of Part 2.- 8 Heat Exchangers in Cryocoolers.- Nomenclature.- Heat Exchangers in Cryocoolers.- Types of Heat Exchangers Used in Cryocoolers.- Recuperative Exchangers.- Tubular Exchanges.- Plate-Fin Exchangers.

- Perforated Plate Exchangers.- Fundamentals of Recuperative Theory.- Exchanger Effectiveness.- Design of Recuperative Heat Exchangers.- Maldistribution of Flow.- Axial Heat Conduction.- Friction Effects.- Transient Response of Heat Exchangers.

- Oscillatory Flow Systems.- Enhanced Heat Transfer Surfaces.- Regenerative Heat Exchangers.- Dynamic Regenerative Exchangers.- Static Regenerative Exchangers.- Common Theory for Static and Dynamic Types.- Advantages and Disadvantages of Regenerative.- Exchangers.

- A Low-Temperature Problem: The Regenerator Material.- Heat Capacity.- Heat Regenerator.- Hausen Regenerator.- Presentation of Performance Data: Reduced-Length-Reduced-Period Method.- NTU-Effectiveness Method.- Application of Theory to Regeneration in Stirling-Type Engines with Oscillatory Flow.- Regenerator Design for Stirling Engines.

- Experimental Performance.- Heat-Transfer and Fluid-Friction Characteristics of Dense-Mesh Wire Screens.- Regenerative Annulus.- Heat Pipe.- Heat Exchangers for Very Low Temperature.- References.- 9 Some Aspects of Design.- Target Definition.

- Reliability.- Coldfinger Design.- Conduction Heat Leakage.- Cooldown.- Regenerator.- Shuttle Heat Transfer.- Balancing.- Case 1: Single Revolving Mass.

- Case 2: Several Masses Revolving in the Same Plane.- Case 3: Several Masses Rotating in Several Planes.- Reciprocating Masses.- Partial Primary Balancing.- Secondary Inertia Forces.- Multiple Reciprocating Forces.- Design Guidelines for Engine Balancing.- Perfect Dynamic Balance.

- Bearings.- Fluid-Lubricated Bearings.- Oil or Gas Lubrication.- Grease-Lubricated Bearings.- Ball and Roller Bearings.- Gas Bearings.- Gas-Lubricated Pistons.- Gas Bearings on Shafts and Flat Surfaces.

- Dry-Rubbing Bearings.- Seals.- Static Seals.- Dynamic Seals.- Piston Side Thrust.- Hermetic Seals.- Close Tolerance Seals.- Materials.

- Significant Properties.- Mechanical Properties.- Physical Properties.- Fluorocarbons.- Closure.- Cooling.- Air Cooling.- Water Cooling.

- Spacecraft Radiative Cooling.- Electrial and Electronic Systems.- Drive Motors.- Brushless dc Motors.- Electric Controls.- References.- 10 Practical Problems in Cryocooler Design and Operation.- Comparison of Cryocooler Types.

- Integral Stirling.- Split Stirling.- Integral Vuilleumier (VM).- Split Vuilleumier.- Giflford-McMahon (GM).- Design Considerations and System Trade-OfTs.- Heat Rejection.- Microphonics.

- Thermophonics.- Special Problems Related to Cryocooler Operation.- Gas Contamination.- Helium Gas Retention.- Rubber O-Ring Seals.- Casting Leaks.- Metal Porosity.- Weld Joints.

- Seal Problems.- References.- 11 Fundamentals of Alternate Cooling Systems.- Thermodynamic Considerations.- Ideal Refrigeration Cycles.- Interaction of Force with System.- Entropies and Refrigeration Principles of Various Systems.- Helium-4 and CCl2F2.

- Other Gas-Liquid-Solid Systems.- Electron Systems.- Phonon Systems.- Other Solid Systems.- Magnetocaloric Systems.- Electrocaloric Systems.- Chemical Systems.- Mixtures.

- Photon Systems.- How Much Entropy is Enough?.- Alternate Means to Eliminating Mechanical Parts.- References.- 12 Very-Low-Temperature Cooling Systems.- He3 Refrigerators.- Properties of He3.- Single-Cycle He3 Refrigerators.

- Continuous He3 Refrigerators.- He3-He4 Dilution Refrigerators.- Properties of Liquid He3-He4 Mixtures.- Principles of Dilution Refrigerators.- Examples of Dilution Refrigerators.- Multiple Mixing Chambers.- He4 Circulating Dilution Refrigerators.- Pomeranchuk Cooling.

- Properties of He3 on the Melting Curve.- Examples of Pomeranchuk Cooling.- Magnetic Refrigerators.- Electron-Spin Systems.- Nuclear-Spin Systems.- Hyperfine Enhanced Nuclear-Spin Systems.- Combined Systems.- Dynamic Nuclear Polarization.

- References.- 13 Cryogenic Engineering and Cryocooler Development in the USSR.- Cryogenic Research Centers in the USSR.- Principal Cryogenic Publications in the USSR.- Properties of Substances at Low Temperatures.- Computing and Analyzing Cryogenic Processes and Cycles.- Entropy Method.- Exergy Method.

- Expanders and Stirling Engines.- Expansion Engines.- Turboexpanders.- Stirling Engines.- Heat Transfer Processes and Heat Exchangers.- Boiling of Cryogenic Liquids.- Convective Heat Transfers.- Heat Exchangers and Regenerators.

- Cryogenic Insulation.- Cryogenic Cooling Systems and Some Types of Cryogenic Equipment.- Helium Liquefiers and Cooling Systems.- Cryogenic Vessels and Associated Apparatus.- References.- 14 Cryogenic Engineering and Cryocooler Development in Japan.- Helium Liquefiers and Refrigerators.- Component Development.

- Dry Helium Compressor.- Reciprocating Expanders.- Final Liquefaction Process and Efficiency.- Instability in Forced Cooling Systems.- Superconducting Magnetic Levitation of Trains (Maglev).- Pulsed Refrigeration System.- Conceptual Design.- Appendix 14.

1.- References.- General Reading.- Government Reports.- Relevant Conferences.- Patents.- Appendix I Glossary of Terms for Cryocoolers and List of Organizations.- Appendix II Organizations Having Substantial Interest in Cryocoolers and Cryocooler Manufacturing.

- Organizations.- Manufacturers.- Appendix III Guide to the Cryogenic Engineering Literature Introduction.- Government Reports.- NTISearches.- Superintendent of Documents (SupDocs).- The Cryogenic Data Center.- Conference Proceedings.

- Foreign Government Sources.- Open Literature Sources.- Advances in Cryogenic Engineering.- Cryogenics.- International Cryogenic Engineering Conference.- Applications of Cryogenic Technology.- International Institute of Refrigeration.- Low-Temperature Physics.

- Books, Monographs, and Course Notes.- House Journals.- Name Index.