| 000 | 02783nam a22001457a 4500 | ||
|---|---|---|---|
| 020 | _a9781843393481 | ||
| 082 |
_a363.7284 _bLAR |
||
| 100 | _aLarsen, Tove A. and others | ||
| 245 | _aSource separation and decentralization for wastewater management | ||
| 260 |
_aLondon _bIWA Publishing _c2013 |
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| 300 | _axxxi,491p. | ||
| 520 | _aCONTENTS Authors List Preface Chapter 1 Editorial 1 Part 1: The advantages of source separation and decentralization 11 Chapter 2 The energy issue in urban water management 13 Chapter 3 Peak phosphorus and the role of P recovery achieving food security 29 Chapter 4 Nitrogen economy of the 21st century 45 Chapter 5 Urban water supply under expanding water scarcity 59 Chapter 6 The issue of micro pollutants in urban water management 71 Chapter 7 Full costs dis-economies of scale and the price of uncertainty 85 Chapter 8 The rationale for decentralization of wastewater infrastructure 101 Chapter 9 Cities of the global South is decentralized sanitation a solution? 117 Chapter 10 Implementation of source separation and decentralization 133 Chapter 11 Hygiene, a major challenge for source separation and decentralization 151 Chapter 12 Closing the loop: Recycling nutrients to agriculture 163 Chapter 13 The potential of control and monitoring 179 Chapter 14 High acceptance of source-separating technologies 193 Chapter 15 Market success of on site treatment: a systemic innovation problem 209 Chapter 16 Conceptualizing sanitation systems to account for new complexities in processing and management 227 Chapter 17 Wastewater composition 241 Chapter 18 Treatment of the solid fraction 259 Chapter 19 Aerobic elimination of organics and pathogens greywater treatment 275 Chapter 20 Biological nitrogen conversion processes 291 Chapter 21 Anaerobic treatment of source-separated domestic wastewater 307 Chapter 22 Electrochemical systems 321 Chapter 23 Transfer into the gas phase: ammonia 337 Chapter 24 Transfer into solid phase 351 Chapter 25 Membrane processes 367 Chapter 26 Chemical oxidation processes 383 Chapter 27 Enhanced fraction of mixed wastewater as an alternative to separation at the source 399 Chapter 28 The Swedish experience with source separation 415 Chapter 29 Practical exercise with source separation in Germany 423 Chapter 30 The Netherlands: “Nieuwe Sanitatie” 431 Chapter 31 Source control and source separation: the swiss experience 439 Chapter 32 Development of decentralized system in Australia 447 Chapter 33 Source separation in middle and low income countries 455 Chapter 34 Why question the prevailing paradigm of wastewater management? 465 Chapter 35 How to spur innovation? 475 | ||
| 890 | _aIndia | ||
| 942 | _2ddc | ||
| 999 |
_c39489 _d39489 |
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