Phosphorus in environmental technology: principles and applications
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
London
IWA Publ.
2004
|
| Ausgabe: | 1. publ. |
| Schriftenreihe: | Integrated environmental technology series
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | NT: Phosphorus in environmental technologies |
| Beschreibung: | XXI,, 656 S. Ill., graph. Darst. |
| ISBN: | 1843390019 |
Internformat
MARC
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| 246 | 1 | 3 | |a Phosphorus in environmental technologies |
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| 650 | 4 | |a Umwelt | |
| 650 | 4 | |a Phosphates |x Biotechnology | |
| 650 | 4 | |a Phosphates |x Recycling | |
| 650 | 4 | |a Phosphorus |x Biotechnology | |
| 650 | 4 | |a Phosphorus |x Environmental aspects | |
| 650 | 4 | |a Phosphorus |x Recycling | |
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Datensatz im Suchindex
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|---|---|
| adam_text | INST1TUT WAR * BLBLTETHEK * WASSERVERSORGUNG. ABWAESERTOCHNIK W. A. R. -
ABFELLTECHNIK UND RAU;^K-UNG LFLV.-NF: D TECHNLSCS .S UNIVERSUAL (?.- !R
. .^DT PETERSENSTREIIE 13, 84287 DAMSTADT TEL 0 61 51/TS 36 59 + 16 27
48 ^2 // FAX 0 6151/16 37 58 PHOSPHORUS IN ENVIRONMENTAL TECHNOLOGY
PRINCIPLES AND APPLICATIONS EDITED BY EUGENIA VALSAMI-JONES CONTENTS
CONTRIBUTORS XIII PREFACE XVIII PART ONE PRINCIPLES OF PHOSPHORUS
DISTRIBUTION: CHEMISTRY, GEOCHEMISTRY, MINERALOGY, BIOLOGY 1 1. THE
CHEMISTRY OF PHOSPHORUS 3 D. BRYANT 1.1 INTRODUCTION 3 1.2 ATOMIC
PROPERTIES 4 1.3 ELECTRONIC STRUCTURE AND BONDING 4 1.4 PHOSPHORUS
COMPOUNDS 5 REFERENCES 17 2. THE GEOCHEMISTRY AND MINERALOGY OF
PHOSPHORUS 20 E. VALSAMI-JONES 2.1 INTRODUCTION 20 2.2 GEOCHEMICAL
ABUNDANCE AND DISTRIBUTION OF PHOSPHORUS 22 2.3 PHOSPHATE MINERALS 32
REFERENCES 44 3. THE BIOLOGY OF PHOSPHORUS 51 C. DOBROTA 3.1
INTRODUCTION 51 3.2 PHOSPHATE ACQUISITION 51 3.3 TRANSPORT AND
TRANSLOCATION 52 3.4 PHOSPHATE ASSIMILATION 62 REFERENCES 74 VI CONTENTS
PART TWO PHOSPHORUS IN THE ENVIRONMENT 77 4. BACKGROUND AND ELEVATED
PHOSPHORUS RELEASE FROM TERRESTRIAL ENVIRONMENTS 79 P.M. HAYGARTH & L.M.
CONDRON 4.1 INTRODUCTION 79 4.2 BACKGROUND RELEASE 80 4.3 ELEVATED
RELEASE 81 4.4 CONCLUSION 87 REFERENCES 87 5. PHOSPHORUS AND CROP
NUTRITION: PRINCIPLES AND PRACTICE 93 T.D. EVANS &A.E. JOHNSTON 5.1
INTRODUCTION 93 5.2 PHOSPHORUS RESOURCES 95 5.3 PHOSPHORUS FERTILISERS
96 5.4 PHOSPHORUS IN SOILS 98 5.5 PHOSPHORUS NUTRITION OF PLANTS 103 5.6
FERTILISATION PRACTICES 110 5.7 PHOSPHORUS FERTILISATION AND
ENVIRONMENTAL ISSUES 113 5.8 CONCLUDING REMARKS 115 REFERENCES 116 6.
TRANSFER OF PHOSPHORUS TO SURFACE WATERS; EUTROPHICATION 120 S. BURKE,
L. HEATHWAITE AND N. PREEDY 6.1 INTRODUCTION 120 6.2 EVIDENCE OF SOURCES
AND PATHWAYS OF P DELIVERY TO WATER 122 6.3 TRANSFER MECHANISMS AND
CONTROL 131 6.4 MANAGEMENT MINIMISATION 138 REFERENCES 140 7.
ENVIRONMENTAL CHEMISTRY OF PHOSPHONIC ACIDS 147 B. NOWACK 7.1
INTRODUCTION 147 7.2 ANALYSIS OF PHOSPHONATES 150 7.3 EXCHANGE REACTIONS
151 7.4 DEGRADATION 157 7.5 SPECIATION 161 7.6 ENVIRONMENTAL BEHAVIOR
163 7.7 CONCLUSIONS 165 ACKNOWLEDGEMENTS 165 REFERENCES 166 8. PHOSPHATE
POLLUTION: A GLOBAL OVERVIEW OF THE PROBLEM 174 A.M. FARMER 8.1
INTRODUCTION 174 8.2 THE EUROPEAN UNION 176 8.3 8.4 8.5 8.6 8.7 8.8 8.9
8.10 PART THREE THE RIVER RHINE: CASE STUDY UNITED STATES AUSTRALIA
JAPAN SOUTH AND EAST ASIA AFRICA THE ANTARCTIC CONCLUSIONS REFERENCES
PHOSDHORUS REMOVAL FROI CONTENTS VII 181 183 185 186 188 189 190 190 190
PRINCIPLES AND TECHNOLOGIES 193 9. PRINCIPLES OF PHOSPHATE DISSOLUTION
AND PRECIPITATION 195 P.G. KOUTSOUKOS & E. VALSAMI-JONES 9.1
INTRODUCTION 195 9.2 EQUILIBRIUM AND KINETICS: THEORY, MECHANISMS AND
EQUATIONS 196 9.3 APPLICATIONS RELEVANT TO THE PRECIPITATION OF CALCIUM
PHOSPHATES 208 9.4 APPLICATIONS RELEVANT TO THE DISSOLUTION OF CALCIUM
PHOSPHATES 234 9.5 METAL PHOSPHATES, DISSOLUTION AND PRECIPITATION
APPLICATIONS 238 9.6 CONCLUDING REMARKS 239 REFERENCES 241 10. WASTE
WATER TREATMENT PRINCIPLES 249 S.A. PARSONS & T. STEPHENSON 10.1
INTRODUCTION 249 10.2 WASTE WATER TREATMENT PROCESSES 250 10.3 SLUDGE
TREATMENT AND DISPOSAL 257 REFERENCES 259 11. CHEMICAL PHOSPHORUS
REMOVAL 260 S.A. PARSONS & T-A. BERRY 11.1 INTRODUCTION 260 11.2
PHOSPHORUS REMOVAL WITH METAL SALTS 261 11.3 CONCLUDING REMARKS 269
REFERENCES 270 12. BIOLOGICAL PHOSPHORUS REMOVAL 272 IW. MCGRATH & IP
QUINN 12.1 INTRODUCTION 272 12.2 PROCESS DESIGN OF BIOLOGICAL PHOSPHORUS
REMOVAL PLANTS 274 12.3 POLYPHOSPHATE 276 12.4 ISOLATION AND
IDENTIFICATION OF POLYPHOSPHATE-ACCUMULATING MICROORGANISMS FROM THE
EBPR PROCESS 282 12.5 NEW APPROACHES TO BIOLOGICAL PHOSPHATE REMOVAL 283
ACKNOWLEDGEMENTS 286 REFERENCES 286 VIII CONTENTS 13. A REVIEW OF SOLID
PHASE ADSORBENTS FOR THE REMOVAL OF PHOSPHORUS FROM NATURAL AND WASTE
WATERS 291 G.B. DOUGLAS, M.S. ROBB, D.N. COAD & PW. FORD 13.1
INTRODUCTION 291 13.2 ADSORBENT MATERIALS 293 13.3 SELECTION OF AN
APPROPRIATE PHOSPHORUS ADSORBENT 307 13.4 CONCLUDING REMARKS 311
REFERENCES 311 14. REMOVING PHOSPHORUS FROM SEWAGE EFFLUENT AND
AGRICULTURAL RUNOFF USING RECOVERED OCHRE 321 K.VHEAL, K.A. SMITH, PL.
YOUNGER, H. MCHAFFIE & L.C. BATTY 14.1 INTRODUCTION 321 14.2 FORMATION
AND PROPERTIES OF OCHRE 322 14.3 CAPACITY OF OCHRE FOR PHOSPHORUS
REMOVAL 325 14.4 FUTURE DEVELOPMENTS 330 14.5 CONCLUSIONS 333
ACKNOWLEDGEMENTS 334 REFERENCES 334 PART FOUR PHOSPHORUS RECOVERY FOR
REUSE: PRINCIPLES, TECHNOLOGIES, FEASIBILITY 337 15. PHOSPHORUS RECOVERY
IN THE CONTEXT OF INDUSTRIAL USE 339 /. STEEN 15.1 INTRODUCTION 339 15.2
WHY RECOVERY? 341 15.3 POSSIBLE TECHNICAL-INDUSTRIAL PATHWAYS 344 15.4
RECYCLING BY THE PHOSPHATE INDUSTRY 348 15.5 FUTURE PROSPECTS 353
REFERENCES 354 16. FLUID DYNAMIC CONCEPTS FOR A PHOSPHATE PRECIPITATION
REACTOR DESIGN 358 D. MANGIN & IP. KLEIN 16.1 INTRODUCTION 358 16.2
FLUID DYNAMICS AND MIXING 359 16.3 INTERACTION BETWEEN MIXING AND
PRIMARY NUCLEATION 366 16.4 INTERACTION BETWEEN MIXING AND OTHER
PRECIPITATION MECHANISMS 373 16.5 STIRRED VESSELS 379 16.6 FLUIDISED BED
REACTORS 388 16.7 AIR MIXING 392 16.8 MODELLING OF PRECIPITATION
REACTORS 394 16.9 CONCLUSION AND PERSPECTIVES 397 16.10 NOTATION 398
REFERENCES 400 CONTENTS IX 17. PHOSPHORUS RECOVERY VIA STRUVITE
PRODUCTION AT SLOUGH SEWAGE TREATMENT WORKS, UK - A CASE STUDY Y. JAFFER
& P PEARCE 17.1 INTRODUCTION 17.2 SITE DESCRIPTION 17.3 PHOSPHORUS FORMS
THROUGH THE SEWAGE TREATMENT PROCESS 17.4 PHOSPHORUS MASS BALANCE 17.5
BENCH-SCALE WORK 17.6 THE REACTOR 17.7 PRELIMINARY RESULTS 17.8 QUALITY
OF STRUVITE 17.9 FURTHER WORK 17.10 PROPOSED USE OF PRODUCT REFERENCES
APPENDIX 402 402 403 405 407 411 415 419 419 424 425 426 427 18.
PHOSPHORUS RECOVERY TRIALS IN TREVISO, ITALY - THEORY, MODELLING AND
APPLICATION 428 P. BATTISTONI 18.1 INTRODUCTION 428 18.2 ITALIAN SEWER
WASTE WATER AND WWTPS 429 18.3 IMPROVEMENT OF BNR TECHNOLOGIES AND
PERFORMANCE 437 18.4 PHOSPHORUS RECOVERY TEST 439 18.5 FBR AND AIR
STRIPPING 443 18.6 CASE STUDY: TREVISO CITY WASTE WATER TREATMENT PLANT
455 18.7 LONG TERM PERFORMANCE OF THE REACTOR IN TREVISO 463 18.8
PERSPECTIVE AND CONCLUSIONS 465 ACKNOWLEDGEMENTS 467 REFERENCES 467 19.
THE CASE STUDY OF A PHOSPHORUS RECOVERY SEWAGE TREATMENT PLANT AT
GEESTMERAMBACHT, HOLLAND - DESIGN AND OPERATION 470 P.G. PIEKEMA 19.1
INTRODUCTION 470 19.2 OVERVIEW OF THE PLANT BEFORE UPGRADING 471 19.3
KEY FEATURES OF THE PLANT AFTER UPGRADING 472 19.4 DESIGN PHILOSOPHY OF
THE P-RECOVERY PROCESS 475 19.5 DESIGN OF THE BIOLOGICAL PART OF THE
SIDE-STREAM 478 19.6 DESIGN OF CRYSTALACTOR IN THE SIDE-STREAM 484 19.7
CONTROL OF SLUDGE SETTLING 490 19.8 CONTROL OF NITROGEN REMOVAL 491 19.9
FULL SCALE RESULTS 493 19.10 COST 494 19.11 NEW DEVELOPMENTS 495
REFERENCES 495 X CONTENTS 20. FULL SCALE STRUVITE RECOVERY IN JAPAN 496
Y.UENO 20.1 INTRODUCTION 496 20.2 FULL SCALE STRUVITE RECOVERY IN JAPAN
497 20.3 SUMMARY 506 REFERENCES 506 21. PHOSPHORUS RECOVERY FROM
UNPROCESSED MANURE 507 P. HOBBS 21.1 INTRODUCTION 507 21.2 PROFILE OF
PHOSPHORUS SPECIES IN DIFFERENT LIVESTOCK MANURE 508 21.3 EXTRACTION OF
PHOSPHORUS FROM WASTES AND MANURE 511 21.4 CONCLUDING REMARKS 518
REFERENCES 519 22. SCENARIOS OF PHOSPHORUS RECOVERY FROM SEWAGE FOR
INDUSTRIAL RECYCLING 521 A. KLAPWIJK & H. TEMMINK 23. 22.1 22.2 22.3
22.4 22.5 22.6 INTRODUCTION WASTEWATER AND SLUDGE TREATMENT P-RECOVERY
FROM THE END PRODUCT OF SLUDGE TREATMENT P-EXTRACTION BEFORE SLUDGE
TREATMENT DISCUSSION CONCLUSIONS REFERENCES PHOSPHATE RECYCLING:
REGULATION AND ECONOMIC ANALYSIS J. KOHLER 23.1 23.2 23.3 23.4 23.5
INTRODUCTION WHY RECYCLE PHOSPHATES? REGULATION AND ECONOMICS OF WWTPS
AND PHOSPHATES A SYSTEM APPROACH CONCLUSIONS: ECONOMICS AND POLICIES
REFERENCES 521 522 524 525 527 527 528 529 529 530 532 540 543 543 PART
FIVE NOVEL BIOTECHNOLOGIES 547 24. BACTERIAL PRECIPITATION OF METAL
PHOSPHATES 549 L.E. MACASKIE, P. YONG & M. PATERSON-BEEDLE 24.1
INTRODUCTION 549 24.2 HEAVY METAL BIOREMEDIATION: WHY SELECT A
PHOSPHATE-BASED PRECIPITATION PROCESS? 551 24.3 CASE HISTORY: METAL
PHOSPHATE BIOMINERALIZATION BY SERRATIA SP. 553 24.4 A CONCEPTUAL MODEL
FOR PHOSPHATE BIOMINERALIZATION 557 24.5 A QUANTITATIVE MODEL FOR METAL
PHOSPHATE BIOMINERALIZATION 560 24.6 PHOSPHATE BIOMINERALIZATION FOR THE
REMOVAL OF TRANSURANIC ELEMENTS: THE NEED FOR NUCLEATION PROCESSES 561
CONTENTS XI 24.7 CO-PRECIPITATIVE METAL REMOVAL 562 24.8 USE OF METAL
PHOSPHATE AS AN ION EXCHANGER 564 24.9 USE OF ALTERNATIVE PHOSPHATE
DONORS 566 24.10 USE OF INORGANIC PHOSPHATE AS THE PHOSPHATE DONOR 569
24.11 CONCLUSIONS 573 REFERENCES 575 25. DEVELOPMENTS IN THE USE OF
CALCIUM PHOSPHATES AS BIOMATERIALS 582 R.L. SAMMONS, P.M. MARQUIS, L.E.
MACASKIE, P. YONG & C. BASNER 25.1 INTRODUCTION 582 25.2 THE DEMAND FOR
BONE SUBSTITUTE MATERIALS 582 25.3 THE IDEAL BONE-SUBSTITUTE: WHAT IT
HAS TO DO? 583 25.4 SUCCESSFUL APPLICATIONS OF CALCIUM PHOSPHATES IN
BIOMATERIALS 586 25.5 CHEMISTRY AND MANUFACTURE OF BIOMEDICAL CALCIUM
26. 27. 25.6 25.7 25.8 PHOSPHATES REACTIONS OF BIOMEDICAL PHOSPHATES IN
THE BODY FUTURE DEVELOPMENTS CONCLUDING REMARKS REFERENCES
AGRONOMIC-BASED TECHNOLOGIES TOWARDS MORE ECOLOGICAL USE OF PHOSPHORUS
IN AGRICULTURE W.J. HORST & M. KAMH 26.1 26.2 26.3 26.4 26.5 26.6
INTRODUCTION DEFINING OPTIMUM SOIL-P LEVELS PHOSPHORUS DYNAMICS IN SOILS
PHOSPHORUS UTILISATION EFFICIENCY OF PLANTS AGRONOMIC PRACTICES
CONCLUSION REFERENCES BIODEGRADATION OF ORGANOPHOSPHATE NERVE AGENTS M.
SHIMAZU, W. CHEN & A. MULCHANDANI 27.1 27.2 27.3 27.4 27.5 27.6 27.7
INTRODUCTION MICROBIAL DEGRADATION ENZYMATIC DETOXIFICATION OF OP
NEUROTOXINS WHOLE CELL DETOXIFICATION OF OP NEUROTOXINS MODIFICATIONS OF
SPECIFICITY AND ACTIVITY ORGANOPHOSPHORUS ACID ANHYDROLASE CONCLUSION
ACKNOWLEDGEMENTS REFERENCES 590 597 601 603 604 610 610 611 611 612 614
622 622 629 629 631 632 634 636 638 639 639 639 INDEX 643
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| indexdate | 2024-07-09T19:19:10Z |
| institution | BVB |
| isbn | 1843390019 |
| language | English |
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| physical | XXI,, 656 S. Ill., graph. Darst. |
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| series2 | Integrated environmental technology series |
| spelling | Phosphorus in environmental technology principles and applications ed. by Eugenia Valsami-Jones Phosphorus in environmental technologies 1. publ. London IWA Publ. 2004 XXI,, 656 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Integrated environmental technology series NT: Phosphorus in environmental technologies Agua - Contenido de Fósforo Fósforo - Aspectos Ambientales Umwelt Phosphates Biotechnology Phosphates Recycling Phosphorus Biotechnology Phosphorus Environmental aspects Phosphorus Recycling Water Phosphorus content Water Purification Phosphate removal Phosphor (DE-588)4045855-6 gnd rswk-swf Ökologische Chemie (DE-588)4135167-8 gnd rswk-swf Phosphor (DE-588)4045855-6 s Ökologische Chemie (DE-588)4135167-8 s DE-604 Valsami-Jones, Eugenia Sonstige oth HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010561767&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Phosphorus in environmental technology principles and applications Agua - Contenido de Fósforo Fósforo - Aspectos Ambientales Umwelt Phosphates Biotechnology Phosphates Recycling Phosphorus Biotechnology Phosphorus Environmental aspects Phosphorus Recycling Water Phosphorus content Water Purification Phosphate removal Phosphor (DE-588)4045855-6 gnd Ökologische Chemie (DE-588)4135167-8 gnd |
| subject_GND | (DE-588)4045855-6 (DE-588)4135167-8 |
| title | Phosphorus in environmental technology principles and applications |
| title_alt | Phosphorus in environmental technologies |
| title_auth | Phosphorus in environmental technology principles and applications |
| title_exact_search | Phosphorus in environmental technology principles and applications |
| title_full | Phosphorus in environmental technology principles and applications ed. by Eugenia Valsami-Jones |
| title_fullStr | Phosphorus in environmental technology principles and applications ed. by Eugenia Valsami-Jones |
| title_full_unstemmed | Phosphorus in environmental technology principles and applications ed. by Eugenia Valsami-Jones |
| title_short | Phosphorus in environmental technology |
| title_sort | phosphorus in environmental technology principles and applications |
| title_sub | principles and applications |
| topic | Agua - Contenido de Fósforo Fósforo - Aspectos Ambientales Umwelt Phosphates Biotechnology Phosphates Recycling Phosphorus Biotechnology Phosphorus Environmental aspects Phosphorus Recycling Water Phosphorus content Water Purification Phosphate removal Phosphor (DE-588)4045855-6 gnd Ökologische Chemie (DE-588)4135167-8 gnd |
| topic_facet | Agua - Contenido de Fósforo Fósforo - Aspectos Ambientales Umwelt Phosphates Biotechnology Phosphates Recycling Phosphorus Biotechnology Phosphorus Environmental aspects Phosphorus Recycling Water Phosphorus content Water Purification Phosphate removal Phosphor Ökologische Chemie |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010561767&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT valsamijoneseugenia phosphorusinenvironmentaltechnologyprinciplesandapplications AT valsamijoneseugenia phosphorusinenvironmentaltechnologies |