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Thermodynamics and Heat Exchangers

Thermodynamics and Heat Exchangers. Joe Lannan FDST 896 Independent Study Instructor: Dr. Georgianna Whipple. Thermodynamics. Energy: the capacity to do work or produce energy

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Thermodynamics and Heat Exchangers

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  1. Thermodynamics and Heat Exchangers Joe Lannan FDST 896 Independent Study Instructor: Dr. Georgianna Whipple

  2. Thermodynamics • Energy: the capacity to do work or produce energy • Law of conservation of energy: energy can be converted from one form to another but can be neither created or destroyed.

  3. Energy • System: part of the universe on which we focus on. • Surroundings: include everything else • Exothermic: energy flows out of the system • Endothermic: energy is absorbed from the surroundings. • Calorimeter: device used to measure heat energy flow.

  4. Laws • First law of thermodynamics: the energy of the universe is constant. • Internal energy (E): DE = q + w • q: represents heat and w represents work • q = SH ( specific heat) + m ( mass) + DT

  5. Laws continue • Second law of thermodynamics: in any spontaneous process, there is always an increase in the entropy of the universe. • Entropy measure the disorder of a system. • Nature favors disorder, look at your bedroom as an example.

  6. Heat transfer • Heat flow is always from hot objects to cold. • Example: touching a hot object, direction of energy flow? • Placing ice cubes in cold water, direction of energy flow?

  7. Heat exchangers • Used to transfer heat • Example: air conditionors, refrigerators, and cars • Describe the energy flow in each. • Energy (q) balance: q into cold = q out of hot = q across barrier

  8. Types of Heat Exchangers • Noncontact: • Plate: two liquids of different temperatures move past each other on alternating plates • Shell and tube: two liquids of different temperatures move past each other one inside a tube and the other in the shell around the tubes.

  9. Plate heat exchangers

  10. Shell and tube heat exchangers

  11. Food industry heat exchangers • Production of ice cream • Describe the energy flows • Describe the heating medium • Describe the cooling medium • Describe the barrier

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