Handbook for Transversely Finned Tubes Heat Exchangers Design contains detailed experimental data, correlations, and design methods for designing and improving the performance of finned tube heat exchangers. It covers the three main types, circular...
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Handbook for Transversely Finned Tubes Heat Exchangers Design contains detailed experimental data, correlations, and design methods for designing and improving the performance of finned tube heat exchangers. It covers the three main types, circular finned, square finned, and helical finned tube bundles.
Based on extensive experimental studies and tested at leading design and research institutions, this handbook provides an extensive set of materials for calculating and designing convective surfaces from transversely finned tubes, with a particular emphasis on power plant applications.
Bibliographische Angaben
- Autoren: Eugene Pis'mennyi , Georgiy Polupan , Ignacio Carvajal-Mariscal
- Verlag: Academic Press
- EAN: 9780128043974
Autoren-Porträt von Eugene Pis'mennyi, Georgiy Polupan, Ignacio Carvajal-Mariscal
Eugene Pis'mennyi graduated as a mechanical engineer within the area of steamgenerator design from the National Technical University of Ukraine, Kyiv Polytechnic Institute. He obtained his Ph.D. within the area of thermal physics at the same institution. Dr. Pis'mennyi earned a degree of Doctor of Technical Sciences from the Institute of Engineering Thermophysics, National Academy of Sciences of Ukraine. Dr. Pis'mennyi is an internationally recognized scientist within the areas of nuclear engineering and heat transfer. He is an author of more than 400 publications, including eight technical books, 16 patents, and more than 50 technical reports. He has supervised 15 Ph.D. and more than 100 master in science and bachelor's theses. Currently, Dr. Pis'mennyi is a dean of the Heat Power Engineering Faculty and the Chief of Nuclear Power Plants and Engineering Thermophysics Department at the National Technical University of Ukraine, Kyiv Polytechnic Institute.Georgiy Polupan graduated as a mechanical engineer within the area of steam generator design from the National Technical University of Ukraine, Kyiv Polytechnic Institute. He obtained his Ph.D. within the area of thermal physics at the same institution. His major area of study is thermal processes in steam generators, thermo physics, and efficient use of energy. He is an author of more than 300 publications, including three technical books, two patents, and 67 papers in refereed journals.
G. Polupan was a researcher at the Thermal Physics Department from 1972 to 1985 and a professor of the Thermal Engineering Faculty of the National Technical University of Ukraine, Kyiv Polytechnic Institute from 1985 to 1999. Since 1999, he has been a full professor at the National Polytechnic Institute of Mexico, Superior School of Mechanical and Electrical Engineering, Thermal Engineering and Applied Hydraulic Laboratory.
Ignacio Carvajal-Mariscal graduated as a Mechanical Engineer from the Moscow Power Engineering Institute
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(Russia) in 1994. He possessed M.Sc. and Ph.D. in Thermal Engineering from the same institution in 1996 and 1999, respectively. He was a Visiting Professor at the Mechanical and Mechatronics Engineering Department, University of Waterloo, Waterloo, Canada, in 2008-2009. His major area of study is convective heat transfer. He is an author of more de 200 publications including 1 technical books, 23 papers in refereed journals.Currently, Dr. Carvajal-Mariscal is a full professor at the National Polytechnic Institute of Mexico. His research interests are heat-transfer enhancement, experimental fluid dynamics and heat-exchanger design. Dr. Carvajal-Mariscal is an ASME member since 2008.
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Inhaltsverzeichnis zu „Handbook for Transversely Finned Tube Heat Exchanger Design “
1 GENERAL STATEMENTS2 HEAT TRANSFER CALCULATION
2.1 Basic Equations2.2 Overall Heat Transfer Coefficient2.3 Reduced Heat Transfer Coefficient2.4 Convective Heat Transfer Coefficient2.5 Coefficient of Heat Transfer from the Wall to the Internal Medium2.6 Contamination Factor and Thermal Efficiency2.7 Average Temperature Difference3 CALCULATION OF AERODYNAMIC RESISTANCE4 CALCULATION OF HYDRAULIC RESISTANCE5 CALCULATION OF TEMPERATURE MODE OF FINNED TUBES6 STRENGTH DESIGN7 EXAMPLES OF CALCULATIONS
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