Resource recovery and reuse in organic solid waste management:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
London
IWA Publ.
2004
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| Ausgabe: | 1. ed. |
| Schriftenreihe: | Integrated environmental technology series
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XX, 516 S. Ill. |
| ISBN: | 184339054X |
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Datensatz im Suchindex
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| adam_text | Titel: Resource recovery and reuse in organic solid waste management
Autor: Lens, Piet N. L.
Jahr: 2004
Contents
Preface xi
Contributors xv
PART ONE Integral aspects of solid waste management 1
Section IA Concepts 3
1. Material metabolism through society and environment: a
new view on waste management 3
H.C. Moll
1.1 Introduction 3
1.2 A brief history of waste management 5
1.3 Present-day technologies for waste management 6
1.4 Economic and environmental evaluations of waste management 9
1.5 Sustainable approaches for material and waste management 14
1.6 Cases of improvement of material quality management 18
1.7 Towards sustainable waste management 21
1.8 Conclusions 22
References 22
2. Eco-industrial design of biomass cycles: flows, technologies,
and actors 24
C.S.A. Van Koppen
2.1 Introduction 24
2.2 IE, a bird s eye view 25
vi Contents
2.3 Angles of IE design 28
2.4 Assessing flows, technologies, and actors 30
2.5 Finding factor-technology-actor combinations 37
2.6 Conclusions 40
References 42
Section IB Tools - system analysis 45
3. System analysis of organic waste management
schemes - experiences of the ORWARE model 45
J.-O. Sundqvist
3.1 Introduction 45
3.2 Life cycle asssessments 46
3.3 The ORWARE model 49
3.4 Earlier ORWARE studies 54
3.5 Further analysis of ORWARE data - objectives and system
boundaries 55
3.6 Further analysis of ORWARE data - results 60
3.7 The relevance for other countries 66
3.8 Conclusions 68
References 69
4. Biowaste management from an ecological perspective 71
F Knappe, R. Vogt and B. Franke
4.1 Introduction 71
4.2 Materials and methods 73
4.3 Results 78
4.4 Discussion 85
4.5 Conclusion 90
References 90
PART TWO Socio-economic aspects of solid waste management 93
5.
ion IIA Economic aspects 95
Cost and benefits of bioprocesses in waste management 95
D.Hogg
5.1 System analysis of solid waste management 95
5.2 Emissions from the composting process 99
5.3 Benefits from compost utilisation 103
5.4 Concluding observations 115
5.5 Conclusions 117
References 119
Contents vii
6. Modelling the municipal solid waste management problem in
an applied spatial general equilibrium framework 122
H. Bartelings, R.B. Dellink and E.C. van lerland
6.1 Introduction 122
6.2 Modelling the municipal solid waste problem taking into
account the spatial aspects 125
6.3 Model application and numerical analysis 130
6.4 Discussion and conclusions 139
References 140
Section I IB Legislative aspects 143
7. Impacts of European legislation on biotreatment and recovery
of organic solid waste 143
R. Braiin and R. Kirchmayr
7.1 Introduction 143
7.2 Implication of Euopean legislation on collection,
treatment and recovery of wastes - an overview 144
7.3 Biological treatment of biowaste, working document 146
7.4 ABP regulation (EC) NO. 1774/2002 148
7.5 Conclusions 155
References 156
8. Products from waste: quality assurance systems 157
J. Barth
8.1 Introduction 157
8.2 Standardisation as a precondition for the product
property 159
8.3 Legal point of view of a product status 160
8.4 Conclusion 168
References 168
PART THREE Bioprocesses in organic solid waste management 169
Section HI A Process fundamentals 171
9. Solid-state NMR investigations of organic matter conversions
during solid-waste processing 171
H. Knicker
9.1 Introduction 171
9.2 Basic NMR theory 172
9.3 Application of solid-state 3C and 5N NMR to solid waste 179
9.4 Conclusions and future prospectives 189
References 190
viii Contents
10. Microbial ecology of compost 193
M.N. Marshall, A.P. Reddy andJ.S. VanderGheynst
11.
10.1 Introduction 193
10.2 Monitoring microbial communities in compost 194
10.3 Microbial community dynamics during composting 203
10.4 Influence of process management on microbial
communities 215
10.5 Conclusions 220
References 221
n IIIB Bioprocess operation 225
Overview of resource recovery technologies for biowastes 225
W.H.. Rulkens
11.1 Introduction 225
11.2 Environmental technology 226
11.3 Treatment of MS W 229
11.4 Treatment of sewage sludge 240
11.5 Treatment of pig manure 249
11.6 General discussion 259
References 260
12. Fundamental parameters of aerobic solid-state
bioconversion processes 262
T.L. Richard
12.1 Introduction 262
12.2 Composting parameters 264
12.3 Conclusions 273
References 274
13. Trends in solid-waste management through composting in the US 278
H.A.J. Hoitink and EC. Michel Jr
13.1 Introduction 278
13.2 Trends in municipal and industrial solid wastes 280
13.3 Trends in composting of manures 282
13.4 Trends in utilization of composts 284
References 286
14. Anaerobic bioprocess concepts 290
J. Mata-Alvarez and S. Mace
14.1 Introduction 290
14.2 Main steps in ad processes 292
14.3 Environmental factors controlling the AD process 295
14.4 Important parameters in anaerobic digesters 298
14.5 Biodegradability and degree of biodegradation 301
Contents ix
14.6 Types of digesters 302
14.7 Final remarks 310
14.8 Conclusions 311
References 312
PART FOUR Resources from organic solid waste 315
Section IVA Aerobic products 317
15. Use of compost as suppressor of plant diseases 317
D. De Clercq, L. Vandesteene, J. Coosemans andJ. Ryckeboer
15.1 Introduction 317
15.2 Soilborne plant diseases suppressed by compost 319
15.3 Factors in disease suppression 321
15.4 Biocontrol agents and compost maturity 326
15.5 Controlled fortification 327
15.6 Restrictions 328
15.7 Prediction of suppressiveness 329
15.8 Conclusions 331
References 332
16. Indicators for determination of stability of composts and recycled
organic wastes 338
A. de Guardia, A. Tremier andJ. Martinez
16.1 Introduction 338
16.2 Process stability indicators 340
16.3 Most common physical and chemical stability indicators 342
16.4 Microbiological indicators 354
16.5 Biochemical indicators 359
16.6 Spectroscopic indicators 364
16.7 Thermal fractionation methods 368
16.8 Phytotoxic indicators 368
16.9 Conclusion 371
References 371
Section IVB Anaerobic products 377
17. Manure-based biogas systems 377
J.B. Holm-Nielsen and T. Al Seadi
17.1 The place of biogas in the Danish energy strategy 377
17.2 Biogas technologies 380
17.3 Technical experience with centralised biogas production
in Denmark 385
17.4 Organisation and financing 390
Contents
17.5 Driving forces for further anaerobic digestion development 392
17.6 Conclusion 393
References 394
18. Electricity production from agricultural wastes through valorisation
ofbiogas 395
T.Ahrens and P. Weiland
18.1 Introduction 395
18.2 The biogas process 397
18.3 Energy converting aspects 403
18.4 PEM-FC pilot plant 406
18.5 Conclusion 410
References 410
19. Trendsetter: biogas in European vehicles 411
G Landahl and C. Plombin
20.
19.1 Introduction 411
19.2 Biogas production and use in Europe 413
19.3 Biogas as fuel for vehicles 415
19.4 Trendsetter biogas projects in Stockholm and Lille 419
19.5 Conclusion 422
on IVC Novel developments 423
Bioplastics from waste materials 423
PC. Lemos, L.S. Serafim, A.M. Ramos and M.A.M. Reis
20.1 Introduction 423
20.2 PHA 424
20.3 PHA production 426
20.4 PHA utilization 434
20.5 Biodegradability of PHA 437
20.6 Conclusions 438
Reference 438
21. Biological production of hydrogen from waste and biomass 441
G. Lyberatos, H.N. Gavala, I. V. Skiadas, M. Kornaros,
K. Stamatelatou and K. Angelopoulos
21.1 Introduction 441
21.2 Fermentation 442
21.3 Example applications of biohydrogen production 449
21.4 Conclusions 453
References 453
Contents xi
Section IVD Constraints for resource recovery and reuse 459
22. Hygienic safety in organic waste management 459
R. Bohm
22 A Introduction 459
22.2 Occupational health aspects 460
22.3 Risks due to processing and utilization of organic wastes 462
22.4 Prevention of occupational risks 466
22.5 Hygienic safety of products 468
22.6 Strategies for validation of the organic solid waste treatment
process 469
22.7 Supervision of the final product 475
22.8 Restrictions in the use of the final product 478
22.9 Conclusive summary 478
References 479
23. Remediation technologies for conversion of heavy metal polluted
organic wastes into compost 483
A. Veeken
23.1 Introduction 483
23.2 Remediation technologies 486
23.3 Case studies 493
23.4 Conclusions 498
References 499
24. Odour monitoring within solid waste management 502
P. Hobbs
24.1 Introduction 502
24.2 Odour sources and physical factors 503
24.3 Factors affecting emission rates 506
24.4 Odour measurement 507
24.5 Case study - better quality compost 509
24.6 Conclusion 511
References 511
Index 513
|
| adam_txt |
Titel: Resource recovery and reuse in organic solid waste management
Autor: Lens, Piet N. L.
Jahr: 2004
Contents
Preface xi
Contributors xv
PART ONE Integral aspects of solid waste management 1
Section IA Concepts 3
1. Material metabolism through society and environment: a
new view on waste management 3
H.C. Moll
1.1 Introduction 3
1.2 A brief history of waste management 5
1.3 Present-day technologies for waste management 6
1.4 Economic and environmental evaluations of waste management 9
1.5 Sustainable approaches for material and waste management 14
1.6 Cases of improvement of material quality management 18
1.7 Towards sustainable waste management 21
1.8 Conclusions 22
References 22
2. Eco-industrial design of biomass cycles: flows, technologies,
and actors 24
C.S.A. Van Koppen
2.1 Introduction 24
2.2 IE, a bird's eye view 25
vi Contents
2.3 Angles of IE design 28
2.4 Assessing flows, technologies, and actors 30
2.5 Finding factor-technology-actor combinations 37
2.6 Conclusions 40
References 42
Section IB Tools - system analysis 45
3. System analysis of organic waste management
schemes - experiences of the ORWARE model 45
J.-O. Sundqvist
3.1 Introduction 45
3.2 Life cycle asssessments 46
3.3 The ORWARE model 49
3.4 Earlier ORWARE studies 54
3.5 Further analysis of ORWARE data - objectives and system
boundaries 55
3.6 Further analysis of ORWARE data - results 60
3.7 The relevance for other countries 66
3.8 Conclusions 68
References 69
4. Biowaste management from an ecological perspective 71
F Knappe, R. Vogt and B. Franke
4.1 Introduction 71
4.2 Materials and methods 73
4.3 Results 78
4.4 Discussion 85
4.5 Conclusion 90
References 90
PART TWO Socio-economic aspects of solid waste management 93
5.
ion IIA Economic aspects 95
Cost and benefits of bioprocesses in waste management 95
D.Hogg
5.1 System analysis of solid waste management 95
5.2 Emissions from the composting process 99
5.3 Benefits from compost utilisation 103
5.4 Concluding observations 115
5.5 Conclusions 117
References 119
Contents vii
6. Modelling the municipal solid waste management problem in
an applied spatial general equilibrium framework 122
H. Bartelings, R.B. Dellink and E.C. van lerland
6.1 Introduction 122
6.2 Modelling the municipal solid waste problem taking into
account the spatial aspects 125
6.3 Model application and numerical analysis 130
6.4 Discussion and conclusions 139
References 140
Section I IB Legislative aspects 143
7. Impacts of European legislation on biotreatment and recovery
of organic solid waste 143
R. Braiin and R. Kirchmayr
7.1 Introduction 143
7.2 Implication of Euopean legislation on collection,
treatment and recovery of wastes - an overview 144
7.3 Biological treatment of biowaste, working document 146
7.4 ABP regulation (EC) NO. 1774/2002 148
7.5 Conclusions 155
References 156
8. Products from waste: quality assurance systems 157
J. Barth
8.1 Introduction 157
8.2 Standardisation as a precondition for the product
property 159
8.3 Legal point of view of a product status 160
8.4 Conclusion 168
References 168
PART THREE Bioprocesses in organic solid waste management 169
Section HI A Process fundamentals 171
9. Solid-state NMR investigations of organic matter conversions
during solid-waste processing 171
H. Knicker
9.1 Introduction 171
9.2 Basic NMR theory 172
9.3 Application of solid-state ' 3C and ' 5N NMR to solid waste 179
9.4 Conclusions and future prospectives 189
References 190
viii Contents
10. Microbial ecology of compost 193
M.N. Marshall, A.P. Reddy andJ.S. VanderGheynst
11.
10.1 Introduction 193
10.2 Monitoring microbial communities in compost 194
10.3 Microbial community dynamics during composting 203
10.4 Influence of process management on microbial
communities 215
10.5 Conclusions 220
References 221
n IIIB Bioprocess operation 225
Overview of resource recovery technologies for biowastes 225
W.H. Rulkens
11.1 Introduction 225
11.2 Environmental technology 226
11.3 Treatment of MS W 229
11.4 Treatment of sewage sludge 240
11.5 Treatment of pig manure 249
11.6 General discussion 259
References 260
12. Fundamental parameters of aerobic solid-state
bioconversion processes 262
T.L. Richard
12.1 Introduction 262
12.2 Composting parameters 264
12.3 Conclusions 273
References 274
13. Trends in solid-waste management through composting in the US 278
H.A.J. Hoitink and EC. Michel Jr
13.1 Introduction 278
13.2 Trends in municipal and industrial solid wastes 280
13.3 Trends in composting of manures 282
13.4 Trends in utilization of composts 284
References 286
14. Anaerobic bioprocess concepts 290
J. Mata-Alvarez and S. Mace
14.1 Introduction 290
14.2 Main steps in ad processes 292
14.3 Environmental factors controlling the AD process 295
14.4 Important parameters in anaerobic digesters 298
14.5 Biodegradability and degree of biodegradation 301
Contents ix
14.6 Types of digesters 302
14.7 Final remarks 310
14.8 Conclusions 311
References 312
PART FOUR Resources from organic solid waste 315
Section IVA Aerobic products 317
15. Use of compost as suppressor of plant diseases 317
D. De Clercq, L. Vandesteene, J. Coosemans andJ. Ryckeboer
15.1 Introduction 317
15.2 Soilborne plant diseases suppressed by compost 319
15.3 Factors in disease suppression 321
15.4 Biocontrol agents and compost maturity 326
15.5 Controlled fortification 327
15.6 Restrictions 328
15.7 Prediction of suppressiveness 329
15.8 Conclusions 331
References 332
16. Indicators for determination of stability of composts and recycled
organic wastes 338
A. de Guardia, A. Tremier andJ. Martinez
16.1 Introduction 338
16.2 Process stability indicators 340
16.3 Most common physical and chemical stability indicators 342
16.4 Microbiological indicators 354
16.5 Biochemical indicators 359
16.6 Spectroscopic indicators 364
16.7 Thermal fractionation methods 368
16.8 Phytotoxic indicators 368
16.9 Conclusion 371
References 371
Section IVB Anaerobic products 377
17. Manure-based biogas systems 377
J.B. Holm-Nielsen and T. Al Seadi
17.1 The place of biogas in the Danish energy strategy 377
17.2 Biogas technologies 380
17.3 Technical experience with centralised biogas production
in Denmark 385
17.4 Organisation and financing 390
Contents
17.5 Driving forces for further anaerobic digestion development 392
17.6 Conclusion 393
References 394
18. Electricity production from agricultural wastes through valorisation
ofbiogas 395
T.Ahrens and P. Weiland
18.1 Introduction 395
18.2 The biogas process 397
18.3 Energy converting aspects 403
18.4 PEM-FC pilot plant 406
18.5 Conclusion 410
References 410
19. Trendsetter: biogas in European vehicles 411
G Landahl and C. Plombin
20.
19.1 Introduction 411
19.2 Biogas production and use in Europe 413
19.3 Biogas as fuel for vehicles 415
19.4 Trendsetter biogas projects in Stockholm and Lille 419
19.5 Conclusion 422
on IVC Novel developments 423
Bioplastics from waste materials 423
PC. Lemos, L.S. Serafim, A.M. Ramos and M.A.M. Reis
20.1 Introduction 423
20.2 PHA 424
20.3 PHA production 426
20.4 PHA utilization 434
20.5 Biodegradability of PHA 437
20.6 Conclusions 438
Reference 438
21. Biological production of hydrogen from waste and biomass 441
G. Lyberatos, H.N. Gavala, I. V. Skiadas, M. Kornaros,
K. Stamatelatou and K. Angelopoulos
21.1 Introduction 441
21.2 Fermentation 442
21.3 Example applications of biohydrogen production 449
21.4 Conclusions 453
References 453
Contents xi
Section IVD Constraints for resource recovery and reuse 459
22. Hygienic safety in organic waste management 459
R. Bohm
22 A Introduction 459
22.2 Occupational health aspects 460
22.3 Risks due to processing and utilization of organic wastes 462
22.4 Prevention of occupational risks 466
22.5 Hygienic safety of products 468
22.6 Strategies for validation of the organic solid waste treatment
process 469
22.7 Supervision of the final product 475
22.8 Restrictions in the use of the final product 478
22.9 Conclusive summary 478
References 479
23. Remediation technologies for conversion of heavy metal polluted
organic wastes into compost 483
A. Veeken
23.1 Introduction 483
23.2 Remediation technologies 486
23.3 Case studies 493
23.4 Conclusions 498
References 499
24. Odour monitoring within solid waste management 502
P. Hobbs
24.1 Introduction 502
24.2 Odour sources and physical factors 503
24.3 Factors affecting emission rates 506
24.4 Odour measurement 507
24.5 Case study - better quality compost 509
24.6 Conclusion 511
References 511
Index 513 |
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| id | DE-604.BV021700532 |
| illustrated | Illustrated |
| index_date | 2024-07-02T15:17:08Z |
| indexdate | 2024-07-09T20:41:59Z |
| institution | BVB |
| isbn | 184339054X |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-014914478 |
| oclc_num | 56562498 |
| open_access_boolean | |
| owner | DE-1046 DE-526 DE-634 |
| owner_facet | DE-1046 DE-526 DE-634 |
| physical | XX, 516 S. Ill. |
| publishDate | 2004 |
| publishDateSearch | 2004 |
| publishDateSort | 2004 |
| publisher | IWA Publ. |
| record_format | marc |
| series2 | Integrated environmental technology series |
| spelling | Lens, Piet N. L. Verfasser aut Resource recovery and reuse in organic solid waste management ed. by Piet Lens ... 1. ed. London IWA Publ. 2004 XX, 516 S. Ill. txt rdacontent n rdamedia nc rdacarrier Integrated environmental technology series Organic wastes Recycling (Waste, etc.) Refuse and refuse disposal Recycling (DE-588)4076573-8 gnd rswk-swf Organischer Abfall (DE-588)4172777-0 gnd rswk-swf Fester Abfall (DE-588)4154169-8 gnd rswk-swf Kreislauf (DE-588)4165608-8 gnd rswk-swf Organischer Abfall (DE-588)4172777-0 s Fester Abfall (DE-588)4154169-8 s Recycling (DE-588)4076573-8 s DE-604 Kreislauf (DE-588)4165608-8 s HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014914478&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Lens, Piet N. L. Resource recovery and reuse in organic solid waste management Organic wastes Recycling (Waste, etc.) Refuse and refuse disposal Recycling (DE-588)4076573-8 gnd Organischer Abfall (DE-588)4172777-0 gnd Fester Abfall (DE-588)4154169-8 gnd Kreislauf (DE-588)4165608-8 gnd |
| subject_GND | (DE-588)4076573-8 (DE-588)4172777-0 (DE-588)4154169-8 (DE-588)4165608-8 |
| title | Resource recovery and reuse in organic solid waste management |
| title_auth | Resource recovery and reuse in organic solid waste management |
| title_exact_search | Resource recovery and reuse in organic solid waste management |
| title_exact_search_txtP | Resource recovery and reuse in organic solid waste management |
| title_full | Resource recovery and reuse in organic solid waste management ed. by Piet Lens ... |
| title_fullStr | Resource recovery and reuse in organic solid waste management ed. by Piet Lens ... |
| title_full_unstemmed | Resource recovery and reuse in organic solid waste management ed. by Piet Lens ... |
| title_short | Resource recovery and reuse in organic solid waste management |
| title_sort | resource recovery and reuse in organic solid waste management |
| topic | Organic wastes Recycling (Waste, etc.) Refuse and refuse disposal Recycling (DE-588)4076573-8 gnd Organischer Abfall (DE-588)4172777-0 gnd Fester Abfall (DE-588)4154169-8 gnd Kreislauf (DE-588)4165608-8 gnd |
| topic_facet | Organic wastes Recycling (Waste, etc.) Refuse and refuse disposal Recycling Organischer Abfall Fester Abfall Kreislauf |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014914478&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT lenspietnl resourcerecoveryandreuseinorganicsolidwastemanagement |