• Technology & Industrial Arts

Adrian Bejan is a Romanian-American professor who has made contributions to modern thermodynamics and developed what he calls the constructal law. He is J. A. Jones Distinguished Professor of Mechanical Engineering at Duke University^[1][2] and author of the 2016 book The Physics of Life: The Evolution of Everything.^[3]

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Early life and education[edit]

Bejan was born in Galaţi, a port town located on the Danube in Romania.His mother, Marioara Bejan (1914–1998), was a pharmacist.^[1][4] His father, Dr. Anghel Bejan (1910–1976), was a veterinarian.^[4] Bejan showed an early talent in drawing, and his parents enrolled him in art school. He also excelled in basketball, which earned him a position on the Romanian national basketball team.^[4][5]

Free PDF Download Books by Adrian Bejan. A comprehensive and rigorous introduction to thermal system design from a contemporary perspective Thermal Design and Optimization.

At age 19 Bejan won a scholarship to the United States and entered Massachusetts Institute of Technology in Cambridge, Massachusetts.^[4] In 1972 he was awarded BS and MS degrees as a member of the Honors Course in Mechanical Engineering.^[2][4] He graduated in 1975 with a PhD from MIT with a thesis titled 'Improved thermal design of the cryogenic cooling system for a superconducting synchronous generator'. His advisor was Joseph L. Smith Jr.^[6]

Career[edit]

From 1976 to 1978 Bejan was a Miller research fellow in at the University of California Berkeley working with Chang-Lin Tien.^[4] In 1978 he moved to Colorado and joined the faculty of the Department of Mechanical Engineering at the University of Colorado in Boulder.^[7] In 1982 Bejan published his first book, Entropy Generation Through Heat and Fluid Flow. The book is aimed at practical applications of the second law of thermodynamics, and presented his ideas on irreversibility, availability and exergy analysis in a form for engineers.^[4] In 1984 he published Convection Heat Transfer'. In an era when researchers did heat transfer calculations using numerical methods on supercomputers, the book emphasized new research methods such as intersection of asymptotes, heatlines, and scale analysis to solve problems.^[4]

Bejan was appointed full professor at Duke University in 1984.^[7] In 1988 he published the first edition of his textbook Advanced Engineering Thermodynamics. The book combined thermodynamics theory with engineering heat transfer and fluid mechanics, and introduced entropy generation minimization as a method of optimization.^[4] In 1996 the ASME awarded him the Worcester Reed Warner Medal for 'originality, challenges to orthodoxy, and impact on thermodynamics and heat transfer, which were made through his first three books'.^[8]

In 1989 Bejan was appointed the J. A. Jones Distinguished Professor of Mechanical Engineering. In 1988 and 1989, his peers named two dimensionless groups Bejan number (Be), in two different fields: for the pressure difference group, in heat transfer by forced convection, and for the dimensionless ratio of fluid friction irreversibility divided by heat transfer irreversibility, in thermodynamics.^[2] From 1992 to 1996 he published four more books, Convection in Porous Media, Heat Transfer, Thermal Design and Optimization and Entropy Generation Minimization.^[4]

Constructal law[edit]

In 1995^[4] while reviewing entropy generation minimization for a symposium paper and writing another paper on the cooling of electronic components, Bejan formulated his self-described constructal law.^[9] Where electronic components are too small for convective cooling, they must be designed for efficient conduction. The paper provides a method for efficiently designing conductive paths, from smaller paths leading to larger ones. The similarity of the solution to the branching structures seen in multiple inanimate and living things led to his statement of what he calls a new law of nature: 'For a finite-size system to persist in time (to live), it must evolve in such a way that it provides easier access to the imposed (global) currents that flow through it.'^[9] To emphasize the coming together of paths he called the theory constructal from the Latin 'to build', in contrast with approaches using fractal geometry, from the Latin 'to break'.^[9]

Bejan incorporated his constructal law into the second edition of his textbook, Advanced Engineering Thermodynamics (1997).^[4] Since then he has concentrated on constructal law and its applications.^[4] In 2004, he published Porous and Complex Flow Structures in Modern Technologies.^[4] The same year, he and Sylvie Lorente were awarded the Edward F. Obert Award by the ASME for their paper 'Thermodynamic Formulation of the Constructal Law'^[2] In 2008 he published Design with Constructal Theory, a textbook for the course he developed with Lorente at Duke.^[10] In 2011 the American Society of Mechanical Engineers presented him with an honorary membership. He was cited for 'an extraordinary record of creative work, including the unification of thermodynamics and heat transfer; the conceptual development of design as a science that unites all fields; legendary contributions to engineering education; and, since 1996, the discovery and continued development of the constructal law.'^[7]

Bejan has also written books for the general audience. In 2012 he published Design in Nature: How the Constructal Law Governs Evolution in Biology, Technology, and Social Organization and 2016 The Physics of Life: The Evolution of Everything.^[1] He credits these books for his award of the Ralph Coats Roe Medal from the ASME in 2017.^[11] He was cited for 'permanent contributions to the public appreciation of the pivotal role of engineering in an advanced society through outstanding accomplishments as an engineering scientist and educator, renowned communicator and prolific writer'.^[12]

In November 2017 the Franklin Institute of Philadelphia announced that Bejan would be awarded the 2018 Benjamin Franklin Medal in Mechanical Engineering.^[13] He was cited for 'his pioneering interdisciplinary contributions in thermodynamics and convection heat transfer that have improved the performance of engineering systems, and for constructal theory, which predicts natural design and its evolution in engineering, scientific, and social systems.' ^[14]

On 27 June 2019, in Berlin, the Humboldt Foundation awarded Prof. Bejan the Humboldt Research Award for lifetime achievement. He was cited for “for his pioneering contributions to modern thermodynamics and “Constructal Law” – a law of physics that predicts natural design and its evolution in biology, geophysics, climate change, technology, social organization, evolutionary design and development, wealth and sustainability.”^[15]

Selected awards and honors[edit]

Technology & Industrial Arts

Bejan has received multiple awards and honorary degrees.^[2][16]

• Fellow of the American Society of Mechanical Engineers (ASME), elected October 1987
• Max Jakob Memorial Award (ASME and AIChE), 1999
• Ralph Coats Roe Award, American Society of Engineering Education (ASEE), 2000
• Honorary Member of the American Society of Mechanical Engineers, 2011
• Member of the Academy of Europe, elected 2013
• Ralph Coats Roe Medal, ASME, 2017
• Benjamin Franklin Medal, Franklin Institute, 2018
• Humboldt Research Award, Humboldt Foundation, 2019.

Selected publications[edit]

Articles

• Bejan, Adrian (1977). 'The Concept of Irreversibility in Heat Exchanger Design: Counterflow Heat Exchangers for Gas-to-Gas Applications'. Journal of Heat Transfer. 99 (3): 374. doi:10.1115/1.3450705. ISSN0022-1481.
• Bejan, Adrian (1979). 'A Study of Entropy Generation in Fundamental Convective Heat Transfer'. Journal of Heat Transfer. 101 (4): 718. doi:10.1115/1.3451063. ISSN0022-1481.
• Bejan, Adrian (1980). 'Second law analysis in heat transfer'. Energy. 5 (8–9): 720–732. doi:10.1016/0360-5442(80)90091-2. ISSN0360-5442.
• Bejan, Adrian; Khair, Khairy R. (1985). 'Heat and mass transfer by natural convection in a porous medium'. International Journal of Heat and Mass Transfer. 28 (5): 909–918. doi:10.1016/0017-9310(85)90272-8. ISSN0017-9310.
• Bejan, Adrian (1988). 'Theory of heat transfer-irreversible power plants'. International Journal of Heat and Mass Transfer. 31 (6): 1211–1219. doi:10.1016/0017-9310(88)90064-6. ISSN0017-9310.
• Bejan, Adrian 'Entropy Generation Minimization: The New Thermodynamics of Finite-Size Devices and Finite-Time Processes,' Journal of Applied Physics, Vol. 79, February 1, 1996, pp. 1191-1218.
• Bejan, Adrian (1997). 'Constructal-theory network of conducting paths for cooling a heat generating volume'. International Journal of Heat and Mass Transfer. 40 (4): 799–816. doi:10.1016/0017-9310(96)00175-5. ISSN0017-9310.
• Bejan, Adrian; Lorente, Sylvie (2004). 'The constructal law and the thermodynamics of flow systems with configuration'. International Journal of Heat and Mass Transfer. 47 (14–16): 3203–3214. doi:10.1016/j.ijheatmasstransfer.2004.02.007. ISSN0017-9310.
• Bejan, Adrian; Lorente, Sylvie (2006). 'Constructal theory of generation of configuration in nature and engineering'. Journal of Applied Physics. 100 (4): 041301. Bibcode:2006JAP..100d1301B. doi:10.1063/1.2221896. ISSN0021-8979.

Book chapter

• Bejan, Adrian (1982). 'Second-Law Analysis in Heat Transfer and Thermal Design'. In James P. Hartnett & Thomas F. Irvine, Jr. (ed.). Advances in Heat Transfer. 15. Academic Press. pp. 1–58. doi:10.1016/S0065-2717(08)70172-2. ISBN978-0-08-057569-8.

Books

• Bejan, Adrian (1982). Entropy Generation Through Heat and Fluid Flow. Wiley. ISBN978-0-471-09438-8.
• Bejan, Adrian (1984). Convection Heat Transfer. Wiley. ISBN978-0-471-89612-8., updated in 1995, 2004, and 2013: Bejan, Adrian (2013). Convection Heat Transfer (4th ed.). Wiley. ISBN978-0-470-90037-6.
• Bejan, Adrian (1988). Advanced Engineering Thermodynamics. Wiley. ISBN978-0-471-62241-3., updated in 1997, 2006, and 2016: Bejan, Adrian (2016). Advanced Engineering Thermodynamics (4th ed.). Wiley. ISBN978-1-119-05209-8.
• Nield, Donald A.; Adrian Bejan (1992). Convection in Porous Media. Springer. ISBN978-0387976518. OCLC817768465., updated in 1999, 2006, 2017: Nield, Donald A.; Adrian Bejan (2017). Convection in Porous Media (5th ed.). Springer. ISBN978-3-319-49562-0.
• Bejan, Adrian (1993). Heat Transfer. Wiley. ISBN978-0-471-50290-6.
• Bejan, Adrian (1995). Entropy Generation Minimization: The Method of Thermodynamic Optimization of Finite-Size Systems and Finite-Time Processes. CRC Press. ISBN978-0-8493-9651-9.
• Bejan, Adrian; George Tsatsaronis; Michael J. Moran (1996). Thermal Design and Optimization. Wiley. ISBN978-0-471-58467-4.
• Bejan, Adrian (2004). Porous and Complex Flow Structures in Modern Technologies. Springer. ISBN978-0-387-20225-9.
• Bejan, Adrian; Lorente, Sylvie (2008). Design with Constructal Theory. Wiley. ISBN978-0-471-99816-7.
• Bejan, Adrian; J. Peder Zane (2012). Design in Nature: How the Constructal Law Governs Evolution in Biology, Physics, Technology, and Social Organizations. Doubleday. ISBN978-0-385-53461-1.
• Bejan, Adrian (2016). The Physics of Life: The Evolution of Everything. St. Martin's Press. ISBN978-1-250-07882-7.

References[edit]

1. ^ ^abcLivni, Ephrat. 'Everything, including the growing income disparity, can be explained by physics'. Quartz. Quartz Media LLC. Retrieved 25 September 2017.
2. ^ ^abcde'Adrian Bejan - Duke Mechanical Engineering and Materials Science'. Duke University. Retrieved 11 December 2017.
3. ^Bejan, Adrian (24 May 2016). The Physics of Life: The Evolution of Everything. St. Martin's Press. ISBN1250078822.^{[permanent dead link]}
4. ^ ^{abcdefghijklmn}Lage, José L.; Anderson, Ren; Costa, Vitor; et al. (2008). 'Professor Adrian Bejan on his 60th birthday'. International Journal of Heat and Mass Transfer. 51 (25–26): 5759–5761. doi:10.1016/j.ijheatmasstransfer.2008.06.027. ISSN0017-9310.
5. ^Federatia Romana de Baschet, -. 'Adrian Bejan a realizat performanta in stiinta cu ajutorul baschetului!'. Federatia Romana de Baschet. Retrieved 1 August 2015.
6. ^Bejan, Adrian (1974). Improved thermal design of the cryogenic cooling system for a superconducting synchronous generator(PDF) (PhD). Massachusetts Institute of Technology.
7. ^ ^abc'Adrian Bejan Presented with ASME Honorary Membership' (Press release). The American Society of Mechanical Engineers. 21 November 2011. Retrieved 4 December 2017.
8. ^'Worcester Reed Warner Medal. American Society of Mechanical Engineers'. Scholars@Duke. Duke University. Retrieved 11 December 2017.
9. ^ ^abcBejan, Adrian (1997). 'Constructal-theory network of conducting paths for cooling a heat generating volume'. International Journal of Heat and Mass Transfer. 40 (4): 799–816. doi:10.1016/0017-9310(96)00175-5. ISSN0017-9310.
10. ^Bejan, Adrian; Sylvie Lorente (2008). Design with Constructal Theory. Wiley. p. xv. ISBN978-0-471-99816-7.
11. ^'Bejan Wins 2017 Ralph Coats Roe Medal' (Press release). Duke University. 20 September 2017. Retrieved 12 December 2017.
12. ^'Ralph Coats Roe Medal. American Society of Mechanical Engineers'. Scholars@Duke. Duke University. Retrieved 12 December 2017.
13. ^'Bejan Named 2018 Franklin Institute Award Laureate' (Press release). Duke University. 7 November 2017. Retrieved 12 December 2017.
14. ^'Adrian Bejan - The Franklin Institute'. The Franklin Institute. Retrieved 11 December 2017.
15. ^''Bejan Receives Humboldt Research Award for Lifetime Achievement' (Press release). Duke University. 1 March 2019'. 3 July 2019.
16. ^'Newsmakers'. American Society of Mechanical Engineers. Archived from the original on 12 December 2017. Retrieved 11 December 2017.Cite uses deprecated parameter deadurl= (help)

External links[edit]

• 'Adrian Bejan - Constructal Law'. Duke University.

Book Title : Heat Transfer Handbook
Author(s) : Adrian Bejan, Joseph H
Publisher : John Wiley
Edition : First
Pages : 1481
Size : 20 Mb

Book Description:
The Heat Transfer Handbook by the authors Adrian Bejan, Joseph H book provides succinct hard data, formulas and specifications for the critical aspects of heat transfer, offering a reliable, hands on resource for solving day-to-day issues across a variety of applications.

From the basics to the state of the art, this book is the complete single source handbook of need to know information in the industry. With today’s professionals in mind, thirty world-renowned experts contribute cutting edge concepts and applications, as well as insights into the current state of the field and the latest technologies.

For engineers and researchers, the Heat Transfer Handbook by Adrian Bejan, Joseph H is the fast and accurate solution to their everyday needs.

Table of Contents:
Preface
Contributors
1. Basic Concepts
2. Thermophysical Properties of Fluids and Materials
3. Conduction Heat Transfer
4. Thermal Spreading and Contact Resistances
5. Forced Convection: Internal Flows
6. Forced Convection: External Flows
7. Natural Convection
8. Thermal Radiation
9. Boiling
10. Condensation
11. Heat Exchangers
12. Experimental Methods
13. Heat Transfer in Electronic Equipment
14. Heat Transfer Enhancement
15. Porous Media
16. Heat Pipes
17. Heat Transfer in Manufacturing and Materials Processing
18. Microscale Heat Transfer
19. Direct Contact Heat Transfer
Author Index
Subject Index