By David P. DeWitt, Frank P. Incropera, Theodore L. Bergman, Adrienne S. Lavine
Thoroughly up to date, the 7th variation presents engineers with an in-depth examine the most important suggestions within the box. It comprises new discussions on rising parts of warmth move, discussing applied sciences which are concerning nanotechnology, biomedical engineering and substitute strength. the instance difficulties also are up-to-date to higher express easy methods to observe the fabric. And as engineers stick with the rigorous and systematic problem-solving method, they’ll achieve an appreciation for the richness and wonder of the self-discipline.
Read Online or Download Fundamentals of Heat and Mass Transfer PDF
Similar thermodynamics books
30 tables and 102 illustrations
The philosophy of the textual content is predicated at the improvement of an inductive method of the formula and resolution of utilized difficulties. Explores the main that warmth move rests on, yet is going past, thermodynamics. excellent as an creation to engineering warmth move.
Technique warmth move principles of Thumb investigates the layout and implementation of commercial warmth exchangers. It offers the history had to comprehend and grasp the economic software program applications utilized by expert engineers for layout and research of warmth exchangers. This publication makes a speciality of the categories of warmth exchangers most generally utilized by undefined, specifically shell-and-tube exchangers (including condensers, reboilers and vaporizers), air-cooled warmth exchangers and double-pipe (hairpin) exchangers.
Content material: bankruptcy 1 ailment or Uncertainty? (pages 1–3): bankruptcy 2 Classical Thermodynamics (pages 5–36): bankruptcy three purposes of Classical Thermodynamics (pages 37–63): bankruptcy four middle rules of Statistical Thermodynamics (pages 65–79): bankruptcy five Statistical Thermodynamics of a process of Harmonic Oscillators (pages 81–93): bankruptcy 6 The Boltzmann issue and the Canonical Partition functionality (pages 95–110): bankruptcy 7 The Grand Canonical Ensemble and Grand Partition functionality (pages 111–117): bankruptcy eight Statistical types of Entropy (pages 119–135): bankruptcy nine Statistical Thermodynamics of the Classical excellent gasoline (pages 137–149): bankruptcy 10 Quantum Gases (pages 151–154): bankruptcy eleven Boson fuel (pages 155–167): bankruptcy 12 Fermion gasoline (pages 169–185): bankruptcy thirteen Photon gasoline (pages 187–199): bankruptcy 14 Statistical Thermodynamics of Interacting debris (pages 201–211): bankruptcy 15 Thermodynamics clear of Equilibrium (pages 213–223): bankruptcy sixteen The Dynamics of chance (pages 225–239): bankruptcy 17 Fluctuation family (pages 241–253): bankruptcy 18 ultimate feedback (pages 255–259):
- Thermal Design: Heat Sinks, Thermoelectrics, Heat Pipes, Compact Heat Exchangers, and Solar Cells
- Maxwell's Demon: Entropy, Information, Computing
- Cryogenic Technology and Applications
- Introduction to Statistical Physics
- Thermodynamics of Small Systems
Extra info for Fundamentals of Heat and Mass Transfer
A typical rate of metabolic heat generation is 100 W. If the person stayed in the water too long, the core body temperature would begin to fall. The large heat loss in water is due to the higher heat transfer coefficient, which in turn is due to the much larger thermal conductivity of water compared to air. 4. The skin temperature of 34ЊC in part 1 is comfortable, but the skin temperature of 28ЊC in part 2 is uncomfortably cold. 13. The application of these balances is simplified if a few basic rules are followed.
3. A typical rate of metabolic heat generation is 100 W. If the person stayed in the water too long, the core body temperature would begin to fall. The large heat loss in water is due to the higher heat transfer coefficient, which in turn is due to the much larger thermal conductivity of water compared to air. 4. The skin temperature of 34ЊC in part 1 is comfortable, but the skin temperature of 28ЊC in part 2 is uncomfortably cold. 13. The application of these balances is simplified if a few basic rules are followed.
Hence, if one wished to operate at a larger current while maintaining the rod temperature within the safety limit, the convection coefficient would have to be increased by increasing the velocity of the circulating air. 1 A. 4. The IHT software is especially useful for solving equations, such as the energy balance in Comment 1, and generating the graphical results of Comment 2. 5 A hydrogen-air Proton Exchange Membrane (PEM) fuel cell is illustrated below. It consists of an electrolytic membrane sandwiched between porous cathode and anode materials, forming a very thin, three-layer membrane electrode assembly (MEA).
Fundamentals of Heat and Mass Transfer by David P. DeWitt, Frank P. Incropera, Theodore L. Bergman, Adrienne S. Lavine