| Contributors |
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| Preface |
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xxiii | |
| 1 Circular economy approach in the water and wastewater sector |
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1 | (20) |
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1 | (2) |
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3 | (1) |
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4 | (11) |
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15 | (1) |
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16 | (5) |
| 2 Integrating circularity to achieve sustainability: Examples of various wastewater treatment systems |
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21 | (16) |
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21 | (3) |
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2 Case study 1: Sustainability assessment for wastewater treatment systems in Latin America |
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24 | (1) |
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3 Case study 2: Decision making framework for wastewater treatment in New Delhi |
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25 | (1) |
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4 Discussion and conclusion |
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26 | (2) |
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28 | (6) |
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34 | (3) |
| 3 Risks associated with the circular economy: Treated sewage reuse in agriculture |
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37 | (12) |
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1 Limitations of the circular economy in sewage treatment |
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37 | (2) |
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2 Antibiotics as a potential risk factor for treated sewage reuse in agriculture |
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39 | (4) |
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3 Potential impacts on human health and in the environment |
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43 | (2) |
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45 | (1) |
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46 | (3) |
| 4 Wastewater reuse for agricultural irrigation in Greece: Review of guidelines under the prism of the latest European Union's policy developments |
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49 | (14) |
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49 | (2) |
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2 Wastewater treatment status in Greece |
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51 | (2) |
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3 Wastewater reuse status in Greece |
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53 | (1) |
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54 | (4) |
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5 Future trends and conclusions |
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58 | (2) |
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60 | (3) |
| 5 A circular model for sustainable produced water management in the oil and gas industry |
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63 | (16) |
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63 | (3) |
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2 Constructed wetlands technology |
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66 | (1) |
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3 Constructed wetlands in the oil and gas industry |
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67 | (1) |
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4 A circular model to close the loop of waste in PW management |
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68 | (5) |
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73 | (1) |
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74 | (5) |
| 6 College of engineering Pune hostel campus: An Indian experience of sustainable wastewater treatment and reuse |
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79 | (18) |
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79 | (1) |
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80 | (5) |
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85 | (9) |
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94 | (1) |
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95 | (2) |
| 7 Wastewater treatment and sludge management strategies for environmental sustainability |
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97 | (16) |
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97 | (2) |
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99 | (6) |
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105 | (2) |
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107 | (1) |
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108 | (5) |
| 8 Recovery of nutritional resources of urban sewage sludge in lettuce production |
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113 | (16) |
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113 | (1) |
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114 | (3) |
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117 | (8) |
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125 | (1) |
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125 | (4) |
| 9 Sludge drying reed beds: A key ecotechnology for a sustainable sanitation infrastructure in Brazil |
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129 | (32) |
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Gabriel Rodrigues Vasconcellos |
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Breno Henrique Leite Cota |
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1 Humankind and agriculture as unbalanced geological forces |
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129 | (3) |
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2 Sewage treatment in Brazil |
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132 | (11) |
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3 Sludge drying reed beds: A key ecotechnology for a sustainable sanitation infrastructure in Brazil and similar countries |
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143 | (12) |
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155 | (2) |
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157 | (4) |
| 10 Manure treatment and recycling technologies |
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161 | (20) |
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161 | (1) |
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2 Solid-liquid separation |
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161 | (3) |
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164 | (3) |
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167 | (3) |
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5 Land application of manure and digestates |
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170 | (4) |
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6 Environmental risks control |
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174 | (3) |
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177 | (4) |
| 11 Circular economy in the Mesopotamian Marshes: The Eden in Iraq Wastewater Garden Project |
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181 | (18) |
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1 Introduction: Historical and ecological context |
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181 | (4) |
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185 | (6) |
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3 Eden in Iraq and the circular economy |
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191 | (3) |
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194 | (2) |
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196 | (3) |
| 12 Design concept and performance of a constructed wetland system engineered for the circular economy |
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199 | (16) |
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199 | (7) |
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206 | (1) |
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207 | (5) |
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212 | (1) |
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213 | (2) |
| 13 Valorization of solid waste in subsurface flow constructed wetlands based on renewable modular structures: A contribution to a circular economy |
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215 | (20) |
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215 | (2) |
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217 | (12) |
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3 Perspective for future applications |
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229 | (1) |
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230 | (1) |
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231 | (1) |
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231 | (4) |
| 14 Nature-based solutions for socially and environmentally responsible new cities: The contribution of green roofs |
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235 | (22) |
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Cristina Sousa Coutinho Calheiros |
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235 | (2) |
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2 Green roofs as nature-based solution |
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237 | (7) |
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3 Green roofs strategy for cities |
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244 | (5) |
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4 Case study-Porto City Council |
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249 | (3) |
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5 Highlights for the future |
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252 | (1) |
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253 | (1) |
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253 | (4) |
| 15 Constructed wetlands' application for flower farms wastewater treatment in developing countries: Case study in Kenya |
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257 | (14) |
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1 Description of constructed wetlands |
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257 | (2) |
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2 Constructed wetlands for Naivasha flower farms' wastewater treatment |
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259 | (5) |
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3 Sustainability of constructed wetlands |
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264 | (1) |
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4 Benefits associated with CWs in Naivasha flower farms' wastewater treatment |
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265 | (3) |
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268 | (3) |
| 16 Ecotoxicity evaluation of diclofenac potassium in vertical flow constructed wetlands as posttreatment of septic tank effluent |
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271 | (12) |
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271 | (3) |
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274 | (3) |
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277 | (3) |
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280 | (1) |
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280 | (3) |
| 17 Searching for sustainability in organic matter and nitrogen removal by integrating constructed wetlands and microbial fuel cells |
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283 | (14) |
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1 Constructed wetlands from a circular economy perspective |
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283 | (2) |
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2 Organic matter and nitrogen transformation and elimination processes in constructed wetlands |
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285 | (4) |
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3 Integration of a microbial fuel cell into a constructed wetland to control methane emissions |
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289 | (4) |
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293 | (1) |
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294 | (1) |
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294 | (3) |
| 18 Creative approaches in engaging the community toward ecological waste management and wetland conservation |
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297 | (22) |
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Aaron Julius M. Lecciones |
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Ma. Catriona E. Devanadera |
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297 | (2) |
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299 | (2) |
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301 | (2) |
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303 | (2) |
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5 Waste pollution in wetlands |
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305 | (2) |
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307 | (6) |
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313 | (1) |
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314 | (1) |
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315 | (4) |
| 19 Circular economy in the building sector: Towards a holistic framework for implementing circular business models |
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319 | (18) |
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319 | (1) |
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2 Literature review and research questions |
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320 | (2) |
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3 Methodology, research framework and empirical analysis |
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322 | (4) |
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326 | (7) |
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5 Conclusion, limitations, and directions for future research |
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333 | (1) |
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334 | (3) |
| 20 Improving circular building under uncertainty and complexity: Exploring recent trends in the Netherlands |
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337 | (22) |
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337 | (2) |
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2 Theoretical and practical background |
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339 | (4) |
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343 | (1) |
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344 | (8) |
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352 | (2) |
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6 Conclusions, future research, and limitations |
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354 | (2) |
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356 | (1) |
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356 | (3) |
| 21 Circular materials-An essay on challenges with current manufacturing and recycling strategies as well as on the potential of life cycle integrated designs |
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359 | (14) |
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359 | (2) |
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2 Enablers and barriers to circular design |
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361 | (2) |
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3 Producing sustainable circular secondary raw materials |
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363 | (4) |
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4 Producing circular products-Redesigning for easy dismantling and recycling |
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367 | (3) |
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5 Conclusions and perspectives |
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370 | (1) |
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370 | (3) |
| 22 Waste to energy at the neighborhood microscale in the urban regeneration of Madrid peripheries: Towards effective circular neighborhoods |
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373 | (22) |
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Francisco Javier Gonzalez |
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1 Introduction: Changes in urban regeneration processes within vulnerable peripheries |
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373 | (2) |
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2 Towards "circular neighborhoods" on the outskirts of Madrid: A model of sustainable urban regeneration that finds its resources in the intervention itself |
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375 | (6) |
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3 Waste to energy processes at the neighborhood microscale |
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381 | (2) |
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4 Opportunities and barriers in the implementation of waste to energy processes in the context of urban regeneration in the airport neighborhood of Madrid |
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383 | (7) |
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390 | (1) |
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391 | (4) |
| 23 Optimization of surface mining operation based on a circular economy model |
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395 | (24) |
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395 | (1) |
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2 Environmental aspects of surface mining |
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396 | (3) |
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3 The circular resource flows in a surface mining project |
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399 | (5) |
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4 Circular resource modeling |
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404 | (12) |
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416 | (1) |
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417 | (2) |
| 24 Sustainability assessment of bioleaching for mineral resource recovery from MSWI ashes |
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419 | (28) |
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1 Municipal waste treatments call for sustainability |
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419 | (9) |
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2 Waste-Bioleaching Nexus |
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428 | (10) |
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3 Bioleaching Sustainability Assessment |
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438 | (3) |
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441 | (6) |
| 25 Circular economy for the sustainability of the wood-based industry: The case of Caraga Region, Philippines |
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447 | (16) |
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447 | (1) |
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2 Status and progress of circular economy initiatives across Asia (with emphasis on East and Southeast Asia) |
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448 | (4) |
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3 Looking into the potentials of the circular economy for forestry development |
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452 | (2) |
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4 The science-based initiatives on improving the wood-based industry in the Caraga Region |
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454 | (2) |
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5 The development agenda for the sustainability of the wood-based industry |
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456 | (2) |
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6 Developing the wood-based industry roadmap to sustainable development |
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458 | (1) |
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459 | (1) |
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459 | (4) |
| 26 Equilibrium modeling and statistical analysis of struvite precipitation for nutrient recovery from corn-ethanol downstream process |
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463 | (28) |
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463 | (2) |
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465 | (1) |
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466 | (4) |
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470 | (17) |
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487 | (1) |
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488 | (1) |
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488 | (3) |
| 27 Food processing wastes as a potential source of adsorbent for toxicant removal from water |
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491 | (18) |
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1 Introduction on waste generated from food processing industries |
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491 | (2) |
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2 Food processing wastes as potential adsorbents and their application in water and wastewater treatment |
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493 | (5) |
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3 Advantages and obstacles of using food processing wastes as a valuable source of adsorbents for water treatment |
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498 | (3) |
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4 Technological and policy solutions for supporting the application of food processing wastes as adsorbents in the water treatment industry |
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501 | (2) |
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503 | (6) |
| 28 Sustainable circular economy design in 2050 for water and food security using renewable energy |
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509 | (14) |
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509 | (2) |
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2 Five technological possibilities |
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511 | (7) |
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3 Sustainability, circular economy, and food security in the year 2050 |
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518 | (1) |
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519 | (1) |
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520 | (3) |
| 29 Towards circular economy in e-waste management in India: Issues, challenges, and solutions |
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523 | (22) |
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523 | (4) |
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527 | (1) |
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3 Circular economy practices in India |
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527 | (1) |
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4 Existing technologies for e-waste management in India |
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528 | (2) |
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5 New and upcoming technologies for e-waste management |
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530 | (2) |
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532 | (2) |
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7 Findings and discussion |
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534 | (5) |
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8 Conclusion and future direction |
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539 | (1) |
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540 | (1) |
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540 | (5) |
| Index |
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545 | |
Daugiau apie elektronines knygas