Verfügbarkeit: Coabsorbent and thermal recovery compression heat pumping technologies

Coabsorbent and thermal recovery compression heat pumping technologies:

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Bibliographische Detailangaben
1. Verfasser:	Staicovici, Mihail-Dan (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Heidelberg [u.a.] Springer 2014
Schriftenreihe:	Heat and mass transfer
Schlagworte:	Betriebsverhalten Wärmepumpe Absorptionswärmepumpe Kompressionskältemaschine Kombinationsverfahren Thermodynamik Kompressionswärmepumpe Wärmeübertragung
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XXVI, 501, 9 S. Ill., graph. Darst.
ISBN:	3642546838 9783642546839

Internformat

MARC


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Datensatz im Suchindex

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adam_text	CONTENTS 1 INTRODUCTION 1 1.1 FIRST AND SECOND PRINCIPLES OF THERMODYNAMICS 1 1.1.1 IDEAL (PERFECT) GAS LAWS 2 1.1.2 IDEAL GAS STATE EQUATION 4 1.1.3 MIXTURES 4 1.1.4 SPECIFIC HEAT 5 1.1.5 FIRST PRINCIPLE OF THERMODYNAMICS (ROBERT MAYER 1842). 6 1.1.6 SECOND PRINCIPLE OF THERMODYNAMICS (SADI CAMOT 1824). 12 1.2 EXERGY AND ANERGY. HEAT EXERGY. EXERGY OF CLOSED SYSTEMS. EXERGY OF OPEN SYSTEMS. RELATIONSHIP BETWEEN EXERGY DISSIPATION AND ENTROPY CREATION. NON-EQUILIBRIUM LINEAR PHENOMENOLOGICAL CONNECTION BETWEEN GENERALIZED FORCES AND CURRENTS 24 1.2.1 HEAT EXERGY 24 1.2.2 EXERGY OF CLOSED SYSTEMS 27 1.2.3 EXERGY OF OPEN SYSTEMS. RELATIONSHIP BETWEEN EXERGY DISSIPATION AND ENTROPY CREATION 29 1.2.4 NON-EQUILIBRIUM LINEAR PHENOMENOLOGICAL CONNECTION BETWEEN GENERALIZED FORCES AND CURRENTS 33 1.3 EQUILIBRIUM OF THERMODYNAMIC SYSTEMS AND PHASE TRANSFORMATIONS 34 1.3.1 THERMODYNAMIC STABILITY AND EQUILIBRIUM 35 1.3.2 EQUILIBRIUM CONDITIONS OF A HOMOGENEOUS ISOLATED SYSTEM. TPT EQUILIBRIUM POINT AND STATIC EQUILIBRIUM . 38 1.3.3 PHASE EQUILIBRIUM CONDITIONS OF MONOCOMPONENT AND BINARY SYSTEMS. TPT IDEAL POINT AND DYNAMIC EQUILIBRIUM 40 1.3.4 PHASE TRANSFORMATIONS. GIBBS RULE OF PHASES 43 1.3.5 CLAPEYRON-CLAUSIUS EQUATION 45 1.4 ABSORPTION HEAT PUMPING SELECTED-TOPIC 46 1.4.1 ABSORPTION CYCLE INTRODUCTION 46 1.4.2 BASIC ABSORPTION CYCLES 49 1.4.3 IDEAL CYCLES 49 1.4.4 SELECTED TOPIC OF SOLUTIONS THERMODYNAMICS 53 1.4.5 CONDENSATION AND EVAPORATION OF BINARY MIXTURES 54 XI HTTP://D-NB.INFO/1047501619 XII CONTENTS 1.4.6 DISSOLUTION (MIXING) HEAT OF BINARY MIXTURES 57 1.4.7 ABSORPTION CYCLE CHARTS 63 1.4.8 WORKING FLUID-ABSORBENT MIXTURES MODEL 69 REFERENCES 80 2 MASS AND HEAT EXCHANGE ANALYSIS OF THE ABSORPTION PROCESSES: THE DIVIDED DEVICE METHOD 83 2.1 HEAT EXCHANGE ANALYSIS OF ISOBAR ABSORPTION PROCESSES WITH GLIDING TEMPERATURE 83 2.2 THE DIVIDED DEVICE METHOD FOR ISOBAR ABSORPTION PROCESSES HEAT EXCHANGE ASSESSMENT 88 REFERENCES 92 3 COABSORBENT CYCLES 93 3.1 INTRODUCTION 93 3.2 NONTRUNCATED HEATING AND COOLING COABSORBENT CYCLES 93 3.2.1 NONTRUNCATED COOLING COABSORBENT CYCLE 94 3.2.2 NONTRUNCATED HEATING (HEAT TRANSFORMER) COABSORBENT CYCLE 127 3.2.3 CYCLE CHANGE OF PLACE 130 3.2.4 NONTRUNCATED COABSORBENT-CONDENSING CYCLE 131 3.2.5 NON-ISOBAR NONTRUNCATED COABSORBENT CYCLES 134 REFERENCES 168 4 A FEW NEW COABSORBENT CYCLE CONFIGURATIONS: THE INTERNAL COMPOSITION AND THE COABSORBENT CYCLE TRUNCATION 171 4.1 BALANCE (FRACTAL) TRUNCATION OF THE COABSORBENT CYCLE 175 4.1.1 COOLING CYCLE 176 4.1.2 HEATING CYCLE 178 4.1.3 TRUNCATION THEORY 179 4.1.4 TRUNCATION COLUMNS, COMMON-COLUMN CYCLES, COLUMN CYCLES, REVERSE TRUNCATED CYCLES AND FRACTALS SYMBOLIC REPRESENTATION 187 4.2 MODEL OF COOLING AND HEATING TRUNCATED CYCLES 192 4.2.1 GAX USE IN "ACR" PROVIDED TRUNCATED COABSORBENT CYCLES. 195 4.2.2 MODEL RESULTS OF COOLING TRUNCATED COABSORBENT CYCLES.,. 220 4.2.3 MODEL RESULTS OF HEATING TRUNCATED COABSORBENT CYCLES. 227 4.2.4 AUXILIARY MECHANICAL WORK CONSUMPTION IN TRUNCATED CYCLES 232 4.3 HYBRID TRUNCATION OF THE COABSORBENT CYCLE 234 4.3.1 HYBRID SIMPLE TRUNCATED COOLING CYCLES 238 4.3.2 HYBRID SIMPLE TRUNCATED HEATING CYCLES 240 REFERENCES 247 CONTENTS XIII 5 EFFECTIVENESS OF COABSORBENT CYCLES AND CASCADES ACCORDING TO FIRST AND SECOND PRINCIPLES OF THERMODYNAMICS 249 5.1 COOLING FRACTAL (NONTRUNCATED CYCLE) COP 249 5.2 HEATING FRACTAL (NONTRUNCATED CYCLE) COP 250 5.3 TRUNCATED COOLING FRACTAL COP 252 5.4 TRUNCATED HEATING FRACTAL COP 253 5.5 HYBRID COOLING FRACTAL COP 255 5.6 HYBRID HEATING FRACTAL COP 258 5.7 COP OF HYBRID COOLING AND HEATING FRACTALS CASCADES - 261 5.7.1 DEEP COOLING CASCADE STUDY CASE 268 5.7.2 COLD REGION HEATING CASCADE STUDY CASE 269 REFERENCES 269 6 EXTERNAL COABSORBENT CYCLE COMPOSITION 271 6.1 THE PRESSURE-STAGES MULTI-EFFECT COABSORBENT COOLING CYCLE (PSMECCC) THERMAL ANALYSIS 271 6.1.1 BASIC LEMMA OF THE PRESSURE-STAGES MULTI-EFFECT COABSORBENT COOLING CYCLE (PSMECCC) COMPUTATION . 274 6.1.2 CARNOT COP THEOREM OF THE PRESSURE-STAGES MULTI-EFFECT COABSORBENT COOLING CYCLE (PSMECCC) 277 6.2 USE ANALYSIS OF WATER-LITHIUM BROMIDE PRESSURE-STAGES MULTI-EFFECT COABSORBENT CYCLE (PSMECCC) IN AIR CONDITIONING. 282 6.2.1 STRUCTURE AND HEAT EXCHANGE ANALYSIS OF PSMECCC 283 6.2.2 PSMECCC-CLASSIC AIR CONDITIONING SYSTEM LINK 285 6.2.3 PSMECCC (HEAT SOURCE) ENERGY SAVINGS IN AIR CONDITIONING 291 REFERENCES 297 \ 7 COABSORBENT CYCLES EXERGY EVALUATION 299 7.1 SIMPLE ALGORITHM OF THE HEAT PUMPING SUPPLIED IN COGENERATION. 301 7.1.1 STEAM RANKINE CYCLE-COABSORBENT HEAT PUMP LINK 303 7.1.2 STEAM RANKINE CYCLE-COABSORBENT COOLING CYCLE LINK. 304 7.2 EXERGY EFFICIENCY ALGORITHM OF COABSORBENT COOLING CYCLES 305 7.2.1 EXERGY EFFICIENCY RESULTS OF COABSORBENT AND MVC COOLING CYCLES 312 7.3 EXERGY EFFICIENCY ALGORITHM OF COABSORBENT HEATING CYCLES 316 7.3.1 EXERGY EFFICIENCY RESULTS OF COABSORBENT AND MECHANICAL VAPOR COMPRESSION HEATING CYCLES 319 7.4 COGENERATION AND TRIGENERATION EXERGY EFFICIENCY ALGORITHM OF COABSORBENT COOLING AND HEATING CYCLES 321 REFERENCES 325 XIV CONTENTS 8 A THERMODYNAMIC APPROACH OF MECHANICAL VAPOR COMPRESSION REFRIGERATION AND HEATING COP INCREASE 327 8.1 INTRODUCTION 327 8.2 METHODS OF INCREASING THE REFRIGERATION EFFECTIVENESS AND THEIRS IDEAL THERMODYNAMIC LIMITS 329 8.2.1 TWRC METHOD 329 8.2.2 TTRC METHOD 338 8.3 REFRIGERATION CYCLES PROVIDED WITH TWRC 340 8.3.1 TWRC (SSRC, CWF) 340 8.3.2 TWRC (SSRC, CWF, CSTSGS) 342 8.3.3 TWRC (SSRC) 342 8.3.4 TWRC (TSRC, CWF, CSTSGS) 343 8.3.5 TWRC (THSRC, CWF, CSTSGS) AND TWRC (MSRC, CWF, CSTSGS) 345 8.3.6 AIR LIQUEFACTION AND SEPARATION CYCLES PROVIDED WITH TWRC 346 8.4 RESULTS OF REFRIGERATION CYCLES PROVIDED WITH TWRC 347 8.4.1 TWRC (SSRC, CWF), TWRC (SSRC, CWF, CSTSGS) . 349 8.4.2 TWRC (SSRC) 350 8.4.3 TWRC (TSRC, CWF, CSTSGS) 351 8.4.4 TWRC (THSRC, CWF, CSTSGS) 352 8.5 FURTHER RESULTS CONCERNING TWRC FEASIBILITY 352 8.6 REFRIGERATION CYCLES PROVIDED WITH TTRC 360 8.7 TWRC AND TTRC HEAT PUMPING THEORY AND RECENT RESULTS 361 8.7.1 TWRC AND TTRC HEAT PUMPING THEORY 361 8.7.2 TWRC AND TTRC HEAT PUMPING RECENT RESULTS 370 REFERENCES 381 9 A NON-EQUILIBRIUM PHENOMENOLOGICAL TWO-POINT THEORY OF MASS AND HEAT TRANSFER IN PHYSICAL AND CHEMICAL INTERACTIONS 383 9.1 APPLICATION TO NH 3 -H 2 0 AND OTHER WORKING SYSTEMS 383 9.1.1 A NON-EQUILIBRIUM PHENOMENOLOGICAL APPROACH OF THE COUPLED MASS AND HEAT TRANSFER IN PHYSICAL MONO-, BI- AND PARTICULAR POLYCOMPONENT GAS-LIQUID INTERACTIONS 385 9.1.2 A NON-EQUILIBRIUM PHENOMENOLOGICAL APPROACH OF THE COUPLED MASS AND HEAT TRANSFER IN CHEMICAL INTERACTIONS. 393 9.2 NON-EQUILIBRIUM PHENOMENOLOGICAL THEORY APPLICATIONS. CASE STUDIES OF NH 3 -H 2 0, NH 3 , H 2 0 AND OTHER WORKING PAIRS GAS-LIQUID INTERACTIONS. CASE STUDY OF A CHEMICAL INTERACTION FORCE 396 9.3 NON-EQUILIBRIUM (NATURAL) AND EQUILIBRIUM (IDEAL) THERMODYNAMICAL FORCES 405 9.4 MODELING OF THE NHJ-H 2 0 BUBBLE ABSORPTION, ANALYTICAL STUDY OF ABSORPTION AND EXPERIMENTS 409 CONTENTS XV 9.4.1 MODEL OF THE BUBBLE ABSORPTION APPLYING THE PHHGD TOOL. 409 9.4.2 ANALYTICAL STUDY OF NH 3 -H 2 0 ABSORPTION 419 9.4.3 EXPERIMENTAL 422 9.5 A NON-EQUILIBRIUM PHENOMENOLOGICAL (TWO-POINT) THEORY OF MASS AND HEAT TRANSFER: FORCES, SYSTEM-SOURCE INTERACTIONS AND THERMODYNAMIC CYCLE APPLICATIONS 422 9.5.1 NATURAL FORCES OF THE COUPLED AND NON-COUPLED MASS AND HEAT TRANSFER 424 9.5.2 SYSTEM-SOURCE INTERACTIONS 432 9.5.3 PHENOMENOLOGICAL COEFFICIENTS OF MIXED TRANSFER AND THE THEOREM CONCERNING THE MAXIMIZATION THEREOF . 437 9.5.4 APPLICATION OF TPT TO THE THERMODYNAMIC CYCLES 441 REFERENCES 453 10 A NEW WORDING OF THE LAPLACE EQUATION: VARIATIONAL NUMERICAL AND ANALYTICAL APPROACH OF THE LIQUID CAPILLARY RISE EFFECT 457 10.1 INTRODUCTION 457 10.2 A NEW WORDING OF THE LAPLACE EQUATION 457 10.3 VARIATIONAL NUMERICAL APPROACH 460 10.4 ANALYTICAL APPROACH 463 REFERENCES 467 11 MARANGONI CONVECTION BASIC MECHANISM EXPLANATION, PSEUDO-MARANGONI CELLS MODEL AND ABSORPTION-DESORPTION MASS AND HEAT EXCHANGERS MODEL APPLICATION 469 11.1 INTRODUCTION 469 11.2 TRUE MARANGONI EFFECT MECHANISM 469 11.3 PSEUDO-MARANGONI AMMONIA-WATER CELL MODELING 474 11.4 PSEUDO-MARANGONI AMMONIA-WATER CELL MODELING RESULTS 478 11.5 PSEUDO-MARANGONI WATER-LITHIUMBROMIDE CELL MODELING AND MODELING RESULTS 484 11.5.1 TPT APPLICATION TO THE WATER-LITHIUMBROMIDE CASE . 484 11.5.2 PSEUDO-MARANGONI WATER-LITHIUMBROMIDE CELL MODELING 487 11.5.3 PSEUDO-MARANGONI WATER-LITHIUMBROMIDE CELL MODELING RESULTS 489 11.6 INCLINED SURFACE MARANGONI CONVECTION CELL EVALUATION. AMMONIA-WATER ABSORPTION-DESORPTION MASS AND HEAT EXCHANGERS TPT MODEL APPLICATION 493 11.6.1 INTRODUCTION 493 11.6.2 MARANGONI-GRAVITY FORCES DIMENSIONLESS CRITERION 494 11.6.3 PROPOSED MASS AND HEAT EXCHANGER 495 11.6.4 MASS AND HEAT EXCHANGE MODEL 496 11.6.5 MODEL RESULTS 497 REFERENCES 499
any_adam_object	1
author	Staicovici, Mihail-Dan
author_facet	Staicovici, Mihail-Dan
author_role	aut
author_sort	Staicovici, Mihail-Dan
author_variant	m d s mds
building	Verbundindex
bvnumber	BV042051355
classification_rvk	ZP 3280
ctrlnum	(OCoLC)870913214 (DE-599)DNB1047501619
dewey-full	621.4025
dewey-hundreds	600 - Technology (Applied sciences)
dewey-ones	621 - Applied physics
dewey-raw	621.4025
dewey-search	621.4025
dewey-sort	3621.4025
dewey-tens	620 - Engineering and allied operations
discipline	Maschinenbau / Maschinenwesen Energietechnik
format	Book
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id	DE-604.BV042051355
illustrated	Illustrated
indexdate	2024-09-10T01:23:12Z
institution	BVB
isbn	3642546838 9783642546839
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-027492434
oclc_num	870913214
open_access_boolean
owner	DE-29T DE-703 DE-83
owner_facet	DE-29T DE-703 DE-83
physical	XXVI, 501, 9 S. Ill., graph. Darst.
publishDate	2014
publishDateSearch	2014
publishDateSort	2014
publisher	Springer
record_format	marc
series2	Heat and mass transfer
spelling	Staicovici, Mihail-Dan Verfasser aut Coabsorbent and thermal recovery compression heat pumping technologies Mihail-Dan Staicovici Heidelberg [u.a.] Springer 2014 XXVI, 501, 9 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Heat and mass transfer Betriebsverhalten (DE-588)4138142-7 gnd rswk-swf Wärmepumpe (DE-588)4064195-8 gnd rswk-swf Absorptionswärmepumpe (DE-588)4139315-6 gnd rswk-swf Kompressionskältemaschine (DE-588)4133942-3 gnd rswk-swf Kombinationsverfahren (DE-588)4533702-0 gnd rswk-swf Thermodynamik (DE-588)4059827-5 gnd rswk-swf Kompressionswärmepumpe (DE-588)4164922-9 gnd rswk-swf Wärmeübertragung (DE-588)4064211-2 gnd rswk-swf Kompressionswärmepumpe (DE-588)4164922-9 s Kompressionskältemaschine (DE-588)4133942-3 s Absorptionswärmepumpe (DE-588)4139315-6 s Kombinationsverfahren (DE-588)4533702-0 s Thermodynamik (DE-588)4059827-5 s Wärmeübertragung (DE-588)4064211-2 s Betriebsverhalten (DE-588)4138142-7 s DE-604 Wärmepumpe (DE-588)4064195-8 s Erscheint auch als Online-Ausgabe 978-3-642-54684-6 text/html http://deposit.dnb.de/cgi-bin/dokserv?id=4593976&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027492434&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Staicovici, Mihail-Dan Coabsorbent and thermal recovery compression heat pumping technologies Betriebsverhalten (DE-588)4138142-7 gnd Wärmepumpe (DE-588)4064195-8 gnd Absorptionswärmepumpe (DE-588)4139315-6 gnd Kompressionskältemaschine (DE-588)4133942-3 gnd Kombinationsverfahren (DE-588)4533702-0 gnd Thermodynamik (DE-588)4059827-5 gnd Kompressionswärmepumpe (DE-588)4164922-9 gnd Wärmeübertragung (DE-588)4064211-2 gnd
subject_GND	(DE-588)4138142-7 (DE-588)4064195-8 (DE-588)4139315-6 (DE-588)4133942-3 (DE-588)4533702-0 (DE-588)4059827-5 (DE-588)4164922-9 (DE-588)4064211-2
title	Coabsorbent and thermal recovery compression heat pumping technologies
title_auth	Coabsorbent and thermal recovery compression heat pumping technologies
title_exact_search	Coabsorbent and thermal recovery compression heat pumping technologies
title_full	Coabsorbent and thermal recovery compression heat pumping technologies Mihail-Dan Staicovici
title_fullStr	Coabsorbent and thermal recovery compression heat pumping technologies Mihail-Dan Staicovici
title_full_unstemmed	Coabsorbent and thermal recovery compression heat pumping technologies Mihail-Dan Staicovici
title_short	Coabsorbent and thermal recovery compression heat pumping technologies
title_sort	coabsorbent and thermal recovery compression heat pumping technologies
topic	Betriebsverhalten (DE-588)4138142-7 gnd Wärmepumpe (DE-588)4064195-8 gnd Absorptionswärmepumpe (DE-588)4139315-6 gnd Kompressionskältemaschine (DE-588)4133942-3 gnd Kombinationsverfahren (DE-588)4533702-0 gnd Thermodynamik (DE-588)4059827-5 gnd Kompressionswärmepumpe (DE-588)4164922-9 gnd Wärmeübertragung (DE-588)4064211-2 gnd
topic_facet	Betriebsverhalten Wärmepumpe Absorptionswärmepumpe Kompressionskältemaschine Kombinationsverfahren Thermodynamik Kompressionswärmepumpe Wärmeübertragung
url	http://deposit.dnb.de/cgi-bin/dokserv?id=4593976&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027492434&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT staicovicimihaildan coabsorbentandthermalrecoverycompressionheatpumpingtechnologies

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