1. Objectives Solve examples Learn about refrigerants, compressors, and expansion valves (Ch. 4) Compare residential and commercial systems Introduce heat exchangers (ch.11) Next two weeks

2. Example 1 R-22 condensing temp of 30 °C and evaporating temp of 0°C Determine a) q carnot w carnot b) COP carnot c) η R

3. Example 2 R-22 condensing temp of 60 °C and evaporating temp of 0°C Determine the η R

4. Example 3 Two stage compressor R-22 condensing temp of 60 °C Evaporating temp of compressor A 30°C and for compressor B 0°C. Determine the η R Assume that condenser temperature for compressor B is the same like evaporation temperature of compressor A

5. Systems: residential Indoor Air Outdoor Air

6. System components Large building system Plate heat exchanger Water form cooling tower Water to cooling tower 6oC6oC11 o C Water to building Water from building 25 o C 35 o C

7. Chiller

8. Compressors

9. Compressor Workhorse of the system Several types – all compress gas with varying degrees of efficiency Far from isentropic (our assumption earlier) W shaft = work done by shaft W elec = electric power requirements

10. Reciprocating compressor

11. Reciprocating Compressor Figures 4.4, 4.6

12. Reciprocating Piston compressing volume PV n = constant = C For all stages, if we assume no heat transfer Can measure n, but dependent on many factors Often use isentropic n in absence of better values R-12 n =1.07 R-22 n = 1.12 R-717 n = 1.29

13. Rotary Compressors Higher efficiency, lower noise and vibration Cylinder rotating eccentrically in side housing

14. Rotary Compressor

15. Scroll Compressors One scroll is fixed The other scroll “wobbles” inside compressing refrigerant Often requires heat transfer from refrigerant to cool scrolls

16. Scroll compressor »http://www.youtube.com/watch?v=f_6xolDoqs0http://www.youtube.com/watch?v=f_6xolDoqs0

17. Scroll Compressors Constant displacement Higher efficiency, but harder to manufacture Close tolerance between scrolls Ugly to analyze – see text for details

18. Screw compressor »http://www.youtube.com/watch?v=xO7IhhzImMU&feature=relatedhttp://www.youtube.com/watch?v=xO7IhhzImMU&feature=related

19. Screw Compressors Rotating meshed screws One or two screws

20. Summary Many compressors available ASHRAE Handbook is good source of more detailed information Very large industry

21. Expansion Valves Throttles the refrigerant from condenser temperature to evaporator temperature Connected to evaporator superheat Increased compressor power consumption Decreased pumping capacity Increased discharge temperature Can do it with a fixed orifice (pressure reducing device), but does not guarantee evaporator pressure

22. Thermostatic Expansion Valve (TXV) Variable refrigerant flow to maintain desired superheat

23. AEV Maintains constant evaporator pressure by increasing flow as load decreases

24. Summary Expansion valves make a big difference in refrigeration system performance Trade-offs Cost, refrigerant amount Complexity/moving parts

25. Refrigerants

26. What are desirable properties of refrigerants? Pressure and boiling point Critical temperature Latent heat of vaporization Heat transfer properties Viscosity Stability

27. In Addition…. Toxicity Flammability Ozone-depletion Greenhouse potential Cost Leak detection Oil solubility Water solubility

28. Refrigerants What does R-12 mean? ASHRAE classifications From right to left ← # fluorine atoms # hydrogen atoms +1 # C atoms – 1 (omit if zero) # C=C double bonds (omit if zero) B at end means bromine instead of chlorine a or b at end means different isomer

30. Refrigerant Conventions Mixtures show mass fractions Zeotropic mixtures Change composition/saturation temperature as they change phase at a constant pressure Azeotropic mixtures Behaves as a monolithic substance Composition stays same as phase changes

31. Inorganic Refrigerants Ammonia (R717) Boiling point? Critical temp = 271 °F Freezing temp = -108 °F Latent heat of vaporization? Small compressors Excellent heat transfer capabilities Not particularly flammable But…

32. Carbon Dioxide (R744) Cheap, non-toxic, non-flammable Critical temp? Huge operating pressures

33. Water (R718) Two main disadvantages? ASHRAE Handbook of Fundamentals Ch. 20

34. Water in refrigerant Water + Halocarbon Refrigerant = (strong) acids or bases Corrosion Solubility Free water freezes on expansion valves Use a dryer (desiccant) Keep the system dry during installation/maintenance

35. Oil Miscible refrigerants High enough velocity to limit deposition Especially in evaporator Immiscible refrigerants Use a separator to keep oil contained in compressor Intermediate

36. The Moral of the Story No ideal refrigerants Always compromising on one or more criteria

37. HW3 Five problems: 1) Book: 3.1, 2) Book: 3.5, 3) Solve 3. 5 for ammonia, 4) Same like 3.5 for R22 with no intercooler 5) Finish example problem 3 (two cycle and two compressors) for ammonia. Deadline: 03/11 in class.