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Resource Recovery from Waste: Business Models for Energy, Nutrient and Water Reuse in Low- and Middle-income Countries [Kõva köide]

Edited by (International Water Management Institute, Sri Lanka), Edited by (International Water Management Institute, Sri Lanka)
  • Formaat: Hardback, 832 pages, kõrgus x laius: 246x189 mm, kaal: 1946 g, 297 Tables, color; 351 Line drawings, color; 5 Halftones, color; 653 Illustrations, color
  • Ilmumisaeg: 29-Mar-2018
  • Kirjastus: Routledge
  • ISBN-10: 1138016551
  • ISBN-13: 9781138016552
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Resource Recovery from Waste: Business Models for Energy, Nutrient and Water Reuse in Low- and Middle-income CountriesSuurem pilt
  • Formaat: Hardback, 832 pages, kõrgus x laius: 246x189 mm, kaal: 1946 g, 297 Tables, color; 351 Line drawings, color; 5 Halftones, color; 653 Illustrations, color
  • Ilmumisaeg: 29-Mar-2018
  • Kirjastus: Routledge
  • ISBN-10: 1138016551
  • ISBN-13: 9781138016552
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Püsilink: https://www.kriso.ee/db/9781138016552.html
Märksõnad:

Humans generate millions of tons of waste every day. This waste is rich in water, nutrients, energy and organic compounds. Yet waste is not being managed in a way that permits us to derive value from its reuse, whilst millions of farmers struggle with depleted soils and lack of water. This book shows how resource recovery and reuse (RRR) could create livelihoods, enhance food security, support green economies, reduce waste and contribute to cost recovery in the sanitation chain.

While many RRR projects depend on subsidies and hardly survive their pilot phase, hopeful signs of viable approaches to RRR are emerging around the globe including low-and middle-income countries. Many of these new commercial pathways are being charted in the informal sector, delivering innovative approaches for cost-recovery. These enterprises or projects are tapping into entrepreneurial initiatives and public-private partnerships, leveraging private capital to help realize commercial and/or social value, shifting the focus from treatment for waste disposal to treatment of waste as a valuable resource for safe reuse.

The book provides a compendium of these success stories of resource recovery and reuse. It presents for energy, nutrient and water recovery innovative business models based on approximately 70 empirical cases from around the world, each described and evaluated in a systematic way. The focus is on municipal or agro-industrial waste and models with potential for large-scale out- and up-scaling. For each model, safety concerns and risk mitigation measures are highlighted. This is the first book on business models and their enabling environment for the reuse-oriented sanitation sector.

Arvustused

"The catalogue fills a significant gap in the literature and should prove useful not only for todays investors and policy makers but also for the curricula of engineering, economics, environmental and business schools. This will help sensitize the next generation of decision makers to the opportunities inherent in the Circular Economy." - taken from the Foreword, Guy Hutton, Senior Advisor at UNICEF, and previously a Senior Economist at the World Bank

"It is my strong belief that this handbook is a vital resource for all those seeking to help the world grow sustainably and equitably through the 21st century and beyond. I am confident that it will soon become the standard reference for all those who study and practice these important issues, in developed and developing countries alike." - taken from the Epilogue, Professor Jaideep Prabhu, Professor of Business and Enterprise at the Judge Business School at the University of Cambridge, UK, and author of Jugaad Innovation (Wiley, 2012)

Editors and authors xi
Acknowledgements xiii
Foreword xv
Guy Hutton
Section I: Business Models For A Circular Economy: Introduction 1(32)
1 Business models for a circular economy: Linking waste management and sanitation with agriculture
3(13)
Pay Drechsel
Miriam Otoo
Krishna C. Rao
Munir A. Hanjra
2 Defining and analyzing RRR business cases and models
16(17)
Miriam Otoo
Solomie Gebrezgabher
Pay Drechsel
Krishna C. Rao
Sudarshana Fernando
Surendra K. Pradhan
Munir A. Hanjra
Manzoor Qadir
Mirko Winkler
Section II: Energy Recovery From Organic Waste 33(282)
Edited by Krishna C. Rao and Solomie Gebrezgabher
Recovering energy from waste: An overview of presented business cases and models
34(5)
3 Business models for solid fuel production from waste
39(52)
Introduction
40(1)
Case-Briquettes from agro-waste (Kampala Jellitone Suppliers, Uganda)
41(20)
Business model 1: Briquettes from agro-waste
51(10)
Case-Briquettes from municipal solid waste (COOCEN, Kigali, Rwanda)
61(11)
Case-Briquettes from agro-waste and municipal solid waste (Eco-Fuel Africa, Uganda)
72(19)
Business Model 2: Briquettes from municipal solid waste
82(9)
4 Business models for in-house biogas production for energy savings
91(58)
Introduction
92(1)
Case-Biogas from fecal sludge and kitchen waste at prisons
93(10)
Case-Biogas from fecal sludge at community scale (Sulabh, India)
103(11)
Case-Biogas from fecal sludge at Kibera communities at Nairobi (Umande Trust, Kenya)
114(19)
Business model 3: Biogas from fecal sludge at community level
124(9)
Case-Biogas from kitchen waste for internal consumption (Wipro Employees Canteen, India)
133(16)
Business model 4: Biogas from kitchen waste
142(7)
5 Business models for sustainable and renewable power generation
149(135)
Introduction
150(2)
Case-Power from manure and agro-waste for rural electrification (Santa Rosillo, Peru)
152(10)
Case-Power from swine manure for industry's internal use (Sadia, Concordia, Brazil)
162(10)
Case-Power from manure and slaughterhouse waste for industry's internal use (SuKarne, Mexico)
172(21)
Business model 5: Power from manure
182(11)
Case-Power from agro-waste for the grid (Greenko, Koppal, India)
193(10)
Case-Power from rice husk for rural electrification (Bihar, India)
203(19)
Business model 6: Power from agro-waste
215(7)
Case-Power from municipal solid waste at Pune Municipal Corporation (Pune, Maharashtra, India)
222(16)
Business model 7: Power from municipal solid waste
232(6)
Case-Combined heat and power from bagasse (Mumias Sugar Company, Mumias District, Kenya)
238(10)
Case-Power from slaughterhouse waste (Nyongara Slaughter House, Dagorretti, Kenya)
248(9)
Case-Combined heat and-power and ethanol-from sugar industry waste (SSSSK, Maharashtra, India)
257(11)
Case-Combined heat and power from agro-industrial wastewater (TBEC, Bangkok, Thailand)
268(16)
Business model 8: Combined heat and power from agro-industrial waste for on-and off-site use
278(6)
6 Business models on emerging technologies/bio-fuel production from agro-waste
284(32)
Introduction
285(1)
Case-Bio-ethanol from cassava waste (ETAVEN, Carabobo, Venezuela)
286(10)
Case-Organic binder from alcohol production (Eco Biosis S.A., Veracruz, Mexico)
296(25)
Business model 9: Bio-ethanol and chemical products from agro and agro-industrial waste
307(8)
Section III: Nutrient And Organic Matter Recovery 315(232)
Edited by Miriam Otoo
Nutrient and organic matter recovery: An overview of presented business cases and models
316(5)
7 Business models on partially subsidized composting at district level
321(38)
Introduction
322(2)
Case-Municipal solid waste composting for cost recovery (Mbale Compost Plant, Uganda)
324(9)
Case-Public-private partnership-based municipal solid waste composting (Greenfields Crops, Sri Lanka)
333(8)
Case-Fecal sludge and municipal solid waste composting for cost recovery (Balangoda Compost Plant, Sri Lanka)
341(18)
Business model 10: Partially subsidized composting at district level
351(8)
8 Business models on subsidy-free community-based composting
359(19)
Introduction
360(2)
Case-Cooperative model for financially sustainable municipal solid waste composting (NAWACOM, Kenya)
362(16)
Business model 11: Subsidy-free community-based composting
371(7)
9 Business models on large-scale composting for revenue generation
378(69)
Introduction
379(2)
Case-Inclusive, public-private partnership-based municipal solid waste composting for profit (A2Z Infrastructure Limited, India)
381(10)
Case-Municipal solid waste composting with carbon credits for profit (IL&FS, Okhla, India)
391(9)
Case-Partnership-driven municipal solid waste composting at scale (KCDC, India)
400(11)
Case-Franchising approach to municipal solid waste composting for profit (Terra Firma, India)
411(11)
Case-Socially-driven municipal solid waste composting for profit (Waste Concern, Bangladesh)
422(25)
Business model 12: Large-scale composting for revenue generation
434(13)
10 Business models on nutrient recovery from own agro-industrial waste
447(37)
Introduction
448(2)
Case-Agricultural waste to high quality compost (DuduTech, Kenya)
450(9)
Case-Enriched compost production from sugar industry waste (PASIC, India)
459(9)
Case-Livestock waste for compost production (ProBio/Viohache, Mexico)
468(16)
Business model 13: Nutrient recovery from own agro-industrial waste
478(6)
11 Business models on compost production for sustainable sanitation service delivery
484(20)
Introduction
485(2)
Case-Fecal sludge to nutrient-rich compost from public toilets (Rwanda Environment Care, Rwanda)
487(17)
Business model 14: Compost production for sustainable sanitation service delivery
496(8)
12 Business models for outsourcing fecal sludge treatment to the farm
504(19)
Introduction
505(3)
Case-Fecal sludge for on-farm use (Bangalore Honey Suckers, India)
508(15)
Business model 15: Outsourcing fecal sludge treatment to the farm
516(7)
13 Business models on phosphorus recovery from excreta and wastewater
523(25)
Introduction
524(3)
Case-Urine and fecal matter collection for reuse (Ouagadougou, Burkina Faso)
527(26)
Business Model 16: Phosphorus recovery from wastewater at scale
538(9)
Section IV: Wastewater For Agriculture, Forestry And Aquaculture 547(228)
Edited by Pay Drechsel and Munir A. Hanjra
Wastewater for agriculture, forestry and aquaculture: An overview of presented business cases and models
548(5)
14 Business models on institutional and regulatory pathways to cost recovery
553(51)
Introduction
554(2)
Case-Wastewater for fruit and wood production (Egypt)
556(13)
Case-Wastewater and biosolids for fruit trees (Tunisia)
569(15)
Case-Suburban wastewater treatment designed for reuse and replication (Morocco)
584(20)
Business model 17: Wastewater for greening the desert
595(9)
15 Business models beyond cost recovery: Leapfrogging the value chain through aquaculture
604(35)
Introduction
605(1)
Case-Wastewater for the production of fish feed (Bangladesh)
606(11)
Case-A public-private partnership linking wastewater treatment and aquaculture (Ghana)
617(14)
Business Model 18: Leapfrogging the value chain through aquaculture
631(8)
16 Business models for cost sharing and risk minimization
639(25)
Introduction
640(2)
Case-Viability gap funding (As Samra, Jordan)
642(22)
Business model 19: Enabling private sector investment in large scale wastewater treatment
656(8)
17 Business models on rural-urban water trading
664(64)
Introduction
665(5)
Case-Fixed wastewater-freshwater swap (Mashhad Plain, Iran)
670(9)
Case-Flexible wastewater-freshwater swap (Llobregat delta, Spain)
679(19)
Business model 20: inter-sectoral water exchange
691(7)
Case-Growing opportunities for Mexico City to tap into the Tula aquifer (Mexico)
698(12)
Case-Revival of Amani Doddakere tank (Bangalore, India)
710(18)
Business model 21: Cities as their own downstream user (Towards managed aquifer recharge)
720(8)
18 Business models for increasing safety in informal wastewater irrigation
728(49)
Introduction
729(46)
Business model 22: Corporate Social Responsibility (CSR) as driver of change
733(12)
Business model 23: Wastewater as a commodity driving change
745(15)
Business model 24: Farmers' innovation capacity as driver of change
760(15)
Section V: Enabling Environment And Financing 775
19 The enabling environment and finance of resource recovery and reuse
777(24)
Luca di Mario
Krishna C. Rao
Pay Drechsel
Frugal innovations for the circular economy: An epilogue
801
Jaideep Prabhu
Index 804
Miriam Otoo is a Research Economist, leading the Research Group on Resource Recovery and Reuse at the International Water Management Institute (IWMI).

Pay Drechsel is a Principal Researcher at the International Water Management Institute (IWMI), leading IWMIs Strategic Program, on Rural-Urban Linkages and the related Research Flagship of the CGIAR Research Program on Water, Land and Ecosystems (WLE).