Microalgal biotechnology: potential and production:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
De Gruyter
2012
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XIX, 266 S. Ill., graph. Darst. |
| ISBN: | 9783110225013 |
Internformat
MARC
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| 020 | |a 9783110225013 |9 978-3-11-022501-3 | ||
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| 084 | |a BIO 502f |2 stub | ||
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| 245 | 1 | 0 | |a Microalgal biotechnology: potential and production |c eds. Clemens Posten ... |
| 264 | 1 | |a Berlin [u.a.] |b De Gruyter |c 2012 | |
| 300 | |a XIX, 266 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 4 | |a Microalgae |x Biotechnology | |
| 650 | 4 | |a Biomass energy | |
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| 700 | 1 | |a Posten, Clemens |e Sonstige |4 oth | |
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| 999 | |a oai:aleph.bib-bvb.de:BVB01-025432689 | ||
Datensatz im Suchindex
| _version_ | 1804149696587890688 |
|---|---|
| adam_text | CONTENTS
PREFACE * V
CLEMENS POSTEN
1 INTRODUCTION - DISCOVERING MICROALGAE AS SOURCE FOR SUSTAINABLE
BIOMASS * 1
1.1 ALL LIFE EMINATES FROM THE SUN! ALL LIFE ORIGINATES FROM THE SEA! 1
1.2 SUSTAINABLE MICROALGAL BIOMASS OF THE THIRD GENERATION 3
1.2.1 MICROALGAE PRODUCE 5 TIMES MORE BIOMASS PER HECTARE THAN
TERRESTRIAL CROPS * 3
1.2.2 MICROALGAE CAN BE CULTIVATED IN ARID AREAS WHICH ARE NOT SUITABLE
FOR
AGRICULTURE * 4
1.2.3 MICROALGAE EXHIBIT HIGH LIPID CONTENTS OVER 50%
AND HIGH TITERS OF
OTHER PRODUCTS * 4
1.3 THE TECHNICAL CHALLENGE 4
1.3.1 MICROALGAE CAN USE C0
2
AND SUNLIGHT 4
1.3.2 MICROALGAE CAN DELIVER CHEAP SUSTAINABLE BIOMASS FOR BULK
CHEMICALS
AND BIOFUELS * 5
1.3.3 MICROALGAE CAN BE PRODUCED NEARLY EVERYWHERE 5
1.3.4 MICROALGAE DO NOT NEED PESTICIDES AND ONLY LITTLE FERTILIZERS 6
1.3.5 CLOSED PHOTOBIOREACTORS AS TOOLS OF CHOICE 7
THE BIOLOGICAL POTENTIAL OF MICROALGAE
THOMAS FRIEDL, NATALIYA RYBALKA AND ANASTASIIA KRYVENDA
2 PHYLOGENY AND SYSTEMATICS OF MICROALGAE: AN OVERVIEW 11
2.1 INTRODUCTION 11
2.2 DIVERSITY AND EVOLUTION OF MICROALGAE 16
2.2.1 ALGAL DIVERSITY 16
2.2.2 ALGAL EVOLUTION 17
2.3 CYANOBACTERIA: THE PROKARYOTIC ALGAE 19
2.4 PLANTAE OR ARCHAEPLASTIDA SUPERGROUP: GREEN ALGAE, RED ALGAE AND
GLAUCOPHYTES *22
2.4.1 VIRIDIPLANTAE: THE GREEN ALGAE DISTRIBUTED OVER TWO PHYLA 22
2.4.2 RHODOPHYTA: RED ALGAE *25
2.4.3 GLAUCOPHYTES 26
2.5 CHROMALVEOLATE ALGAE: THE PHOTOSYNTHETIC STRAMENOPILES (HETEROKONT
ALGAE) * 26
2.5.1 DIATOMS (BACILLARIOPHYTA; PHOTOSYNTHETIC STRAMENOPILES) 27
2.5.2 EUSTIGMATOPHYCEAE AND XANTHOPHYCEAE (PHOTOSYNTHETIC
STRAMENOPILES) 29
2.5.3 OTHER PHOTOSYNTHETIC STRAMENOPILES *30
HTTP://D-NB.INFO/102154910X
VIII
* CONTENTS
2.5.3.1 RAPHIDOPHYCEAE *30
2.5.3.2 SYNUROPHYCEAE AND CHRYSOPHYCEAE *30
2.5.3.3 PHAEOPHYCEAE 31
2.6 CHROMALVEOLATE ALGAE: COCCOLITHOPHORIDS AND HAPTOPHYTE ALGAE
31
2.7 CHROMALVEOLATE ALGAE: DINOFLAGELLATES (DINOPHYTA) * 32
2.8 EUGLENOIDS (EXCAVATA SUPERGROUP) * 33
ACKNOWLEDGEMENTS * 33
REFERENCES * 34
CHRISTIAN WILHELM AND TORSTEN JAKOB
3 BALANCING THE CONVERSION EFFICIENCY FROM PHOTON TO BIOMASS 39
3.1 INTRODUCTION 39
3.2 DEFINITION OF IMPORTANT TERMS 40
3.2.1 PHOTOSYNTHETIC EFFICIENCY 40
3.2.2 GROWTH EFFICIENCY (PHOTON TO BIOMASS EFFICIENCY) 41
3.3 PHYSIOLOGICAL DYNAMICS OF PROCESSES WHICH CONTROL BIOLOGICAL ENERGY
CONVERSION EFFICIENCY * 45
3.3.1 ABSORPTION 45
3.3.2 REGULATION AND EFFICIENCY OF PHOTOCHEMISTRY
* 46
3.3.3 REGULATION OF ELECTRON FLOW 47
3.3.4 REGULATION OF CARBON ALLOCATION * 48
3.4 CONCLUSIONS FOR MICROALGAL BIOTECHNOLOGY 50
REFERENCES * 51
THOMAS BRUCK AND DANIEL GARBE
4 ALGAE SYMBIOSIS WITH EUKARYOTIC PARTNERS * 55
4.1 INTRODUCTION TO ALGAE-SPECIFIC SYMBIOSIS 55
4.1.1 IMPORTANCE OF ALGAE SYMBIOTIC RELATIONSHIPS 55
4.1.2 MODES OF ALGAE SYMBIOSIS WITH EUKARYOTES 56
4.2 AQUATIC SYSTEMS * 58
4.2.1 ALGAE SYMBIOSIS WITH CNIDARIA 58
4.2.1.1 SYMBIONT UPTAKE AND MANAGEMENT * 60
4.2.1.2 FLUX OF PRIMARY METABOLITES IN HOST AND SYMBIONT 60
4.2.1.3 OPTIMIZING PHOTOSYNTHESIS FOR EFFICIENT METABOLITE EXCHANGE 61
4.2.1.4 SYMBIONT-DERIVED SECONDARY METABOLITES *61
4.2.1.5 EFFECTS OF ENVIRONMENTAL STRESS ON SYMBIOSIS * 62
4.2.2 ALGAE SYMBIOSIS WITH PORIFERA *62
4.2.2.1 MORPHOLOGY OF SPONGE-ALGAE ASSOCIATIONS * 63
4.2.2.2 SYMBIONT UPTAKE, SPECIFICITY AND TRANSMISSION * 64
4.2.2.3 FLUX OF PRIMARY METABOLITES IN HOST AND SYMBIONT 64
4.2.2.4 SYMBIONT-DERIVED SECONDARY METABOLITES * 65
CONTENTS
IX
4.2.2.5 EFFECTS OF ENVIRONMENTAL STRESS ON SYMBIOSIS 65
4.2.3 ALGAE SYMBIOSIS WITH MOLLUSCA 66
4.2.3.1 MORPHOLOGY OF MOLLUSC-ALGAE ASSOCIATIONS * 66
4.2.3.2 SYMBIONT UPTAKE AND MAINTENANCE * 67
4.2.3.3 FLUX OF PRIMARY METABOLITES IN HOST AND SYMBIONT 68
4.3 TERRESTRIAL SYSTEM *68
4.3.1 LICHENS: ECOLOGICAL PIONEERS 68
4.3.2 MODES OF LICHEN SYMBIOSIS 69
4.3.3 LICHEN TAXONOMY AND EVOLUTION 69
4.3.4 LICHEN MORPHOLOGY 70
4.3.5 SYMBIOTIC INTERACTIONS 71
4.3.6 LICHEN GROWTH AND PROPAGATION 72
4.3.6.1 LICHEN PROPAGATION * 73
4.3.7 SYMBIOTIC BENEFITS FOR ALGAL PHOTOBIONTS * 73
4.3.8 BIOTECHNOLOGICAL ASPECTS OF LICHEN/MYCOBIONT CULTIVATION 76
4.3.9 POTENTIAL OF BIOACTIVE LICHEN-DERIVED METABOLITES * 77
REFERENCES 79
ANNA KIRCHMAYR AND CHRISTOPH GRIESBECK
5 GENETIC ENGINEERING, METHODS AND TARGETS *87
5.1 INTRODUCTION 87
5.2 METHODS IN GENETIC ENGINEERING OF EUKARYOTIC MICROALGAE 87
5.2.1 TRANSFORMATION 87
5.2.1.1 GLASS BEADS AND SILICON WHISKERS 87
5.2.1.2 PARTICLE BOMBARDMENT 88
5.2.1.3 ELECTROPORATION 88
5.2.1.4 AGROBACTERIUM TUMEFACIENS-MEDIATED TRANSFORMATION *88
5.2.2 PROMOTERS 89
5.2.3 GENE SILENCING 91
5.2.4 CODON USAGE 91
5.2.5 IMPROVEMENT OF EXPRESSION RATES AND SECRETION OF PROTEINS 91
5.2.6 SELECTION MARKERS *93
5.2.7 REPORTER GENES 94
5.3 EXAMPLES FOR BIOTECHNOLOGICAL RELEVANT PROTEINS * 96
5.3.1 PROTEINS EXPRESSED IN CHLAMYDOMONAS REINHARDTII 96
5.3.2 RECOMBINANT PROTEINS IN OTHER MICROALGAE 98
5.4 FUTURE PROSPECTS/OUTLOOK 98
5.4.1 METHODS FOR GENETIC ENGINEERING 98
5.4.2 PRODUCTS FROM GENETICALLY MODIFIED MICROALGAE 99
ACKNOWLEDGEMENTS 100
REFERENCES *100
X * CONTENTS
JEAN-PAUL CADORET, ALEXANDRE LEJEUNE, REMY MICHEL AND AUDE CARLIER
6 ALGENICS: PROVIDING MICROALGAL TECHNOLOGIES FOR BIOLOGICAL DRUGS * 107
6.1 BACKGROUND AND INCEPTION OF THE COMPANY 107
6.2 DEVELOPMENT AND OPTIMIZATION OF PROPRIETARY TECHNOLOGIES 108
6.3 FROM PROOFS OF CONCEPT TO THERAPEUTIC PRODUCT CANDIDATES 109
REFERENCES *109
TECHNICAL MEANS FOR ALGAE PRODUCTION
YUSUF CHISTI
7 RACEWAYS-BASED PRODUCTION OF ALGAL CRUDE OIL 113
7.1 INTRODUCTION *113
7.2 RACEWAYS 114
7.2.1 GENERAL CONFIGURATION 114
7.2.2 FLOW IN A RACEWAY 115
7.2.3 POWER CONSUMPTION FOR MIXING*
118
7.2.4 PADDLEWHEEL DESIGN *120
7.2.5 LOCATION 121
7.2.6 EVAPORATION FROM RACEWAYS 121
7.2.7 TEMPERATURE VARIATIONS 122
7.2.8 CULTURE PH AND CARBON DIOXIDE DEMAND 124
7.2.9 OXYGEN REMOVAL 125
7.2.10 POTENTIAL FOR CONTAMINATION *126
7.2.11 IRRADIANCE VARIATION WITH DEPTH 126
7.2.12 LOCAL AND AVERAGE VALUES OF SPECIFIC GROWTH RATE * 128
7.2.13 RACEWAY CAPITAL COST *129
7.3 ALGAL CRUDE OIL AS REPLACEMENT PETROLEUM * 130
7.4 ALGAE BIOMASS PRODUCTION 131
7.4.1 PRODUCTIVITY OF BIOMASS AND OIL 132
7.4.2 LIMITS TO ALGAL BIOMASS PRODUCTIVITY 134
7.4.2.1 PHOTOSYNTHETIC EFFICIENCY 135
7.4.2.2 WHY ARE MICROALGAE MORE EFFICIENT THAN TERRESTRIAL PLANTS? 136
7.5 ECONOMICS OF ALGAL CRUDE OIL *137
7.5.1 RESIDUAL BIOMASS *139
7.6 CONCLUDING REMARKS 141
7.7 NOMENCLATURE *142
REFERENCES *144
JEFF OBBARD
8 CELLANA LLC: ALGAE-BASED PRODUCTS FOR A SUSTAINABLE FUTURE 147
8.1 INTRODUCTION 147
8.2 CELLANA TECHNOLOGY AND DEMONSTRATION FACILITY * 147
8.3 BIOREFINERY APPROACH 148
CONTENTS
XI
8.4 PROSPECTS 150
REFERENCES *150
F. G. ADEN FERNANDEZ, ). M. FERNANDEZ SEVILLA AND E. MOLINA GRIMA
PRINCIPLES OF PHOTOBIOREACTOR DESIGN * 151
INTRODUCTION 151
MAJOR FACTORS GOVERNING THE PRODUCTION OF MICROALGAE 151
OPEN SYSTEMS *153
OPEN RACEWAYS *153
TECHNICAL ISSUES *155
SCALE-UP *157
DRAWBACKS 159
ENCLOSED PHOTOBIOREACTORS *159
FLAT-PANEL PHOTOBIOREACTORS *159
TECHNICAL ISSUES *161
SCALE-UP *166
DRAWBACKS *166
TUBULAR PHOTOBIOREACTORS *167
TECHNICAL ISSUES *168
SCALE-UP *174
SUMMARY OF MAJOR CHARACTERISTICS OF LARGE-SCALE ALGAL CULTURES
SYSTEMS *177
ACKNOWLEDGEMENTS 178
REFERENCES 178
JEREMY PRUVOST AND JEAN-FRANGOIS CORNET
10 KNOWLEDGE MODELS FOR THE ENGINEERING AND OPTIMIZATION OF
PHOTOBIOREACTORS *181
10.1 INTRODUCTION 181
10.2 THEORETICAL BACKGROUND FOR RADIATION MEASUREMENT AND
HANDLING *181
10.2.1 MAIN PHYSICAL VARIABLES 181
10.2.2 SOLAR ILLUMINATION * 184
10.3 MODELING LIGHT-LIMITED PHOTOSYNTHETIC GROWTH IN
PHOTOBIOREACTORS 184
10.3.1 OVERVIEW OF THE MODELING APPROACH 184
10.3.2 MASS BALANCES 186
10.3.3 STOICHIOMETRY OF PHOTOSYNTHETIC GROWTH 187
10.3.3.1 SIMPLE STOICHIOMETRIC EQUATIONS * 187
10.3.3.2 STRUCTURED STOICHIOMETRIC EQUATIONS 188
10.3.4 KINETIC MODELING OF PHOTOSYNTHETIC GROWTH 189
10.3.5 ENERGETICS OF PHOTOBIOREACTORS 192
9
9.1
9.2
9.3
9.3.1
9.3.1.1
9.3.1.2
9.3.1.3
9.4
9.4.1
9.4.1.1
9.4.1.2
9.4.1.3
9.4.2
9.4.2.1
9.4.2.2
9.5
XII
* CONTENTS
10.3.6 RADIATIVE TRANSFER MODELING 194
10.3.6.1 RADIATIVE TRANSFER EQUATION * 195
10.3.6.2 OPTICAL AND RADIATIVE PROPERTIES FOR MICRO-ORGANISMS 201
10.4 ILLUSTRATIONS OF THE UTILITY OF MODELING FOR THE UNDERSTANDING AND
OPTIMIZATION OF CULTIVATION SYSTEMS 203
10.4.1 UNDERSTANDING THE ROLE OF LIGHT-ATTENUATION CONDITIONS 203
10.4.1.1 ILLUMINATED FRACTION Y 203
10.4.1.2 ACHIEVING MAXIMAL PRODUCTIVITIES WITH APPROPRIATE DEFINITION OF
LIGHT-
ATTENUATION CONDITIONS 204
10.4.1.3 PREDICTION OF BIOMASS CONCENTRATION AND PRODUCTIVITY 206
10.4.1.4 ENGINEERING FORMULA FOR ASSESSMENT OF MAXIMUM KINETIC
PERFORMANCE
IN PBRS 210
10.4.2 SOLAR PRODUCTION * 211
10.4.2.1 PREDICTION OF PBR PRODUCTIVITY AS A FUNCTION OF RADIATION
CONDITIONS 211
10.4.2.2 ENGINEERING FORMULA FOR MAXIMAL PRODUCTIVITY DETERMINATION 214
10.4.3 MODELING LIGHT/DARK CYCLE EFFECTS * 214
10.5 ACKNOWLEDGMENTS * 217
10.6 NOMENCLATURE 217
REFERENCES * 220
LINDA OESCHGER AND CLEMENS POSTEN
11 CONSTRUCTION AND ASSESSMENT PARAMETERS OF PHOTOBIOREACTORS * 225
11.1 INTRODUCTION 225
11.2 TECHNICAL DESIGN FEATURES * 225
11.2.1 MATERIAL ISSUES * 226
11.2.2 GEOMETRIC PARAMETERS * 226
11.2.3 HYDRODYNAMIC PARAMETERS * 228
11.3 MEASURED PERFORMANCE CRITERIA * 230
11.4 MODE AND STABILITY OF OPERATION * 231
11.5 CONCLUSION 234
REFERENCES * 235
PETER BERGMANN, PETER RIPPLINGER, LARS BEYER AND WALTER TROSCH
12 AUTOTROPHIC, INDUSTRIAL CULTIVATION OF PHOTOSYNTHETIC MICROORGANISMS
USING FLUE GAS AS CARBON SOURCE AND SUBITEC S FLAT-PANEL-AIRLIFT (FPA)
CULTIVATION SYSTEM * 237
12.1 INTRODUCTION 237
12.2 SUBITEC GMBH AND THE FLAT-PANEL-AIRLIFT SYSTEM 237
12.3 FROM LABORATORY TO PILOT SCALE 239
REFERENCES * 242
CONTENTS
XIII
LUC ROEF, MICHEL JACQMAIN AND MARK MICHIELS
13 CASE STUDY: MICROALGAE PRODUCTION IN THE SELF-SUPPORTED PROVIAPT
VERTICAL FLAT-PANEL PHOTOBIOREACTOR SYSTEM 243
13.1 INTRODUCTION 243
13.2 PROVIAPT TECHNOLOGY AND FEATURES 243
13.3 PROSPECTS * 245
REFERENCES 245
ALEXANDER PIEK
14 CASE STUDY: BIOMASS FROM OPEN PONDS 247
14.1 INTRODUCTION * 247
14.2 PRODUCTION PROCESS 247
14.2.1 REMOVAL OF COARSE SOLIDS 248
14.2.2 CONCENTRATING THE BIOMASS 248
14.2.3 WASHING THE BIOMASS 249
14.2.4 DIFFERENCES TO CLOSED PHOTO-BIOREACTORS * 250
14.3 ENERGY CONSUMPTION 250
14.4 SURVEY OF PROCESS RELEVANT DATA 251
REFERENCES 252
MARCO BROCKEN
15 CASE STUDY: SPIRAL PLATE TECHNOLOGY FOR TOTALLY DEWATERING ALGAE
ALIVE 253
15.1 INTRODUCTION 253
15.2 SEPARATION TECHNOLOGY 253
15.2.1 EVODOS TECHNOLOGY * 253
15.2.2 KEY DESIGN PARAMETERS 254
15.3 OPERATIONAL CHARACTERISTICS 256
REFERENCES * 258
INDEX * 259
|
| any_adam_object | 1 |
| building | Verbundindex |
| bvnumber | BV040605010 |
| callnumber-first | T - Technology |
| callnumber-label | TP248 |
| callnumber-raw | TP248.27.A46 |
| callnumber-search | TP248.27.A46 |
| callnumber-sort | TP 3248.27 A46 |
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| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 579 - Microorganisms, fungi & algae |
| dewey-raw | 579.8 |
| dewey-search | 579.8 |
| dewey-sort | 3579.8 |
| dewey-tens | 570 - Biology |
| discipline | Biologie Chemie-Ingenieurwesen Biotechnologie |
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| id | DE-604.BV040605010 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T00:27:08Z |
| institution | BVB |
| isbn | 9783110225013 |
| language | English |
| lccn | 2012031109 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-025432689 |
| oclc_num | 823231767 |
| open_access_boolean | |
| owner | DE-92 DE-91S DE-BY-TUM DE-634 DE-29T DE-83 DE-526 |
| owner_facet | DE-92 DE-91S DE-BY-TUM DE-634 DE-29T DE-83 DE-526 |
| physical | XIX, 266 S. Ill., graph. Darst. |
| publishDate | 2012 |
| publishDateSearch | 2012 |
| publishDateSort | 2012 |
| publisher | De Gruyter |
| record_format | marc |
| spelling | Microalgal biotechnology: potential and production eds. Clemens Posten ... Berlin [u.a.] De Gruyter 2012 XIX, 266 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Microalgae Biotechnology Biomass energy Biotechnologie (DE-588)4069491-4 gnd rswk-swf Mikroalgen (DE-588)4453251-9 gnd rswk-swf Mikroalgen (DE-588)4453251-9 s Biotechnologie (DE-588)4069491-4 s DE-604 Posten, Clemens Sonstige oth Erscheint auch als Online-Ausgabe 978-3-11-022502-0 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025432689&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Microalgal biotechnology: potential and production Microalgae Biotechnology Biomass energy Biotechnologie (DE-588)4069491-4 gnd Mikroalgen (DE-588)4453251-9 gnd |
| subject_GND | (DE-588)4069491-4 (DE-588)4453251-9 |
| title | Microalgal biotechnology: potential and production |
| title_auth | Microalgal biotechnology: potential and production |
| title_exact_search | Microalgal biotechnology: potential and production |
| title_full | Microalgal biotechnology: potential and production eds. Clemens Posten ... |
| title_fullStr | Microalgal biotechnology: potential and production eds. Clemens Posten ... |
| title_full_unstemmed | Microalgal biotechnology: potential and production eds. Clemens Posten ... |
| title_short | Microalgal biotechnology: potential and production |
| title_sort | microalgal biotechnology potential and production |
| topic | Microalgae Biotechnology Biomass energy Biotechnologie (DE-588)4069491-4 gnd Mikroalgen (DE-588)4453251-9 gnd |
| topic_facet | Microalgae Biotechnology Biomass energy Biotechnologie Mikroalgen |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025432689&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT postenclemens microalgalbiotechnologypotentialandproduction |