Verfügbarkeit: Fundamentals of air cleaning technology and its application in cleanrooms

Fundamentals of air cleaning technology and its application in cleanrooms:

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Bibliographische Detailangaben
1. Verfasser:	Xu, Zhonglin (VerfasserIn)
Format:	Buch
Sprache:	German
Veröffentlicht:	Berlin Springer 2014
Schlagworte:	Luftreinigung Reinraumtechnik
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XVII, 871 S. 520 schw.-w. Ill., 1 farb. Ill. 235 mm x 155 mm
ISBN:	364239373X 9783642393730

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Datensatz im Suchindex

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adam_text	CONTENTS 1 PARTICLE AND SIZE DISTRIBUTION 1 1.1 PARTICLE CLASSIFICATION 1 1.1.1 CLASSIFICATION WITH PARTICLE FORMATION METHODS 1 1.1.2 CLASSIFICATION WITH PARTICLE ORIGIN 2 1.1.3 CLASSIFICATION WITH PARTICLE SIZE 2 1.1.4 COMMON CLASSIFICATION METHOD 2 1.2 EVALUATION OF PARTICLE SCALE 4 1.2.1 PARTICLE SIZE 4 1.2.2 AVERAGE PARTICLE SIZE 5 1.3 STATISTICAL DISTRIBUTION OF PARTICLE SIZE 12 1.3.1 PARTICLE SIZE DISTRIBUTION CURVE 12 1.3.2 NORMAL DISTRIBUTION AND LOGNORMAL DISTRIBUTION 21 1.3.3 PARTICLE SIZE DISTRIBUTION ON LOG-LOG GRAPH PAPER. . . 28 1.3.4 DISTRIBUTION BASED ON DENSITY 29 1.4 CONCENTRATION DEGREE OF PARTICLE SIZE DISTRIBUTION 32 1.5 APPLICATION OF LOGNORMAL DISTRIBUTION 38 1.5.1 DETERMINATION OF CONCENTRATION DEGREE 38 1.5.2 CALCULATION OF AVERAGE DIAMETER 40 1.5.3 RELATIONSHIP BETWEEN PARTICLE SIZE DISTRIBUTIONS 42 1.6 STATISTIC PARAMETER OF PARTICLE NUMBER 43 REFERENCES 45 2 AIRBORNE PARTICLES IN OUTDOOR AIR: ATMOSPHERIC DUST 47 2.1 CONCEPT OF ATMOSPHERIC DUST 47 2.2 SOURCE OF ATMOSPHERIC DUST 49 2.2.1 NATURAL SOURCE AND ARTIFICIAL SOURCE 49 2.2.2 GENERATION AMOUNT OF ATMOSPHERIC DUST 52 HTTP://D-NB.INFO/1035563193 VIII CONTENTS 2.3 COMPOSITION OF ATMOSPHERIC DUST 57 2.3.1 INORGANIC NONMETALLIC PARTICLES 57 2.3.2 METAL PARTICLE 60 2.3.3 ORGANIC PARTICLE 65 2.3.4 VITAL PARTICLE 67 2.3.5 COMPOSITION OF ATMOSPHERIC DUST 68 2.4 CONCENTRATION OF ATMOSPHERIC DUST 68 2.4.1 METHODS TO EXPRESS CONCENTRATIONS 68 2.4.2 BACKGROUND VALUE OF ATMOSPHERIC DUST CONCENTRATION 69 2.4.3 GRAVIMETRIC CONCENTRATION 69 2.4.4 PARTICLE COUNTING CONCENTRATION 91 2.4.5 COMPARISON BETWEEN PARTICLE COUNTING CONCENTRATION AND GRAVIMETRIC CONCENTRATION 93 2.5 PARTICLE SIZE DISTRIBUTION OF ATMOSPHERIC DUST 97 2.5.1 FULL PARTICLE SIZE DISTRIBUTION 97 2.5.2 DISTRIBUTION ON LOG-LOG PROBABILITY PAPER 99 2.5.3 DISTRIBUTION ALONG VERTICAL HEIGHT ILL 2.6 INFLUENCING FACTORS FOR CONCENTRATION AND DISTRIBUTION OF ATMOSPHERIC DUST 113 2.6.1 INFLUENCE OF WIND 113 2.6.2 INFLUENCE OF HUMIDITY * 116 2.6.3 INFLUENCE OF AFFORESTATION 123 2.7 DISTRIBUTION OF ATMOSPHERIC MICROORGANISM 125 2.7.1 CONCENTRATION DISTRIBUTION 125 2.7.2 PARTICLE SIZE DISTRIBUTION 128 REFERENCES 130 3 FILTRATION MECHANISM OF FINE PARTICLE 133 3.1 FILTRATION AND SEPARATION 133 3.2 FUNDAMENTAL FILTRATION PROCESS OF AIR FILTERS 137 3.3 FILTRATION MECHANISM OF FIBROUS AIR FILTERS 137 3.3.1 INTERCEPTION (OR CONTACT/HOOK) EFFECT 137 3.3.2 INERTIAL EFFECT 138 3.3.3 DIFFUSION EFFECT 139 3.3.4 GRAVITATIONAL EFFECT 140 3.3.5 ELECTROSTATIC EFFECT 141 3.4 PROCEDURES TO CALCULATE EFFICIENCY OF FIBROUS AIR FILTERS . 141 3.5 PARTICLE CAPTURE EFFICIENCY OF ISOLATED SINGLE FIBER: ISOLATED CYLINDER METHOD 142 3.5.1 INTERCEPTION EFFICIENCY 142 3.5.2 INERTIAL EFFICIENCY 145 3.5.3 DIFFUSION EFFICIENCY 146 3.5.4 GRAVITATIONAL EFFICIENCY 147 3.5.5 ELECTROSTATIC EFFICIENCY 148 3.5.6 TOTAL EFFICIENCY OF ISOLATED SINGLE FIBER 148 CONTENTS IX 3.6 PARTICLE CAPTURE EFFICIENCY OF SINGLE FIBER INSIDE FILTER: INFLUENCE OF FIBER INTERFERENCE AND CORRECTION METHOD 150 3.6.1 EFFECTIVE RADIUS METHOD 150 3.6.2 NONUNIFORM COEFFICIENT METHOD OF STRUCTURE 151 3.6.3 EXPERIMENTAL COEFFICIENT METHOD 152 3.6.4 SEMIEMPIRICAL EQUATION METHOD 153 3.7 LOGARITHMIC PENETRATION EXPRESSION FOR CALCULATION OF TOTAL EFFICIENCY OF FIBROUS FILTER 154 3.7.1 LOGARITHMIC PENETRATION EXPRESSION 154 3.7.2 APPLICABILITY OF LOGARITHMIC PENETRATION EXPRESSION 157 3.8 INFLUENCING FACTORS FOR EFFICIENCY OF FIBROUS FILTERS 160 3.8.1 INFLUENCE OF PARTICLE SIZE 160 3.8.2 INFLUENCE OF PARTICLE TYPE 165 3.8.3 INFLUENCE OF PARTICLE SHAPE 166 3.8.4 INFLUENCE OF FIBER SIZE AND CROSS-SECTIONAL SHAPE . . 167 3.8.5 INFLUENCE OF FILTRATION VELOCITY 167 3.8.6 INFLUENCE OF SOLID FRACTION 173 3.8.7 INFLUENCE OF AIR TEMPERATURE 173 3.8.8 INFLUENCE OF AIR HUMIDITY 173 3.8.9 INFLUENCE OF AIRFLOW PRESSURE 174 3.8.10 INFLUENCE OF DUST HOLDING CAPACITY 174 3.9 CAPILLARY MODEL THEORY 176 3.10 EFFICIENCY OF GRANULE AIR FILTER 180 REFERENCES 182 4 CHARACTERISTICS OF AIR FILTERS 185 4.1 FUNCTION AND CLASSIFICATION OF AIR FILTRATION SYSTEM 185 4.2 PERFORMANCE INDEX OF AIR FILTRATION 191 4.3 FACE VELOCITY AND FILTRATION VELOCITY 191 4.4 EFFICIENCY 192 4.4.1 EFFICIENCY 192 4.4.2 PENETRATION 193 4.4.3 DECONTAMINATION FACTOR 194 4.5 PRESSURE DROP 194 4.5.1 PRESSURE DROP OF FILTER MEDIA 194 4.5.2 TOTAL PRESSURE DROP OF AIR FILTER 197 4.6 DUST HOLDING CAPACITY 203 4.7 DESIGN EFFICIENCY OF AIR FILTER 205 4.8 EFFICIENCY OF AIR FILTERS IN SERIES 209 4.8.1 EFFICIENCY OF HEPA FILTERS IN SERIES 209 4.8.2 EFFICIENCY OF MEDIUM-EFFICIENCY AIR FILTERS IN SERIES 212 4.9 SERVICE LIFE 212 4.9.1 LIFETIME OF AIR FILTER 212 4.9.2 RELATIONSHIP BETWEEN LIFETIME AND FLOW RATE 214 X CONTENTS 4.10 ESTIMATE OF ARRESTANCE 219 4.11 FILTER-PAPER FILTER 221 4.11.1 FOLDED FILTER-PAPER FILTER 221 4.11.2 CYLINDRICAL FILTER-PAPER FILTER 224 4.11.3 FILTER PAPER USED IN FILTER-PAPER FILTER 227 4.11.4 GENERAL FEATURES OF FILTER PAPER 235 4.11.5 DEVELOPMENT OF FILTER-PAPER AIR FILTER 238 4.12 FIBROUS LAYER FILTER 242 4.13 FOAM AIR FILTER 248 4.14 ELECTROSTATIC CLEANER 249 4.14.1 APPLICATION OF ELECTROSTATIC CLEANER 249 4.14.2 WORKING PRINCIPLE OF ELECTROSTATIC CLEANER 249 4.14.3 STRUCTURE OF ELECTROSTATIC CLEANER 252 4.14.4 EFFICIENCY OF ELECTROSTATIC CLEANER 254 4.14.5 ELECTROSTATIC CLEANER WITH TWO-STAGE IONIZATION . . . 257 4.15 SPECIAL AIR FILTERS 260 4.15.1 ACTIVATED CARBON FILTER 260 4.15.2 ANTIBACTERIAL FILTER 263 REFERENCES 264 5 STRUCTURAL DESIGN OF HEPA FILTER 267 5.1 FLOW STATE IN THE PASSAGE OF HEPA FILTER 267 5.2 TOTAL PRESSURE DROP OF HEPA FILTER 269 5.2.1 PRESSURE DROP OF FILTER MEDIA API 270 5.2.2 FRICTIONAL RESISTANCE OF AIR PASSAGE AP 2 271 5.2.3 LOCAL RESISTANCE OF BOTH INLET AND OUTLET C 273 5.2.4 TOTAL PRESSURE DROP AP 273 5.3 OPTIMAL HEIGHT OF CORRUGATION 274 5.4 OPTIMAL DEPTH 277 5.5 CORRUGATION CREST ANGLE 278 5.6 STRUCTURAL PARAMETERS FOR FILTERS WITHOUT SEPARATOR 280 5.7 CALCULATION OF TUBULAR FILTER 283 REFERENCES 288 6 MOVEMENT OF INDOOR FINE PARTICLE 289 6.1 FORCE ACTING ON PARTICLES 289 6.2 GRAVITATIONAL SEDIMENTATION OF PARTICLES 290 6.3 MOVEMENT OF PARTICLES UNDER THE ACTION OF INERTIA FORCE . . . 295 6.4 DIFFUSIONAL MOVEMENT OF PARTICLES 296 6.5 DEPOSITION OF PARTICLES ON SURFACE 298 6.5.1 DIFFUSIONAL DEPOSITION OF PARTICLES ON VERTICAL SURFACE OF ROOM WITHOUT AIR SUPPLY 298 6.5.2 DEPOSITION OF PARTICLES ON UNDERSURFACE OF ROOM WITHOUT AIR SUPPLY 300 6.5.3 DEPOSITION OF PARTICLES ON INTERIOR SURFACE OF ROOM WITH AIR SUPPLY 301 CONTENTS XI 6.6 INFLUENCE OF AIRFLOW ON PARTICLE MOVEMENT 309 6.6.1 INFLUENCE FACTORS OF INDOOR PARTICLE DISTRIBUTION 309 6.6.2 MIGRATION OF PARTICLES 311 6.6.3 INFLUENCE OF HEAT CONVECTION AIRFLOW 314 6.6.4 INFLUENCE OF SECONDARY AIRFLOW BY MOVEMENT OF OCCUPANT 322 6.7 COAGULATION OF PARTICLES IN AIRFLOW 324 6.8 ENCLOSURE LINE OF POINT POLLUTION IN PARALLEL FLOW 326 6.8.1 ENCLOSURE LINE OF POINT POLLUTION 327 6.8.2 ACTUAL PARTICLE DISTRIBUTION OF POLLUTION SOURCE 329 6.8.3 CALCULATION OF ENCLOSURE LINE OF POLLUTION 330 REFERENCES 337 7 CLASSIFICATION OF AIR CLEANLINESS 339 7.1 DEVELOPMENT OF AIR CLEANLINESS STANDARDS (CLASSIFICATION). . . 339 7.2 MATHEMATICAL EXPRESSION OF AIR CLEANLINESS LEVELS 344 7.3 CONVERSION RELATIONSHIP OF PARTICLE NUMBER FOR DIFFERENT SIZES 347 7.4 PARALLEL LINES FOR AIR CLEANLINESS LEVELS 347 7.5 CONTROLLED OBJECT FOR CORRESPONDING AIR CLEANLINESS 350 7.5.1 MINIMUM CONTROLLED SIZE 351 7.5.2 NUMBER OF CONTROLLED PARTICLES 354 7.6 SPECIFIC CONDITIONS FOR CONTROLLED PARTICLE CONCENTRATION . 354 7.7 THEORETICAL METHOD TO DETERMINE THE YIELD BY AIR CLEANLINESS 356 7.7.1 INFLUENCE OF AIR CLEANLINESS ON YIELD 356 7.7.2 THEORETICAL EXPRESSION FOR YIELD 359 7.8 LEVEL OF AMC IN CLEAN ENVIRONMENT 372 REFERENCES 375 8 PRINCIPLE OF CLEANROOM 377 8.1 APPROACH TO CONTROL CONTAMINANTS 377 8.2 FLOW STATE 378 8.2.1 SEVERAL FUNDAMENTAL FLUID STATES 378 8.2.2 PHYSICAL STATE OF TURBULENT FLOW 380 8.3 PRINCIPLE OF CLEANROOM WITH MIXED FLOW 382 8.3.1 PRINCIPLE OF CLEANROOM WITH MIXED FLOW 382 8.3.2 AIR INLET IN MIXED FLOW CLEANROOM 384 8.3.3 EFFECT OF MIXED FLOW CLEANROOM 387 8.4 PRINCIPLE OF CLEANROOM WITH UNIDIRECTIONAL FLOW 388 8.4.1 CLASSIFICATION OF UNIDIRECTIONAL FLOW CLEANROOMS . . . . 388 8.4.2 PRINCIPLE OF UNIDIRECTIONAL FLOW CLEANROOMS 395 8.5 THREE CHARACTERISTIC INDEXES FOR UNIDIRECTIONAL FLOW CLEANROOM 401 8.5.1 PARALLEL DEGREE OF FLOW LINES 401 8.5.2 TURBULENCE INTENSITY 404 8.5.3 LOWER -LIMIT VELOCITY 409 CONTENTS 8.6 PRINCIPLE OF RADIAL FLOW CLEANROOM 418 8.6.1 TYPE OF RADIAL FLOW CLEANROOM 418 8.6.2 PRINCIPLE OF RADIAL FLOW CLEANROOM 419 8.7 PRESSURE OF CLEANROOM 423 8.7.1 PHYSICAL MEANING OF DIFFERENTIAL PRESSURE 423 8.7.2 FUNCTION OF DIFFERENTIAL PRESSURE 425 8.7.3 DETERMINATION OF DIFFERENTIAL PRESSURE TO PREVENT LEAKAGE FROM GAP BETWEEN CLEANROOM AND ADJACENT ROOM 427 8.7.4 DETERMINATION OF DIFFERENTIAL PRESSURE TO PREVENT LEAKAGE FROM GAP BETWEEN CLEANROOM AND OUTDOOR (OR THE ROOM OPEN TO THE ATMOSPHERE) 427 8.7.5 DETERMINATION OF DIFFERENTIAL PRESSURE TO PREVENT AIR POLLUTION DURING THE OPEN OF DOOR IN TURBULENT FLOW CLEANROOM 428 8.7.6 DETERMINATION OF DIFFERENTIAL PRESSURE TO PREVENT AIR POLLUTION DURING THE OPEN OF DOOR IN UNIDIRECTIONAL FLOW CLEANROOM 432 8.7.7 RECOMMENDED DIFFERENTIAL PRESSURE 433 8.8 BUFFER AND ISOLATION 434 8.8.1 AIRLOCK CHAMBER 434 8.8.2 BUFFER CHAMBER WITH POSITIVE PRESSURE 435 8.8.3 BUFFER CHAMBER WITH NEGATIVE PRESSURE 438 8.8.4 AIRSHOWER CHAMBER 439 8.9 FEATURE OF CLEANROOM WITH FULL-CEILING AIR SUPPLY . AND TWO-BOTTOM-SIDE AIR RETURN 446 8.9.1 LINE SINK MODEL 447 8.9.2 FEATURE OF FLOW 454 8.9.3 ALLOWABLE ROOM WIDTH 462 REFERENCES 464 9 THEORY OF BIOLOGICAL CLEANROOM 467 9.1 APPLICATION OF BIOLOGICAL CLEANROOMS 467 9.2 MAIN CHARACTERISTICS OF MICROBE 474 9.2.1 PREPARATION PERIOD OR DELAYED PERIOD 474 9.2.2 LOGARITHMIC GROWTH PERIOD 479 9.2.3 STABLE PERIOD OR QUIESCENT PERIOD 479 9.2.4 DECAY PERIOD 479 9.3 MICROBIAL POLLUTION ROUTES ! . . 479 9.4 EQUIVALENT DIAMETER OF BIOLOGICAL PARTICLES 480 9.4.1 SIZE OF MICROORGANISM 480 9.4.2 EQUIVALENT DIAMETER OF BIOLOGICAL PARTICLES 481 9.5 BIOLOGICAL PARTICLE STANDARD 485 9.5.1 MICROBIAL CONCENTRATION 485 9.5.2 AIRBORNE BACTERIA NUMBER AND STANDARD 487 9.5.3 NUMBER OF SEDIMENTATION BACTERIA AND RELATED STANDARD 489 CONTENTS X 111 9.6 RELATIONSHIP BETWEEN SETTLEMENT BACTERIA AND AIRBORNE BACTERIA 492 9.6.1 PROOF OF OMENFLHCKHH EQUATION 493 9.6.2 CORRECTION OF SETTLEMENT FORMULA 494 9.6.3 APPLICATION OF SETTLEMENT BACTERIA AND AIRBORNE BACTERIA METHODS IN CLEANROOM 497 9.7 BACTERIAL REMOVE WITH FILTER 498 9.7.1 FILTRATION EFFICIENCY OF HEPA FILTER FOR MICROORGANISM 499 9.7.2 PENETRATION OF FILTER MEDIUM FOR BACTERIA 501 9.7.3 REPRODUCTION OF MICROORGANISMS ON FILTER MATERIAL. 502 9.8 DISINFECTION AND STERILIZATION 503 9.8.1 CONCEPT 503 9.8.2 MAIN DISINFECTION METHODS 503 9.8.3 DISINFECTION AND STERILIZATION WITH ULTRAVIOLET 504 9.9 GENERAL BIOLOGICAL CLEANROOM 515 9.9.1 TYPE 515 9.9.2 AIR VELOCITY 518 9.9.3 LOCAL AIRFLOW 520 9.10 ISOLATED BIOLOGICAL CLEANROOM 523 9.10.1 BIOLOGICAL RISK STANDARD 523 9.10.2 ISOLATION METHODS 523 9.10.3 BIOSAFETY CABINET 531 9.10.4 CLASSIFICATION OF BIOSAFETY LABORATORY 534 9.10.5 NEGATIVELY PRESSURIZED ISOLATION WARD 534 9.10.6 SAFETY OF EXHAUST AIR FROM ISOLATED BIOLOGICAL CLEANROOM 537 REFERENCES 543 10 CALCULATION THEORY OF UNIFORM DISTRIBUTION IN CLEANROOM 549 10.1 THREE-STAGE FILTRATION SYSTEM IN CLEANROOM 549 10.2 INSTANTANEOUS PARTICLE CONCENTRATION IN TURBULENT FLOW CLEANROOM 551 10.3 STEADY-STATE PARTICLE CONCENTRATION IN TURBULENT FLOW CLEANROOM 554 10.3.1 STEADY-STATE EXPRESSION FOR SINGLE ROOM 554 10.3.2 STEADY-STATE EXPRESSION FOR MULTIROOM 555 10.4 STEADY-STATE PARTICLE CONCENTRATION WITH LOCAL AIR CLEANING EQUIPMENT 557 10.5 PHYSICAL MEANING OF INSTANTANEOUS AND STEADY-STATE EXPRESSIONS 558 10.6 OTHER CALCULATION METHODS FOR TURBULENT FLOW CLEANROOM . . 560 10.7 CALCULATION OF DUST CONCENTRATION IN UNIDIRECTIONAL FLOW CLEANROOM 561 X J V CONTENTS 10.8 CALCULATION OF SELF-PURIFICATION TIME AND POLLUTION TIME IN TURBULENT FLOW CLEANROOM 562 10.8.1 CONCEPT 562 10.8.2 CALCULATION OF SELF-PURIFICATION TIME 563 10.8.3 CALCULATION OF POLLUTION TIME 568 10.9 CALCULATION OF SELF-PURIFICATION TIME IN UNIDIRECTIONAL FLOW CLEANROOM 569 REFERENCES 570 11 CALCULATION THEORY OF NONUNIFORM DISTRIBUTION IN CLEANROOM . . 573 11.1 INFLUENCE OF NONUNIFORM DISTRIBUTION 573 11.1.1 IMPACT OF AIR DISTRIBUTION (INCLUDING AIR SUPPLY OUTLET AND ITS POSITION) 573 11.1.2 IMPACT OF THE NUMBER OF AIR SUPPLY OUTLET 574 11.1.3 IMPACT OF THE AIR CHANGE RATE 575 11.1.4 IMPACT OF THE TYPE OF AIR SUPPLY OUTLET 575 11.2 THREE-ZONE NONUNIFORM DISTRIBUTION MODEL 577 11.3 MATHEMATICAL MODEL FOR THREE-ZONE NONUNIFORM DISTRIBUTION 579 11.4 PHYSICAL MEANING OF N-N GENERAL FORMULA 582 11.5 COMPARISON BETWEEN UNIFORM DISTRIBUTION AND NONUNIFORM DISTRIBUTION 585 REFERENCES 585 12 CHARACTERISTICS OF CLEANROOM 587 12.1 CHARACTERISTIC OF AT-REST STATE 587 12.2 DYNAMIC CHARACTERISTIC 595 12.2.1 TO INCREASE THE PARTICLE GENERATION RATE AFTER STEADY STATE IS REACHED BY SELF-CLEANING PROCESS . . 595 12.2.2 INCREASE THE PARTICLE GENERATION RATE BEFORE THE STEADY STATE OF SELF-CLEANING PROCESS 597 12.3 CHARACTERISTIC CURVE OF NONUNIFORM DISTRIBUTION 601 12.4 INHOMOGENEITY OF CONCENTRATION FIELD 605 12.4.1 CONCENTRATION RATIO BETWEEN THE MAINSTREAM AREA AND THE RETURN AIR AREA: 605 12.4.2 CONCENTRATION RATIO BETWEEN THE MAINSTREAM AREA AND THE VORTEX AREA: 607 12.4.3 CONCENTRATION RATIO BETWEEN THE VORTEX AREA AND THE MAINSTREAM AREA: 608 12.4.4 CONCENTRATION RATIO BETWEEN UNIFORM DISTRIBUTION AND NONUNIFORM DISTRIBUTION 608 12.5 PARTICLE LOAD CHARACTERISTIC OF FRESH AIR 610 12.5.1 EFFECT OF THREE-STAGE AIR FILTRATION FOR FRESH AIR. . . 610 12.5.2 PARTICLE LOAD RATIO OF FRESH AIR 611 12.5.3 RELATIONSHIP BETWEEN PARTICLE LOAD RATIO OF FRESH AIR AND LIFETIME OF COMPONENT 615 REFERENCES 617 CONTENTS XV 13 DESIGN CALCULATION OF CLEANROOM 619 13.1 DETERMINATION OF INDOOR AND OUTDOOR PARAMETERS FOR CALCULATION 619 13.1.1 ATMOSPHERIC DUST CONCENTRATION 619 13.1.2 PARTICLE GENERATION RATE PER UNIT VOLUME OF INDOOR AIR 620 13.1.3 FRESH AIR RATIO 627 13.2 CALCULATION OF HEPA CLEANING SYSTEM 631 13.2.1 CALCULATION OF THE VALUE/V 632 13.2.2 CALCULATION OF THE VALUE N 633 13.2.3 CALCULATION OF THE VALUE V 634 13.2.4 THREE PRINCIPLES OF DESIGN CALCULATION 639 13.2.5 EXAMPLES 639 13.3 CALCULATION FOR APPLICATIONS WITH LOCAL FILTRATION DEVICE . . . 644 13.3.1 COMPUTER ROOM WITH BOTH CENTRAL AIR-CONDITIONING SYSTEM AND SPECIAL AIR CONDITIONER 645 13.3.2 COMPUTER ROOM WITH SPECIAL AIR CONDITIONER AND AIR HANDLING UNIT FOR FRESH AIR 646 REFERENCES 647 14 LOCAL CLEAN AREA 649 14.1 APPLICATION OF MAINSTREAM AREA CONCEPT 649 14.2 CHARACTERISTICS OF MAINSTREAM AREA 654 14.2.1 AIR DISTRIBUTION CHARACTERISTIC 654 14.2.2 VELOCITY DECAY CHARACTERISTIC 656 14.2.3 PARTICLE CONCENTRATION CHARACTERISTIC 658 14.2.4 CONTAMINATION DEGREE IN MAINSTREAM AREA 663 14.2.5 CONCEPT OF EXPANDED MAINSTREAM AREA 667 14.3 CLEAN AREA WITH PARTIAL WALL 669 14.4 AIR CURTAIN CLEANING BOOTH 671 14.4.1 APPLICATION 671 14.4.2 ISOLATION EFFECT OF AIR CURTAIN 674 14.4.3 THEORETICAL ANALYSIS OF THE ISOLATION EFFECT BY AIR CURTAIN CLEANING BOOTH 676 14.4.4 PERFORMANCE OF AIR CURTAIN CLEANING BOOTH 679 14.5 PARTITION CURTAIN CLEANING BOOTH 683 14.5.1 APPLICATION 683 14.5.2 THEORETICAL ANALYSIS OF CLEANING EFFECT 685 14.5.3 EXPERIMENTAL EFFECT 691 14.6 LAMINAR FLOW HOOD FOR CLEANING TUNNEL 691 14.6.1 REQUIREMENT OF ANTI-DISTURBANCE 691 14.6.2 EFFECT OF AUXILIARY AIR SUPPLY AT THE WORKING SURFACE 692 REFERENCES 695 XV J CONTENTS 15 THEORY OF LEAKAGE PREVENTING LAYER 697 15.1 OVERVIEW 697 15.2 LEAKAGE EQUATION 698 15.3 EQUATION FOR LEAKAGE PREVENTION 704 15.4 LEAKAGE PREVENTION EFFECT 707 15.5 MECHANISM OF LEAKAGE PREVENTION LAYER 709 15.5.1 LEAKAGE PREVENTION WITH DILUTION EFFECT 709 15.5.2 LEAKAGE PREVENTION WITH FILTER 710 15.5.3 LEAKAGE PREVENTION WITH REDUCED DIFFERENTIAL PRESSURE 711 15.5.4 BARRIER LEAKAGE PREVENTION 712 15.6 AIR SUPPLY TERMINAL WITH LEAKAGE PREVENTION LAYER 713 15.6.1 OVERVIEW 713 15.6.2 STRUCTURE OF AIR SUPPLY TERMINAL WITH LEAKAGE PREVENTION LAYER 713 15.6.3 PROPERTY OF AIR SUPPLY TERMINAL OF LEAKAGE PREVENTION LAYER 715 15.6.4 APPLICATION OF AIR SUPPLY TERMINAL OF LEAKAGE PREVENTION LAYER 720 15.6.5 COMPARISON OF SEVERAL AIR SUPPLY TERMINALS 723 REFERENCES 727 16 SAMPLING THEORY 729 16.1 SAMPLING SYSTEM 729 16.1.1 ORIENTATION OF THE SAMPLING PROBE 729 16.1.2 POSITION OF FLOWMETER 730 16.2 ISOKINETIC SAMPLING 736 16.2.1 SAMPLING IN FLOWING AIR 736 16.2.2 SAMPLING IN QUIESCENT AIR 744 16.2.3 CALCULATION OF THE DIAMETER OF THE SAMPLING PROBE . 746 16.3 PARTICLE LOSS IN SAMPLING LINE 746 16.3.1 DIFFUSIONAL DEPOSITION LOSS IN SAMPLING TUBE . . . . 746 16.3.2 SETTLEMENT DEPOSITION LOSS IN SAMPLING LINE 754 16.3.3 COLLISIONAL LOSS IN SAMPLING LINE 755 16.3.4 COAGULATION LOSS IN SAMPLING LINE 757 16.3.5 COMPARISON WITH EXPERIMENT 759 16.3.6 COMPREHENSIVE CONCLUSION 762 16.4 THE MINIMUM SAMPLING VOLUME 764 16.4.1 BACKGROUND OF THE PROBLEM 764 16.4.2 NONZERO SAMPLING PRINCIPLE 765 16.4.3 THE PRINCIPLE OF MINIMUM TOTAL PARTICLE NUMBER 770 16.4.4 THE MINIMUM SAMPLING VOLUME OF AIRBORNE BACTERIA 773 16.5 THE MINIMUM DEPOSITION AREA 774 REFERENCES 775 CONTENTS XVII 17 MEASUREMENT AND EVALUATION ILL 17.1 PARTICLE CONCENTRATION MEASUREMENT 777 17.1.1 PARTICLE MASS CONCENTRATION METHOD ILL 17.1.2 PARTICLE COUNTING METHOD WITH MEMBRANE MICROSCOPE 780 17.1.3 PARTICLE COUNTING METHOD WITH LIGHT SCATTERING PARTICLE COUNTER 783 17.1.4 OTHER PARTICLE COUNTING METHOD 799 17.1.5 RELATIVE CONCENTRATION METHOD 800 17.1.6 BIOLOGICAL PARTICLE MEASUREMENT METHOD 801 17.2 AIR FILTER MEASUREMENT 804 17.2.1 MEASUREMENT RANGE 804 17.2.2 MEASUREMENT OF FILTER EFFICIENCY 806 17.2.3 MEASUREMENT OF DUST HOLDING CAPACITY OF FILTER 824 17.3 LEAKAGE DETECTION 827 17.3.1 LEAKAGE DETECTION OF HEPA FILTER 827" 17.3.2 LEAKAGE DETECTION OF ISOLATION BIOCLEAN CABINET 841 17.4 CLEANROOM MEASUREMENT 847 17.4.1 MEASUREMENT TYPES OF CLEANROOM 847 17.4.2 TEST STATUS OF CLEANROOM 851 17.4.3 NECESSARY SAMPLING POINTS 853 17.4.4 CONTINUOUS SAMPLING METHOD 858 17.4.5 FACTORS INFLUENCING MEASUREMENT RESULT 860 17.5 EVALUATION OF AIR CLEANLINESS IN CLEANROOM 861 17.5.1 EVALUATION STANDARD OF AIR CLEANLINESS IN CLEANROOM 861 17.5.2 DYNAMIC-TO-STATIC RATIO 867 17.5.3 CORRECTION TO ATMOSPHERIC DUST CONCENTRATION 869 REFERENCES 870 ERRATUM EL
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author	Xu, Zhonglin
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language	German
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spelling	Xu, Zhonglin Verfasser aut Fundamentals of air cleaning technology and its application in cleanrooms authored by Zhonglin Xu Berlin Springer 2014 XVII, 871 S. 520 schw.-w. Ill., 1 farb. Ill. 235 mm x 155 mm txt rdacontent n rdamedia nc rdacarrier Luftreinigung (DE-588)4168278-6 gnd rswk-swf Reinraumtechnik (DE-588)4177592-2 gnd rswk-swf Luftreinigung (DE-588)4168278-6 s Reinraumtechnik (DE-588)4177592-2 s DE-604 Erscheint auch als Online-Ausgabe 978-3-642-39374-7 text/html http://deposit.dnb.de/cgi-bin/dokserv?id=4356607&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=026803121&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Xu, Zhonglin Fundamentals of air cleaning technology and its application in cleanrooms Luftreinigung (DE-588)4168278-6 gnd Reinraumtechnik (DE-588)4177592-2 gnd
subject_GND	(DE-588)4168278-6 (DE-588)4177592-2
title	Fundamentals of air cleaning technology and its application in cleanrooms
title_auth	Fundamentals of air cleaning technology and its application in cleanrooms
title_exact_search	Fundamentals of air cleaning technology and its application in cleanrooms
title_full	Fundamentals of air cleaning technology and its application in cleanrooms authored by Zhonglin Xu
title_fullStr	Fundamentals of air cleaning technology and its application in cleanrooms authored by Zhonglin Xu
title_full_unstemmed	Fundamentals of air cleaning technology and its application in cleanrooms authored by Zhonglin Xu
title_short	Fundamentals of air cleaning technology and its application in cleanrooms
title_sort	fundamentals of air cleaning technology and its application in cleanrooms
topic	Luftreinigung (DE-588)4168278-6 gnd Reinraumtechnik (DE-588)4177592-2 gnd
topic_facet	Luftreinigung Reinraumtechnik
url	http://deposit.dnb.de/cgi-bin/dokserv?id=4356607&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=026803121&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT xuzhonglin fundamentalsofaircleaningtechnologyanditsapplicationincleanrooms

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