About the Book
Please note that the content of this book primarily consists of articles available from Wikipedia or other free sources online. Pages: 150. Chapters: Phase changes, Thermodynamic cycles, Melting point, Distillation, Evaporation, Triple point, Diesel cycle, Azeotrope, Phase transition, Boiling, Adiabatic process, Phase diagram, Miller cycle, Condensation, Curie temperature, Eutectic system, Otto cycle, Gas, Crystallization, Homogeneous charge compression ignition, Sea surface temperature, Magnetic refrigeration, Cryobiology, Melting-point depression, Combined cycle, Vapor-compression refrigeration, Crystallization of polymers, Integrated gasification combined cycle, Mpemba effect, Rankine cycle, Carnot cycle, Recrystallization, Subcooling, Critical point, Pulse tube refrigerator, Stirling cycle, Brayton cycle, Freezing-point depression, Critical exponent, Polyamorphism, Ericsson cycle, Absorption refrigerator, Critical points of the elements, Supercooling, Atkinson cycle, Heat pump and refrigeration cycle, Isentropic process, Thermodynamic process, Organic Rankine Cycle, Diffusionless transformation, Critical dimension, Staged combustion cycle, Sublimation, Heteroazeotrope, Isobaric process, Cryogenic nitrogen plant, Superheating, Isothermal process, Cryogenic oxygen plant, Reversible process, Air separation, Polytropic process, Schreinemaker's analysis, Coffee ring, Isochoric process, Bordwell thermodynamic cycle, Pourbaix diagram, Lenoir cycle, Bak-Tang-Wiesenfeld sandpile, Tricritical point, Quasistatic process, List of boiling and freezing information of solvents, Mercury vapour turbine, Gas-generator cycle, Barton evaporation engine, Isenthalpic process, Liquidus, Pseudo Stirling cycle, Gas slug, Simon-Glatzel equation, Stoddard engine, Flash freezing, Sublimation apparatus, Critical opalescence, Cryophorus, Symplectite, Boiling chip, Bumping, Bubble point, Deposition, Johari-Goldstein relaxation, Critical radius, Lever rule, Isothermal transformation diagra...