Process centrifugal compressors: basics, function, operation, design, application
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2004
|
| Schriftenreihe: | Engineering online library
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XVII, 328 S. graph. Darst. |
| ISBN: | 3540404279 |
Internformat
MARC
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| 245 | 1 | 0 | |a Process centrifugal compressors |b basics, function, operation, design, application |c Klaus H. Lüdtke |
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 2004 | |
| 300 | |a XVII, 328 S. |b graph. Darst. | ||
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Datensatz im Suchindex
| _version_ | 1804130538220421120 |
|---|---|
| adam_text | CONTENTS 1 BASIC COMPRESSOR AERO-THERMODYNAMICS
...................................................... 1 1.1 THE
BEGINNINGS OF
TURBOMACHINERY............................................................
1 1.1.1 PROCESS CENTRIFUGAL COMPRESSOR
.......................................................... 1 1.1.2
TURBOCHARGER........................................................................................
2 1.1.3 CENTRIFUGAL REFRIGERATION MACHINE
...................................................... 2 1.1.4 TURBOJET
AIRCRAFT
ENGINE......................................................................
2 1.1.5 AXIAL COMPRESSOR
................................................................................
5 1.1.6 STEAM
TURBINE......................................................................................
5 1.1.7 STATIONARY GAS TURBINE
........................................................................
6 1.1.8 CENTRIFUGAL PUMP
.................................................................................
6 1.1.9 ROCKET
ENGINE......................................................................................
6 1.2
PROCESSES......................................................................................................
8 1.3 DEFINITIONS AND
TERMINOLOGY.....................................................................
12 1.3.1 COMPRESSOR
........................................................................................
12 1.3.2 IMPELLER, STAGE, SECTION
..................................................................... 13
1.4 METHOD OF PRESENTING
EQUATIONS................................................................
14 1.5 THE FIRST LAW OF THERMODYNAMICS
........................................................... 16 1.6
REFERENCE COMPRESSION
PROCESSES.............................................................
18 1.6.1 HEAT IN THE TEMPERATURE*ENTROPY DIAGRAM
....................................... 18 1.6.2 ENTHALPY DIFFERENCE IN
THE TEMPERATURE*ENTROPY DIAGRAM .............. 19 1.6.3 WORK IN
REFERENCE
PROCESSES.............................................................
20 1.6.4 APPLICATION OF REFERENCE WORK
......................................................... 25 1.6.5
HEAD/EFFICIENCY, PRACTICAL FORMULAE, PERFECT GAS BEHAVIOR .............
25 1.7 THE EULER TURBOMACHINERY EQUATION
........................................................ 30 1.7.1 CHANGE
OF STATE IN THE MOLLIER DIAGRAM
............................................ 32 1.8 VELOCITY TRIANGLES
.....................................................................................
33 1.8.1 INLET TRIANGLES
....................................................................................
35 1.8.2 EXIT
TRIANGLES.....................................................................................
35 1.9 LAWS OF ENERGY TRANSFER, SUMMARY OF
INFERENCES.................................... 36 1.10 COMPRESSOR
CHARACTERISTICS AND THEIR SIGNIFICANCE .................................
37 1.10.1 FLOW COEFFICIENT
..............................................................................
37 1.10.2 POLYTROPIC HEAD
COEFFICIENT.............................................................
40 1.10.3 WORK INPUT
FACTOR............................................................................
40 1.10.4 POLYTROPIC EFFICIENCY
.......................................................................
40 1.10.5 MACHINE MACH NUMBER (TIP SPEED MACH
NUMBER)........................ 41 1.10.6 MACHINE REYNOLDS
NUMBER.............................................................. 43
1.10.7 SPECIFIC
SPEED..................................................................................
44 REFERENCES
.......................................................................................................
44 XIV CONTENTS 2 THERMODYNAMICS OF REAL
GASES......................................................................
47 2.1 GAS
THERMODYNAMICS................................................................................
48 2.1.1 POLYTROPIC AND ISENTROPIC EXPONENTS
................................................ 48 2.1.2 SUMMARY OF
FORMULAE FOR HEAD AND DISCHARGE TEMPERATURE ........... 54 2.2 REAL-GAS
EQUATIONS OF
STATE......................................................................
58 2.2.1 BWRS EQUATION OF
STATE....................................................................
59 2.2.2 RKS EQUATION OF STATE
.......................................................................
61 2.2.3 LKP EQUATION OF STATE
.......................................................................
61 2.2.4 PR EQUATION OF
STATE..........................................................................
62 2.2.5 COMPUTATION OF ISENTROPIC
EXPONENTS................................................ 63 2.2.6
RECOMMENDATIONS FOR THE USE OF REAL-GAS EQUATIONS ......................
66 2.3 HANDY FORMULAE FOR HUMID
GASES............................................................ 66
2.3.1 RELATIVE HUMIDITY, VOLUME FRACTION, HUMID MOLAR
MASS................ 66 2.3.2 ABSOLUTE WATER CONTENT, HUMID MASS, VOLUME
FLOW....................... 67 2.3.3 CALCULATION OF SATURATION
PRESSURE..................................................... 68 2.3.4
CALCULATION OF DEW
POINT...................................................................
68 REFERENCES
.......................................................................................................
69 3 AERO COMPONENTS * FUNCTION AND FEATURES
.................................................. 71 3.1 IMPELLER
.....................................................................................................
71 3.1.1 CENTRIFUGAL IMPELLER TYPES
................................................................ 71
3.1.2 THE SHROUDED 2D-IMPELLER
................................................................ 72
3.1.3 THE SHROUDED 3D-IMPELLER
................................................................ 72
3.1.4 THE SEMI-OPEN
IMPELLER....................................................................
73 3.1.5 IMPELLER
FAMILY..................................................................................
74 3.1.6 IMPELLER APPLICATION
..........................................................................
75 3.1.7 IMPELLER
MANUFACTURE.........................................................................
75 3.1.8 IMPELLER STRESS
ANALYSIS.....................................................................
77 3.2 INLET
DUCT...................................................................................................
78 3.3 ADJUSTABLE INLET GUIDE
VANES....................................................................
79 3.4 ANNULAR
DIFFUSER........................................................................................
81 3.5 VANED DIFFUSER
..........................................................................................
84 3.6 RETURN (CROSSOVER)
BEND...........................................................................
86 3.7 RETURN VANE CHANNEL
................................................................................
87 3.8 SIDE-STREAM
INLET.......................................................................................
88 3.9
VOLUTE........................................................................................................
90 REFERENCES
.......................................................................................................
92 4 COMPRESSOR DESIGN CONSTRAINTS
..................................................................... 93
4.1 INTRINSIC PARAMETER CONSTRAINTS
................................................................. 93
4.1.1 FLOW COEFFICIENT
................................................................................
93 4.1.2 ROTATIONAL SPEED
................................................................................
94 4.1.3 IMPELLER TIP
SPEED.............................................................................
94 4.1.4 MACH NUMBER
....................................................................................
95 4.1.5 DISCHARGE
TEMPERATURE......................................................................
97 4.1.6 IMPELLER EXIT WIDTH
...........................................................................
98 4.1.7 IMPELLER OUTER DIAMETER
.................................................................... 98
CONTENTS XV 4.1.8 SHAFT STIFFNESS
....................................................................................
98 4.2 DERIVED COMPOUND CONSTRAINTS
................................................................ 99
4.2.1 STAGE HEAD AND STAGE PRESSURE
RATIO................................................. 99 4.2.2 MAXIMUM
NUMBER OF IMPELLERS PER ROTOR....................................... 100
4.2.3 MAXIMUM VOLUME FLOW PER FRAME
SIZE......................................... 104 4.2.4 MINIMUM
DISCHARGE VOLUME FLOW OF TURBOCOMPRESSORS............... 108 4.2.5
IMPELLER ARRANGEMENT
......................................................................
108 REFERENCES
.....................................................................................................
111 5 COMPRESSOR OFF-DESIGN
OPERATION...............................................................
113 5.1 REGULATION METHODS AND NOMENCLATURE
.................................................. 113 5.1.1 VARIABLE
SPEED
.................................................................................
116 5.1.2 SUCTION THROTTLING
............................................................................
117 5.1.3 ADJUSTABLE INLET GUIDE VANES
.......................................................... 118 5.1.4
ADJUSTABLE DIFFUSER VANES
............................................................... 120
5.1.5 BYPASS
REGULATION............................................................................
122 5.2 CUSTOMARY PERFORMANCE MAPS FOR MULTISTAGE PROCESS COMPRESSORS
...... 123 5.2.1 VARIABLE SPEED
.................................................................................
126 5.2.2 SUCTION THROTTLING
............................................................................
128 5.2.3 ADJUSTABLE INLET GUIDE VANES
.......................................................... 130 5.3
PERFORMANCE CURVES FOR VARIABLE
CONDITIONS.......................................... 133 5.4 IN SEARCH
OF AN INVARIANT PERFORMANCE
CURVE.......................................... 134 5.5
PERFORMANCE-CURVE LIMITS
......................................................................
140 5.5.1 SURGE
................................................................................................
140 5.5.2 CHOKE
...............................................................................................
148 5.5.3 BEYOND CHOKE (EXPANSION MODE IN THE FOURTH
QUADRANT).............. 151 REFERENCES
.....................................................................................................
156 6 AERODYNAMIC COMPRESSOR DESIGN: CASE STUDY
........................................... 157 6.1 APPROXIMATE
COMPRESSOR
SIZING............................................................. 158
6.2 DETAILED COMPRESSOR DESIGN
................................................................... 165
6.2.1 IMPELLER
INLET....................................................................................
165 6.2.2 IMPELLER EXIT
....................................................................................
174 6.2.3 STAGE EFFICIENCY
...............................................................................
184 6.2.4 HEAD, PRESSURE, TEMPERATURE, POWER
............................................... 193 6.2.5 DIFFUSER
AERODYNAMICS
.................................................................... 196
6.2.6 RETURN VANE CHANNEL
.......................................................................
201 6.2.7 VOLUTE AND CONICAL EXIT
DIFFUSER..................................................... 202 6.3
IMPELLER BLADE DESIGN
.............................................................................
208 6.4 AXIAL ROTOR
THRUST...................................................................................
210 6.5 LEAKAGE FLOW THROUGH LABYRINTH
SEALS................................................... 216 6.6 FINAL
COMPRESSOR DESIGN
........................................................................
217 6.7 ROTORDYNAMICS: LATERAL VIBRATION ANALYSIS
............................................ 218 6.7.1 LATERAL CRITICAL
SPEEDS
.....................................................................
218 6.7.2
STABILITY............................................................................................
220 6.7.3 LOGARITHMIC DECREMENT
................................................................... 222
6.8 PERFORMANCE MAP
....................................................................................
224 XVI CONTENTS 6.9 PERFORMANCE
TEST.....................................................................................
227 REFERENCES
.....................................................................................................
229 7 APPLICATION EXAMPLES
....................................................................................
231 7.1 HYDROGEN-RICH GAS COMPRESSORS
........................................................... 232 7.2
NATURAL-GAS
COMPRESSORS........................................................................
236 7.3 AIR
COMPRESSORS......................................................................................
244 7.4 REFRIGERATION
COMPRESSORS......................................................................
247 7.5 CHLORINE COMPRESSORS
.............................................................................
251 7.6 METHANOL SYNTHESIS GAS
COMPRESSORS..................................................... 255 8
IMPROVING EFFICIENCY AND OPERATING
RANGE................................................ 259 8.1 INCREASE
OF
EFFICIENCY..............................................................................
259 8.1.1 OPTIMIZATION OF AERO-THERMODYNAMICS
.......................................... 259 8.1.2 INCREASED DIFFUSER
DIAMETER RATIO................................................... 261
8.1.3 IMPROVED VOLUTE GEOMETRY
............................................................. 264 8.1.4
IMPELLER-BLADE CUT-BACK
................................................................. 266
8.1.5 COVER-DISK LABYRINTH SEAL
.............................................................. 266 8.1.6
REDUCTION OF PLENUM INLET
LOSS....................................................... 267 8.1.7
REDUCTION OF FLOW-CHANNEL SURFACE
ROUGHNESS.............................. 267 8.1.8 MINIMIZING
IMPELLER/DIAPHRAGM CLEARANCE .................................... 268
8.1.9 REDUCTION OF RECIRCULATION
LOSSES................................................... 270 8.2
INCREASE OF OPERATING RANGE
................................................................... 271
8.2.1 DELAY OF SYSTEM
SURGE.....................................................................
271 8.2.2 DELAY OF STAGE
STALL..........................................................................
273 REFERENCES
.....................................................................................................
279 9 RERATE OF PROCESS CENTRIFUGAL COMPRESSORS
................................................ 281 9.1 INTRODUCTION
.............................................................................................
281 9.1.1 DEFINITION OF
RERATES........................................................................
281 9.1.2 INCREASE OF MASS FLOW
.....................................................................
282 9.2 NEW WIDER IMPELLERS AND DIAPHRAGMS
................................................... 283 9.3 HIGHER
ROTATIONAL
SPEED..........................................................................
285 9.3.1 ADDITIONAL
LOSSES.............................................................................
287 9.3.2 CASE STUDY 1: WIDER IMPELLERS AND SPEED INCREASE COMBINED
....... 287 9.4 SUPERCHARGING WITH A BOOSTER COMPRESSOR
............................................. 294 9.5 RERATE METHODS:
ADVANTAGES/DISADVANTAGES........................................... 305
9.6 ANTICIPATING RERATES
................................................................................
305 9.7 CONCLUSIONS
.............................................................................................
306 REFERENCES
.....................................................................................................
307 10 STANDARDIZATION OF COMPRESSOR
COMPONENTS............................................ 309 10.1
MERIDIONAL IMPELLER BLADE CUTOFF
......................................................... 309 10.2
MODULAR DESIGN SYSTEM
........................................................................
311 10.2.1 AERODYNAMIC STAGE RATING RANGE
................................................. 312 10.2.2 IMPELLER
FAMILY..............................................................................
313 10.2.3 FRAME-SIZE STANDARDIZATION
........................................................... 314 CONTENTS
XVII 10.2.4 DIAPHRAGMS
....................................................................................
315 10.2.5 DISCHARGE
VOLUTES..........................................................................
315 10.2.6 SYSTEMATIC TESTS OF MODULAR DESIGN STAGES
.................................. 316 APPENDIX
............................................................................................................
317 UNIT
EQUATIONS...............................................................................................
317 ENGLISH*GERMAN GLOSSARY ON COMPRESSORS
.................................................. 319 SUBJECT INDEX
.....................................................................................................
325
|
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| illustrated | Illustrated |
| indexdate | 2024-07-09T19:22:37Z |
| institution | BVB |
| isbn | 3540404279 |
| language | English |
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| publishDate | 2004 |
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| publisher | Springer |
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| spelling | Lüdtke, Klaus H. Verfasser aut Process centrifugal compressors basics, function, operation, design, application Klaus H. Lüdtke Berlin [u.a.] Springer 2004 XVII, 328 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Engineering online library Compresseurs Compressors Kreiselverdichter (DE-588)4165600-3 gnd rswk-swf Kreiselverdichter (DE-588)4165600-3 s DE-604 SWB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010717330&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Lüdtke, Klaus H. Process centrifugal compressors basics, function, operation, design, application Compresseurs Compressors Kreiselverdichter (DE-588)4165600-3 gnd |
| subject_GND | (DE-588)4165600-3 |
| title | Process centrifugal compressors basics, function, operation, design, application |
| title_auth | Process centrifugal compressors basics, function, operation, design, application |
| title_exact_search | Process centrifugal compressors basics, function, operation, design, application |
| title_full | Process centrifugal compressors basics, function, operation, design, application Klaus H. Lüdtke |
| title_fullStr | Process centrifugal compressors basics, function, operation, design, application Klaus H. Lüdtke |
| title_full_unstemmed | Process centrifugal compressors basics, function, operation, design, application Klaus H. Lüdtke |
| title_short | Process centrifugal compressors |
| title_sort | process centrifugal compressors basics function operation design application |
| title_sub | basics, function, operation, design, application |
| topic | Compresseurs Compressors Kreiselverdichter (DE-588)4165600-3 gnd |
| topic_facet | Compresseurs Compressors Kreiselverdichter |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010717330&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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