Verfügbarkeit: Zeolites in industrial separation and catalysis

Zeolites in industrial separation and catalysis:

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Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2010
Schlagworte:	Catalysis Chemistry, Technical Separation (Technology) Zeolite catalysts Zeolites Adsorbens Membranverfahren Katalysator Zeolith
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XXIII, 593 S. Ill., graph. Darst.
ISBN:	9783527325054

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Datensatz im Suchindex

_version_	1805093140424556544
adam_text	CONTENTS PREFACE XIX LIST OF CONTRIBUTORS XXIII 1 INTRODUCTION 7 EDITH M. FLANIGEN, ROBERT W. BROACH, AND STEPHEN T. WILSON 1.1 INTRODUCTION 1 1.1.1 MOLECULAR SIEVES AND ZEOLITES 1 1.1.2 NOMENCLATURE 2 1.1.3 EARLY HISTORY 3 1.1.4 NATURAL ZEOLITES 4 1.2 HISTORY OF MOLECULAR SIEVE MATERIALS 5 1.2.1 ALUMINOSILICATE ZEOLITES AND SILICA MOLECULAR SIEVES 6 1.2.2 THE MATERIALS EXPLOSION SINCE THE 1980S 7 1.2.2.1 THE 1980S 7 1.2.2.2 THE 1990S 11 1.2.2.3 THE NEW MILLENNIUM 14 1.3 SYNTHESIS I 5 1.4 APPLICATIONS 16 1.5 MARKETS 17 1.6 THE FUTURE 17 1.6.1 MATERIALS 17 1.6.2 APPLICATIONS 18 1.7 HISTORY OF INTERNATIONAL CONFERENCES AND ORGANIZATIONS 18 1.8 HISTORICAL EPILOG 20 REFERENCES 20 FURTHER READING 26 2 ZEOLITE TYPES AND STRUCTURES 27 ROBERT W. BROACH 2.1 INTRODUCTION 27 2. BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/996244921 DIGITALISIERT DURCH VI I CONTENTS 2.3 ZEOLITE FRAMEWORK TYPES 31 2.4 PORES, CHANNELS, CAGES AND CAVITIES 32 2.5 MATERIALS VERSUS FRAMEWORK TYPES 34 2.6 STRUCTURES OF COMMERCIALLY SIGNIFICANT ZEOLITES 35 2.6.1 LINDE TYPE A (LTA) 36 2.6.2 FAUJASITE (FAU) 38 2.6.3 MORDENITE (MOR) 40 2.6.4 CHABAZITE (CHA) 42 2.6.5 ZSM-5 (MFI) 45 2.6.6 LINDE TYPE L (LTL) 47 2.6.7 BETA POLYMORPHS *BEA AND BEC 49 2.6.8 MCM-22 (MWW) 51 2.7 HYPOTHETICAL ZEOLITE FRAMEWORKS 54 ACKNOWLEDGMENTS 55 REFERENCES 55 3 SYNTHESIS OF ZEOLITES AND MANUFACTURE OF ZEOLITIC CATALYSTS AND ADSORBENTS 67 ROBERT L BEDARD 3.1 INTRODUCTION 61 3.2 SYNTHESIS OF ZEOLITES AND ALURM'NOPHOSPHATE MOLECULAR SIEVES 62 3.2.1 HYDROTHERMAL SYNTHESIS-THE KEY TO METASTABLE PHASES 62 3.2.2 TYPICAL ZEOLITE SYNTHESES 63 3.2.3 IMPORTANT SYNTHESIS PARAMETERS-ZEOLITES 65 3.2.4 TYPICAL ALUMINOPHOSPHATE SYNTHESES 66 3.2. CONTENTS VII 4.2 MULTI-TECHNIQUE METHODOLOGY 86 4.2.1 IDENTIFICATION OF THE STRUCTURE OF A NEWLY INVENTED ZEOLITE 86 4.3 X-RAY POWDER DIFFRACTION CHARACTERIZATION OF ZEOLITIC SYSTEMS 91 4.3.1 INTERPRETATION OF POWDER DIFFRACTION DATA FOR ZEOLITES 91 4.3.2 PHASE IDENTIFICATION AND QUANTIFICATION 92 4.3.3 UNIT CELL SIZE DETERMINATION 94 4.3.4 CRYSTALLITE SIZE 95 4.3.5 RIETVELD REFINEMENT 96 4.4 ELECTRON MICROSCOPY CHARACTERIZATION OF ZEOLITIC SYSTEMS 97 4.4.1 IMPORTANCE OF ELECTRON MICROSCOPY FOR CHARACTERIZING ZEOLITES 97 4.4.2 SCANNING ELECTRON MICROSCOPY 98 4.4.2.1 MORPHOLOGICAL CHARACTERIZATION 98 4.4.2.2 COMPOSITIONAL CHARACTERIZATION 100 4.4.3 TRANSMISSION ELECTRON MICROSCOPY 104 4.4.3.1 SAMPLE PREPARATION 104 4.4.3.2 STRUCTURAL CHARACTERIZATION 105 4.4.3.3 MORPHOLOGICAL CHARACTERIZATION 106 4.4.3.4 COMPOSITIONAL CHARACTERIZATION 108 4.4.3.5 STEM APPLICATION TO METALS IN ZEOLITES AND COKE ANALYSIS 109 VIII CONTENTS 4.6 NMR CHARACTERIZATION OF ZEOLITIC SYSTEMS 140 4.6.1 INTRODUCTION TO NMR 140 4.6.1.1 SPIN-HALF NUCLEI 142 4.6.1.2 CROSS POLARIZATION 142 4.6.1.3 QUADRUPOLAR NUCLEI 143 4.6.1.4 DIPOLAR RECOUPLING 143 4.6.1.5 PULSED FIELD GRADIENT NMR-DIFFUSION 144 4.6.2 APPLICATIONS 145 4.6.2.1 29 SI NMR 145 4.6.2.2 27 A1 NMR 147 4.6.2.3 31 P NMR 149 4.6.2.4 'H NMR 150 4.6.2.5 17 O AND OTHER NUCLEI 151 4.6.2.6 DIFFUSION OF HYDROCARBONS IN ZEOLITES 151 4.7 PHYSICAL/CHEMICAL CHARACTERIZATION 152 4.7.1 NITROGEN PHYSISORPTION 152 4.7.2 THERMAL AND MECHANICAL ANALYSES 154 4.7.3 ADSORPTION CAPACITY 156 A.7A ACID SITES 157 4.8 CONCLUSIONS 158 4.8.1 FUTURE CHARACTERIZATION DIRECTIONS 158 CONTENTS IX 5.4 SUMMARY REVIEW OF ZEOLITES IN ADSORPTIVE SEPARATION 191 ACKNOWLEDGMENTS 3 92 REFERENCES 192 6 ASPECTS OF MECHANISMS, PROCESSES, AND REQUIREMENTS FOR ZEOLITE SEPARATION 203 SANTI KULPRATHIPANJA 6.1 INTRODUCTION 203 6.2 IMPACTS OF ADSORPTIVE SEPARATION VERSUS OTHER SEPARATION PROCESSES 203 6.3 LIQUID PHASE ADSORPTION 206 6.3.1 SANDERSON'S MODEL OF INTERMEDIATE ELECTRONEGATIVITY 207 6.4 MODES OF OPERATION 208 6.4.1 ADSORPTION ISOTHERMS 209 6.4.2 PULSE TEST PROCEDURE 209 6.4.3 BREAKTHROUGH PROCEDURE 230 6.5 ZEOLITE SEPARATION PROCESSES 211 6.5.1 EQUILIBRIUM-SELECTIVE ADSORPTION 211 6.5.1.1 ZEOLITE FRAMEWORK STRUCTURE 212 6.5.1.2 METAL CATION EXCHANGED IN ZEOLITE 232 6.5.1.3 ZEOLITE SIO 2 /AL 2 O 3 MOLAR RATIO 236 6.5.1.4 MOISTURE CONTENT IN ZEOLITE 218 6.5.1.5 CHARACTERISTICS OF THE DESORBENT 239 6.5.1.6 OPERATING TEMPERATURE 220 X CONTENTS 7.2.2.1 INDUSTRIAL USES AND DEMAND 243 7.2.2.2 METHOD OF PRODUCTION 241 7.2.2.3 CHARACTERISTICS OF ZEOLITIC ADSORPTIVE PROCESS 242 7.3 OTHER SIGNIFICANT PROCESSES 243 7.3.1 2,6-DIMETHYLNAPHTHALENE 244 7.3.1.1 INDUSTRIAL USES AND DEMAND 244 7.3.1.2 METHOD OF PRODUCTION 244 7.3.2 ETHYLBENZENE 244 7.3.2.1 INDUSTRIAL USES AND DEMAND 244 7.3.2.2 METHOD OF PRODUCTION 244 7.3.3 P-CRESOL 245 7.3.3.1 INDUSTRIAL USES AND DEMAND 245 7.3.3.2 METHOD OF PRODUCTION: ADSORBENT-DESORBENT 245 7.4 SUMMARY 245 REFERENCES 246 8 LIQUID INDUSTRIAL NON-AROMATICS ADSORPTIVE SEPARATIONS 249 STEPHEN W. SOHN 8.1 INTRODUCTION 249 8.2 NORMAL PARAFFIN SEPARATIONS 249 8.2.1 CHARACTERISTICS OF ADSORBENT FOR NORMAL PARAFFIN EXTRACTION 250 8.2.1.1 SELECTIVITY 250 8.2.1.2 CAPACITY 251 8.2.1.3 MASS TRANSFER RATE 252 8.2.1.4 STABILITY 252 CONTENTS XI 8.3 MONO-METHYL PARAFFINS SEPARATION (C 10 _I 6 ) 263 8.3.1 INDUSTRIAL USE AND DEMAND 263 8.3.2 UNIQUE OPERATING PARAMETERS 264 8.4 OLEFIN SEPARATIONS 265 8.4.1 C 4 SEPARATIONS 266 8.4.1.1 INDUSTRIAL USE AND DEMAND 266 8.4.1.2 UNIQUE OPERATING PARAMETERS 266 8.4.2 DETERGENT RANGE OLEX C^ 267 8.4.2.1 INDUSTRIAL USE AND DEMAND 267 8.4.2.2 UNIQUE OPERATING PARAMETERS 268 8.5 CARBOHYDRATE SEPARATION 269 8.5.1 INDUSTRIAL USE AND DEMAND 269 8.5.2 UNIQUE OPERATING PARAMETERS 269 8.6 LIQUID ADSORPTION ACID SEPARATIONS 269 8.6.1 CITRIC ACID SEPARATION 270 8.6.1.1 INDUSTRIAL USE AND DEMAND 270 8.6.1.2 UNIQUE OPERATING PARAMETERS 270 8.6.2 FREE FATTY ACID SEPARATION 270 8.6.2.1 INDUSTRIAL USE AND DEMAND 270 8.6.2.2 UNIQUE OPERATING PARAMETERS 270 8.7 SUMMARY 271 REFERENCES 271 9 INDUSTRIAL GAS PHASE ADSORPTIVE SEPARATIONS 273 STEPHEN XII CONTENTS 9.5.2 DE-SULFURIZATION 294 9.5.3 CO 2 REMOVAL 295 9.5.4 VOC REMOVAL 296 9.5.5 MERCURY REMOVAL 296 9.6 INDUSTRIAL PSA 296 9.6.1 PSA AIR SEPARATION 297 9.6.2 PSA H2 PURIFICATION 299 9.6.3 PSA DEHYDRATION 300 9.7 INDUSTRIAL DEHYDRATION (BULK REMOVAL) 301 9.7.1 DESICCANT WHEELS 301 9.7.2 ENTHALPY CONTROL WHEELS 302 9.8 NON-REGENERABLE ADSORPTION 303 9.9 SUMMARY 303 NOMENCLATURE 303 GREEK 304 REFERENCES 304 10 ZEOLITE MEMBRANE SEPARATIONS 307 JESSICA O'BRIEN-ABRAHAM AND JERRY Y.S. LIN 10.1 INTRODUCTION 307 10.2 SYNTHESIS AND PROPERTIES OF ZEOLITE MEMBRANES 309 10.2.1 IN SITU CRYSTALLIZATION 309 10.2.2 SECONDARY (SEEDED) GROWTH 311 10.2.3 CHARACTERIZATION OF ZEOLITE MEMBRANES 313 CONTENTS XIII 11.2 COMPOSITIONS OF MIXED-MATRIX MEMBRANES 332 11.2.1 NON-ZEOLITE/POLYMER MIXED-MATRIX MEMBRANES 333 11.2.2 ZEOLITE/POLYMER MIXED-MATRIX MEMBRANES 333 11.3 CONCEPT OF ZEOLITE/POLYMER MIXED-MATRIX MEMBRANES 334 11.4 MATERIAL SELECTION FOR ZEOLITE/POLYMER MIXED-MATRIX MEMBRANES 336 11.4.1 SELECTION OF POLYMER AND ZEOLITE MATERIALS 336 11.4.1.1 SELECTION OF POLYMER MATERIALS 336 11.4.1.2 SELECTION OF ZEOLITE MATERIALS 337 11.4.1.3 COMPATIBILITY BETWEEN POLYMER AND ZEOLITE MATERIALS 339 11.4.2 MODIFICATION OF ZEOLITE AND POLYMER MATERIALS 339 11.5 GEOMETRIES OF ZEOLITE/POLYMER MIXED-MATRIX MEMBRANES 341 11.5.1 MIXED-MATRIX DENSE FILMS 341 11.5.2 ASYMMETRIC MIXED-MATRIX MEMBRANES 342 11.5.2.1 FLAT SHEET ASYMMETRIC MIXED-MATRIX MEMBRANES 343 11.5.2.2 HOLLOW FIBER ASYMMETRIC MIXED-MATRIX MEMBRANES 345 11.5.2.3 THIN-FILM COMPOSITE MIXED-MATRIX MEMBRANES 346 11.6 APPLICATIONS OF ZEOLITE/POLYMER MIXED-MATRIX MEMBRANES 346 11.6. XIV CONTENTS 12.2.5 CHAIN-BREAKING REACTIONS 369 12.2.5.1 USE OF ZEOLITES IN FCC TYPE FEEDS 369 12.2.5.2 OLEFIN CRACKING 377 12.2.6 DEHYDROAROMATIZATION 377 12.2.6.1 LIGHT ALKANES TO AROMATICS 377 12.2.6.2 METHANE TO AROMATICS 377 12.2.7 METHANOL TO OLEFINS 383 12.2.8 HYDROTREATING AND HYDROCRACKING 383 12.2.9 REACTIONS USING HETEROATOM SUBSTITUTED ZEOLITES 387 12.2.9.1 EPOXIDATION 387 12.2.9.2 OTHER OXIDATIONS 387 12.3 FUTURE TRENDS IN CATALYSIS BY ZEOLITES 393 REFERENCES 393 13 UNIQUE ASPECTS OF MECHANISMS AND REQUIREMENTS FOR ZEOLITE CATALYSIS IN REFINING AND PETROCHEMICALS 403 HAYIM ABREVAYA 13.1 INTRODUCTION 403 13.2 ADSORPTION 404 13.2.1 LANGMUIR ISOTHERM AND REACTION KINETICS 404 13.2.2 NITROGEN ADSORPTION 406 13.2.3 HYDROCARBON ADSORPTION 408 13.2.3.1 PURE COMPONENT ADSORPTION AND SPECIFICITY WITH RESPECT TO ZEOLITE TOPOLOGY 408 13.2.3.2 ENERGETICS OF ADSORPTION 433 13.2.3. CONTENTS XV 13.7.2 REACTANT SHAPE SELECTIVITY 435 13.7.3 TRANSITION STATE SHAPE SELECTIVITY 435 13.7.3.1 META-XYLENE DISPROPORTIONATION 435 13.7.3.2 METHYLCYCLOHEXANE RING CONTRACTION 436 13.7.3.3 ALKANE HYDROSIOMERIZATION 436 13.7.3.4 DIMETHYLETHER CARBONYLATION 438 13.7.4 PRODUCT SHAPE SELECTIVITY 438 13.7.4.1 ALKANE HYDROISOMERIZATION 438 13.7.4.2 OLIGOMERIZATION OF PROPYLENE 441 13.7.4.3 ALKYLATION OF NAPHTHALENE 443 13.7.4.4 HYDROCRACKING OF N-HEXADECANE 443 13.7.4.5 META-XYLENE ISOMERIZATION 445 13.7.4.6 METHANOL TO OLEFINS 446 13.7.4.7 OTHER EXAMPLES OF PRODUCT SHAPE SELECTIVITY 446 13.7.5 CRYSTAL SIZE EFFECTS 446 13.8 REACTION MECHANISMS 447 13.8.1 ALKENE SKELETAL ISOMERIZATION 447 13.8.1.1 UNIMOLECULAR MECHANISM 447 13.8.1.2 BIMOLECULAR MECHANISM 448 13.8.2 ALKENE OLIGOMERIZATION 448 13.8.3 ALKYLATION 450 13.8.3.1 ISOBUTANE ALKYLATION BY 2-BUTYLENE 450 13.8.3. XVI I CONTENTS 14.3 OLEFIN ISOMERIZATION 484 14.3.1 GENERAL CONSIDERATIONS 484 14.3.2 CIS-TRANS AND DOUBLE BOND ISOMERIZATION 485 14.3.3 SKELETAL ISOMERIZATION (BUTENES, PENTENES, HEXENES) 486 14.3.4 SKELETAL ISOMERIZATION (LONGER-CHAIN OLEFINS) 488 14.3.5 OLEFIN ISOMERIZATION SUMMARY 488 14.4 C8 AROMATICS ISOMERIZATION 488 14.4.1 THE CHEMISTRY OF C8 AROMATICS ISOMERIZATION 489 14.4.1.1 FEED COMPOSITION AND CHARACTERISTICS 489 14.4.1.2 REACTION PRODUCT COMPOSITION AND CHARACTERISTICS 490 14.4.1.3 ISOMERIZATION REACTIONS 491 14.4.2 C8 AROMATICS ISOMERIZATION CATALYSTS 494 14.4.2.1 GENERAL ASPECTS 494 14.4.2.2 REGENERATION 495 14.4.3 C8 AROMATICS ISOMERIZATION PROCESSES 495 14.4.3.1 PROCESS VARIABLES 495 14.4.3.2 COMMERCIAL CATALYSTS 496 14.4.3.3 MODELING/OPTIMIZATION OF COMMERCIAL UNITS 497 14.4.3.4 PROCESS FLOW SCHEMES 498 14.4.4 FUTURE DEVELOPMENTS 499 CONTENTS XVII 15.4.3 STYRENE AND ETHYLBENZENE FROM METHYLATION OF TOLUENE 515 15.4.3.1 PROCESS CHEMISTRY: FEEDS, PRODUCTS AND REACTIONS 515 15.4.3.2 CATALYSTS 536 15.4.3.3 PHYSICOCHEMICAL CHARACTERIZATION OF ACTIVE SITES 516 15.5 ALKYLBENZENE DISPROPORTIONATION AND TRONS-ALKYLATION 537 15.5.1 PROCESS CHEMISTRY: FEEDS, PRODUCTS AND REACTIONS 517 15.5.2 CATALYSTS 517 15.5.3 PHYSICOCHEMICAL CHARACTERIZATION OF ACTIVE SITES 538 15.6 PARAFFIN/OLEFIN TO AROMATICS 538 15.6.1 C3/C4 PARAFFIN TO AROMATICS AND C 3 /C 4 PARAFFIN/OLEFIN TO AROMATICS 518 15.6.1.1 PROCESS CHEMISTRY: FEEDS, PRODUCTS AND REACTIONS 518 15.6.1.2 CATALYSTS 519 15.6.1.3 PHYSICOCHEMICAL CHARACTERIZATION OF ACTIVE SITES 519 15.6.2 C 6 /C 7 PARAFFIN TO AROMATICS (ZEOLITIC REFORMING) 520 15.6.2.1 PROCESS CHEMISTRY: FEEDS, PRODUCTS AND REACTIONS 520 15.6.2.2 CATALYSTS 520 15.6.2.3 PHYSICOCHEMICAL CHARACTERIZATION OF ACTIVE SITES 520 15.7 METHANOL TO OLEFINS AND AROMATICS 523 15.7. XVIII CONTENTS 16.4.2 THE CHANGING ROLE OF THE FCC: TRANSPORTATION FUEL PRODUCTION OR PETROCHEMICAL FEED PRODUCTION 560 16.5 HYDROCRACKING AND HYDROISOMERIZATION 560 16.5.1 PROCESS CONFIGURATIONS AND CATALYSTS 561 16.5.2 CATALYST REQUIREMENTS FOR THE HYDROCRACKER 563 16.5.3 THE CHANGING ROLE OF THE HYDROCRACKER IN A REFORMULATED FUELS ENVIRONMENT 565 16.6 CONCLUSIONS 566 REFERENCES 566 INDEX 571
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illustrated	Illustrated
indexdate	2024-07-20T10:22:45Z
institution	BVB
isbn	9783527325054
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-018662623
oclc_num	463642324
open_access_boolean
owner	DE-29T DE-703 DE-384 DE-91G DE-BY-TUM DE-20
owner_facet	DE-29T DE-703 DE-384 DE-91G DE-BY-TUM DE-20
physical	XXIII, 593 S. Ill., graph. Darst.
publishDate	2010
publishDateSearch	2010
publishDateSort	2010
publisher	Wiley-VCH
record_format	marc
spelling	Zeolites in industrial separation and catalysis ed. by Santi Kulprathipanja Weinheim Wiley-VCH 2010 XXIII, 593 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Catalysis Chemistry, Technical Separation (Technology) Zeolite catalysts Zeolites Adsorbens (DE-588)4141454-8 gnd rswk-swf Membranverfahren (DE-588)4231727-7 gnd rswk-swf Katalysator (DE-588)4029919-3 gnd rswk-swf Zeolith (DE-588)4067660-2 gnd rswk-swf Zeolith (DE-588)4067660-2 s Katalysator (DE-588)4029919-3 s DE-604 Adsorbens (DE-588)4141454-8 s Membranverfahren (DE-588)4231727-7 s 1\p DE-604 Kulprathipanja, Santi Sonstige oth text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3348539&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=018662623&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Zeolites in industrial separation and catalysis Catalysis Chemistry, Technical Separation (Technology) Zeolite catalysts Zeolites Adsorbens (DE-588)4141454-8 gnd Membranverfahren (DE-588)4231727-7 gnd Katalysator (DE-588)4029919-3 gnd Zeolith (DE-588)4067660-2 gnd
subject_GND	(DE-588)4141454-8 (DE-588)4231727-7 (DE-588)4029919-3 (DE-588)4067660-2
title	Zeolites in industrial separation and catalysis
title_auth	Zeolites in industrial separation and catalysis
title_exact_search	Zeolites in industrial separation and catalysis
title_full	Zeolites in industrial separation and catalysis ed. by Santi Kulprathipanja
title_fullStr	Zeolites in industrial separation and catalysis ed. by Santi Kulprathipanja
title_full_unstemmed	Zeolites in industrial separation and catalysis ed. by Santi Kulprathipanja
title_short	Zeolites in industrial separation and catalysis
title_sort	zeolites in industrial separation and catalysis
topic	Catalysis Chemistry, Technical Separation (Technology) Zeolite catalysts Zeolites Adsorbens (DE-588)4141454-8 gnd Membranverfahren (DE-588)4231727-7 gnd Katalysator (DE-588)4029919-3 gnd Zeolith (DE-588)4067660-2 gnd
topic_facet	Catalysis Chemistry, Technical Separation (Technology) Zeolite catalysts Zeolites Adsorbens Membranverfahren Katalysator Zeolith
url	http://deposit.dnb.de/cgi-bin/dokserv?id=3348539&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=018662623&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT kulprathipanjasanti zeolitesinindustrialseparationandcatalysis

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