| Description |
1 online resource (419 p.) |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
| Bibliography |
Includes bibliographical references and index. |
| Note |
Description based on online resource; title from digital title page (viewed on September 21, 2023). |
| Contents |
Front Cover -- Resource Recovery in Municipal Waste Waters -- Copyright Page -- Contents -- List of contributors -- 1 Microalgae-based processes for resource recovery from municipal wastewater -- Abbreviations -- 1.1 Introduction -- 1.2 Microalgal species used for wastewater treatment -- 1.3 Cultivation modes of microalgae -- 1.3.1 Photoautotrophic cultivation -- 1.3.2 Heterotrophic cultivation -- 1.3.3 Mixotrophic cultivation -- 1.4 Nutrients recovery from municipal wastewater by microalgae -- 1.4.1 Recovery of nitrogen -- 1.4.2 Recovery of phosphorus -- 1.4.3 Recovery of organic carbon |
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1.5 Pollutants removal mechanisms by microalgae -- 1.5.1 Biosorption -- 1.5.2 Bioaccumulation -- 1.5.3 Biodegradation -- 1.6 Biomass harvesting techniques -- 1.6.1 Gravity sedimentation -- 1.6.2 Flocculation and coagulation -- 1.6.3 Flotation -- 1.6.4 Centrifugation -- 1.6.5 Filtration -- 1.7 Current challenges of microalgae-based technology and future perspectives -- 1.8 Conclusion -- References -- Further reading -- 2 Microalgae-based processes for resource recovery from municipal wastewater treatment plants -- 2.1 Introduction -- 2.1.1 Implantation of microalgae in wastewater treatment |
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2.1.2 Characteristics of microalgae species used in wastewater treatment -- 2.3 Microalgae role in wastewater treatment -- 2.4 Removal of nutrients from wastewater -- 2.4.1 Carbon removal -- 2.4.2 Nitrogen removal -- 2.4.3 Phosphorus removal -- 2.4.4 Removal of heavy metals -- 2.5 Strategies to enhance the removal of nutrients -- 2.5.1 Factors affecting microalgae-based nutrient removal -- 2.5.2 Cultivation system -- 2.5.3 pH effect -- 2.5.4 C/N/P ratio -- 2.5.5 Light Effect -- 2.5.6 Temperature -- 2.6 Bioremediation in wastewater treatment via microalgae |
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2.6.1 Microalgal treatment of wastewaters -- 2.6.2 Bioremediation of heavy metals -- 2.6.3 Bioremediation approaches in value-added products formation -- 2.6.3.1 Arsenic -- 2.6.3.2 Cadmium (Cd) -- 2.6.3.3 Chromium (Cr) -- 2.7 Economic feasibility of nutrient removal methods -- 2.7.1 Closed photobioreactors -- 2.7.2 Raceway pond system -- 2.8 Economic feasibility of microalgae cultivation -- 2.9 Challenges of implementing the proposed technology and future prospects -- References -- 3 Metal recovery from municipal wastewater treatment plants -- 3.1 Introduction |
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3.2 Various methods for metal recovery -- 3.2.1 Adsorption -- 3.2.2 Membrane filtration -- 3.2.3 Electrodialysis -- 3.2.4 Photocatalysis -- 3.2.5 Chemical precipitation -- 3.2.6 Wet-chemical treatment -- 3.2.7 Thermochemical process -- 3.2.8 Bioelectrochemical metal recovery method -- 3.3 Safe disposal of recovered metals -- 3.4 Challenges and future perspectives -- 3.5 Conclusion -- References -- 4 Hydrothermal processing for resource recovery from municipal wastewater treatment plants -- 4.1 Introduction -- 4.1.1 Hydrothermal processing -- 4.1.2 Types of hydrothermal processing |
| Subject |
Sewage -- Purification.
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Municipal water supply.
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Eaux usées -- Épuration.
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Eau -- Approvisionnement urbain.
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Municipal water supply. (OCoLC)fst01029488
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Sewage -- Purification.
(OCoLC)fst01113752
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| Added Author |
Sillanpää, Mika, editor.
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Khadir, Ali, editor.
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Gurung, Khum, editor.
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| Other Form: |
Print version: Sillanpaa, Mika Resource Recovery in Municipal Waste Waters San Diego : Elsevier,c2023 9780323993487 |
| ISBN |
0323993494 |
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9780323993494 (electronic bk.) |
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9780323993487 |
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0323993486 |
| Standard No. |
AU@ 000074931311 |
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