03235nam 2200613Ia 450 991081452810332120240410013454.01-280-50067-097866105006731-4237-2108-X1-904602-33-9(CKB)1000000000001755(EBL)203382(OCoLC)437063568(SSID)ssj0000130399(PQKBManifestationID)11144390(PQKBTitleCode)TC0000130399(PQKBWorkID)10080652(PQKB)10411913(MiAaPQ)EBC203382(Au-PeEL)EBL203382(CaPaEBR)ebr10064611(CaONFJC)MIL50067(EXLCZ)99100000000000175520010215d2001 uy 0engur|n|---|||||txtccrCool thermodynamics[electronic resource] the engineering and physics of predictive, diagnostic and optimization methods for cooling systems /Jeffrey M. Gordon and Kim Choon NgCambridge, UK Cambridge International Science Publishing20011 online resource (276 p.)Description based upon print version of record.1-898326-90-8 Contents; Preface; NOMENCLATURE; CONVERSION TABLE; 1. WHAT THE BOOK HAS TO OFFER AND THE INTENDED AUDIENCES: MODELING, DIAGNOSING AND OPTIMIZING COOLING DEVICES; 2. THERMODYNAMIC AND OPERATIONAL FUNDAMENTALS; 3. STANDARDS, MEASUREMENTS AND EXPERIMENTAL TEST FACILITIES FOR CHILLERS AND HEAT PUMPS; 4. ENTROPY PRODUCTION, PROCESS AVERAGE TEMPERATURE AND CHILLER PERFORMANCE: TRANSLATING IRREVERSIBILITIES INTO MEASURABLE VARIABLES; 5. THE FUNDAMENTAL CHILLER MODEL IN TERMS OF READILY-MEASURABLE VARIABLES6. EXPERIMENTAL VALIDATION OF THE FUNDAMENTAL MODEL AND OPTIMIZATION CASE STUDIES FOR RECIPROCATING CHILLERS7. FINITE-TIME THERMODYNAMIC OPTIMIZATION OF REAL CHILLERS; 8. COOLANT FLOW RATE AS A CONTROL VARIABLE; 9. OPTIMIZATION OF ABSORPTION SYSTEMS; 10. QUASI-EMPIRICAL THERMODYNAMIC MODEL FOR CHILLERS; 11. THE INADEQUACY OF ENDOREVERSIBLE MODELS; 12. HEAT EXCHANGER INTERNAL DISSIPATION IN CHILLER ANALYSIS AND THE ESSENTIAL ROLE OF ACCURATE PROCESS AVERAGE TEMPERATURES; 13. TEMPERATURE-ENTROPY DIAGRAMS FOR REPRESENTING REAL IRREVERSIBLE CHILLERS; 14. CAVEATS AND CHALLENGES; REFERENCES; IndexThis book is geared toward those interested in the engineering and physics of air-conditioning and refrigeration devices (chillers). Analytic thermodynamic models are developed for a wide variety of cooling systems and a broad range of operating conditions. These models are easily implemented in the field or laboratory.RefrigerantsThermal propertiesHeat pumpsThermodynamicsRefrigerantsThermal properties.Heat pumps.Thermodynamics.697Gordon Jeffrey M291872Ng Kim Choon1697912MiAaPQMiAaPQMiAaPQBOOK9910814528103321Cool thermodynamics4078983UNINA