| Contributors |
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ix | |
| Preface |
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xiii | |
| Acknowledgements |
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xv | |
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1 Evaluation of micro-pollutants removal from industrial wastewater using conventional and advanced biological treatment processes |
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1 | (26) |
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1 | (1) |
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1.2 Types of micro-pollutants (MPs) in industrial wastewaters and their toxic health effects |
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2 | (3) |
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1.3 Conventional biological treatment |
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5 | (3) |
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1.4 Advanced biological treatment |
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8 | (12) |
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1.5 Pros and cons of biological treatment process on MPs removal over conventional ones |
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20 | (1) |
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1.6 Future aspects of BWWTPs of large-scale MPs remediation |
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21 | (1) |
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22 | (5) |
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22 | (5) |
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2 Fate and occurrence of micro- and nano-plastic pollution in industrial wastewater |
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27 | (12) |
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27 | (1) |
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2.2 Micro-and nano-plastics in the environment |
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28 | (1) |
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2.3 Structural difference between micro- and nano-plastics |
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29 | (1) |
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2.4 Characterisation of micro- and nano-plastics |
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29 | (1) |
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2.5 Techniques used for characterization of micro- and nano-plastics from wastewater |
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30 | (3) |
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2.6 Health hazards of microplastics and nanoplastics |
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33 | (2) |
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2.7 Impact of micro- and nano-plastics in industrial wastewater |
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35 | (1) |
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36 | (3) |
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36 | (1) |
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37 | (2) |
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3 Biosensors as an effective tool for detection of emerging water and wastewater pollutants |
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39 | (16) |
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39 | (3) |
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3.2 Conventional methods of pollutants' detection in wastewater |
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42 | (1) |
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43 | (5) |
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3.4 Advantages of biosensors over conventional detection methods |
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48 | (1) |
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3.5 Nanotechnology for biosensors |
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49 | (3) |
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52 | (3) |
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52 | (3) |
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4 Removal of organic micro-pollutants by aerobic and anaerobic microorganism |
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55 | (24) |
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55 | (1) |
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4.2 Organic micropollutants |
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56 | (7) |
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4.3 Effect of organic micropollutants on the environments |
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63 | (1) |
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4.4 Different methods for the removal of organic micropollutants |
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64 | (3) |
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4.5 Aerobic and anaerobic microorganism for the removal of micropollutants |
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67 | (5) |
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4.6 Limitations and future prospects |
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72 | (1) |
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73 | (6) |
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73 | (6) |
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5 Emerging dye contaminants of industrial origin and their enzyme-assisted biodegradation |
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79 | (24) |
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79 | (1) |
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5.2 Enzymes for dye degradation |
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80 | (15) |
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95 | (4) |
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5.4 Conclusions and future prospects |
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99 | (4) |
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99 | (4) |
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6 An overview on the application of constructed wetlands for the treatment of metallic wastewater |
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103 | (28) |
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103 | (1) |
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6.2 Sources of metal pollution and its environmental implications |
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104 | (4) |
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6.3 Environmental impacts |
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108 | (1) |
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6.4 Treatment of metal-laden industrial wastewater |
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109 | (5) |
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6.5 Constructed wetlands for heavy metal removal |
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114 | (11) |
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125 | (6) |
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125 | (6) |
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7 A glance over current status of waste management and landfills across the globe: A Review |
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131 | (14) |
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131 | (1) |
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7.2 Global scenario of landfilling |
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132 | (3) |
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7.3 Indian scenario of landfilling |
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135 | (1) |
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7.4 Land requirement for dumpsites |
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136 | (3) |
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7.5 MSWM in developed and emerging countries: a comparative analysis |
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139 | (1) |
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140 | (5) |
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140 | (5) |
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8 Micro and nanoplastic toxicity on aquatic life: fate, effect and remediation strategy |
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145 | (32) |
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145 | (3) |
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8.2 Extensive use of plastic in our daily life |
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148 | (2) |
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8.3 Characterizations of MPs and NPs |
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150 | (3) |
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8.4 Environmental behavior and fate of MPs and NPs |
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153 | (6) |
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8.5 Impact of MPs and NPs on aquatic life ecosystem |
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159 | (3) |
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8.6 Remediation of MPs and NPs from the aquatic system |
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162 | (9) |
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171 | (6) |
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172 | (5) |
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9 Endocrine-disrupting pollutants in domestic and industrial wastewater: occurrence and removal by advanced treatment system for wastewater reuse |
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177 | (16) |
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177 | (1) |
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9.2 Sources, fate, and interaction of EDCs with biota |
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178 | (3) |
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9.3 Removal of EDCs via physical and chemical treatment |
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181 | (3) |
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9.4 Nanomaterial assisted removal of EDCs |
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184 | (1) |
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9.5 Polymer-based removal of EDCs |
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185 | (1) |
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9.6 EDC bioremediation technologies |
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186 | (2) |
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9.7 Conclusion and recommendation |
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188 | (5) |
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Conflict of interest disclosures |
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189 | (1) |
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189 | (1) |
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189 | (1) |
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189 | (4) |
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10 Use of microalgae for the removal of emerging contaminants from wastewater |
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193 | (18) |
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193 | (2) |
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10.2 Microalgae-based mechanism for degradation of pollutants |
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195 | (2) |
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10.3 Removal strategies in micro algae based treatment systems |
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197 | (3) |
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200 | (1) |
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10.5 Removal efficiency of various emerging contaminants by microalgae |
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200 | (3) |
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203 | (2) |
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10.7 Harvesting of algal biomass |
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205 | (1) |
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10.8 Necessity of pre and post treatment of micro algae |
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206 | (1) |
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207 | (4) |
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207 | (4) |
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11 Bioaugmentation as a strategy for the removal of emerging pollutants from wastewater |
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211 | (20) |
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11.1 Introduction to bioremediation |
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211 | (2) |
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11.2 Current bioremediation methods and their limitations |
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213 | (5) |
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11.3 Nanoparticles for Bioaugmentation: Nanobioaugmentation |
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218 | (6) |
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11.4 Current technological barriers in using nanoparticles |
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224 | (1) |
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11.5 Future prospective and conclusion |
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225 | (6) |
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225 | (6) |
| Index |
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231 | |
Daugiau apie elektronines knygas