Phycology-based approaches for wastewater treatment and resource recovery. (2021)
- Record Type:
- Book
- Title:
- Phycology-based approaches for wastewater treatment and resource recovery. (2021)
- Main Title:
- Phycology-based approaches for wastewater treatment and resource recovery
- Further Information:
- Note: Edited by Pradeep Verma, Maulin P. Shah.
- Editors:
- Verma, Pradeep
Shah, Maulin P - Contents:
- Chapter 1; Biotechnological advances for utilization of algae, microalgae, and cyanobacteria for wastewater treatment and resource recovery; Prabuddha Gupta, Ashok Kumar Bishoyi, Mahendrapal singh Rajput, Ujwal Trivedi, Gaurav Sanghvi*; 1.1. Introduction 1.2. Wastewater treatment by Microalgae 1.3. Wastewater treatment by Cyanobacteria 1.4. Open system 1.4.1. Stabilization ponds/oxidation ditches/lagoons 1.4.2. Raceway ponds (RWP) 1.4.3. Revolving algal biofilms (RAB) 1.4.4. Photo sequencing batch reactor (PSBR) 1.5. Closed system 1.5.1. Photobioreactors (PBRs) 1.5.2. Immobilized Algae system 1.5.3. Algal membrane photobioreactor (A-MPBR) 1.6. Biotechnological advancement towards wastewater treatment: better understanding with omics approach 1.6.1. Omics approach in wastewater treatment 1.7 Conclusion References Chapter 2; Wastewater utilization as growth medium for seaweed, microalgae and cyanobacteria, defined as potential source of human and animal services; Silvia Lomartire, Diana Pacheco, Glácio Souza Araújo, João C. Marques, Leonel Pereira, Ana M. M. Gonçalves*; 2.1. Introduction 2.2. Correlation between biological tools and production of services for humans and animals 2.2.1. Use in the aquaculture; 2.3. Seaweed as potential source of food industry, nutraceutical and pharmaceutical products 2.3.1. Industrial applications of seaweed 2.3.2. Nutraceutical applications of seaweed 2.3.3. Pharmaceutical products from seaweed 2.3.4. Therapeutical applications of seaweed 2.4.Chapter 1; Biotechnological advances for utilization of algae, microalgae, and cyanobacteria for wastewater treatment and resource recovery; Prabuddha Gupta, Ashok Kumar Bishoyi, Mahendrapal singh Rajput, Ujwal Trivedi, Gaurav Sanghvi*; 1.1. Introduction 1.2. Wastewater treatment by Microalgae 1.3. Wastewater treatment by Cyanobacteria 1.4. Open system 1.4.1. Stabilization ponds/oxidation ditches/lagoons 1.4.2. Raceway ponds (RWP) 1.4.3. Revolving algal biofilms (RAB) 1.4.4. Photo sequencing batch reactor (PSBR) 1.5. Closed system 1.5.1. Photobioreactors (PBRs) 1.5.2. Immobilized Algae system 1.5.3. Algal membrane photobioreactor (A-MPBR) 1.6. Biotechnological advancement towards wastewater treatment: better understanding with omics approach 1.6.1. Omics approach in wastewater treatment 1.7 Conclusion References Chapter 2; Wastewater utilization as growth medium for seaweed, microalgae and cyanobacteria, defined as potential source of human and animal services; Silvia Lomartire, Diana Pacheco, Glácio Souza Araújo, João C. Marques, Leonel Pereira, Ana M. M. Gonçalves*; 2.1. Introduction 2.2. Correlation between biological tools and production of services for humans and animals 2.2.1. Use in the aquaculture; 2.3. Seaweed as potential source of food industry, nutraceutical and pharmaceutical products 2.3.1. Industrial applications of seaweed 2.3.2. Nutraceutical applications of seaweed 2.3.3. Pharmaceutical products from seaweed 2.3.4. Therapeutical applications of seaweed 2.4. Microalgae as potential source of food industry, nutraceutical and pharmaceutical products 2.4.1. Microalgae application in food industry 2.4.2. Nutraceutical applications of microalgae 2.4.3. Pharmaceutical applications of microalgae 2.4.4. Companies that produce microalgae-based products 2.5. Cyanobacteria as potential source of food industry, nutraceutical and pharmaceutical products 2.5.1. Cyanobacteria’s application in Food industry 2.5.2. Nutraceutical applications of cyanobacteria 2.5.3. Pharmaceutical applications of cyanobacteria 2.6. Methods of cultivation of macroalgae, microalgae and cyanobacteria 2.6.1. Macroalgae cultivation 2.6.2. Microalgae and Cyanobacteria cultivation 2.7. Rural and industrial wastewater application as potential growth substrate 2.7.1. Macroalgae 2.7.2. Microalgae and Cyanobacteria 2.8. Conclusion References Chapter 3; Identification, Cultivation and Potential Utilization of Micro-algae in Domestic Wastewater Treatment; Debanjan Sanyal*, Sneha Athalye, Shyam Prasad, Dishant Desai, Vinay Dwivedi and Santanu Dasgupta; 3.1. Introduction; 3.2. Algae naturally present in domestic wastewater; 3.3. Algae: An indicator species for pollution; 3.4. Role of algae in wastewater treatment; 3.5. Cultivation methodology for various algal species; 3.6. Utilization of harvested algae biomass; 3.7. Challenges and future prospects; 3.8. Conclusion; Acknowledgement; References Chapter 4; Phyco-remediation: A Promising Solution for Heavy Metal Contaminants in Industrial Effluents; Chandra Shekharaiah P. S, Santosh Kodgire, Ayushi Bisht, Debanjan Sanyal*, Santanu Dasgupta; 4.1. Introduction; 4.2. Conventional methods of heavy metal removal; 4.2.1. Ion exchange method; 4.2.2. Adsorption method; 4.2.3. Membrane filtration; 4.2.4. Chemical precipitation; 4.2.5. Coagulation and clotting method; 4.3. Phycoremediation; 4.3.1. Phycoremediation by live algal cultures; 4.4. Cultivation systems for removal of heavy metals; 4.4.1. Phycoremediation of heavy metals by immobilized algal cultures; 4.4.2. Phycoremediation of heavy metals by batch mode cultivation of algae; 4.4.3. Phycoremediation of heavy metals by continuous mode cultivation of algae; 4.5. Commercial adsorbents versus algal adsorbents; 4.6. Recycle and regeneration of algae; 4.7. Conclusion; References Chapter 5; Microalgae mediated elimination of endocrine-disrupting chemicals; Chandra Prakash, Komal Agrawal, Pradeep Verma, Venkatesh Chaturvedi*; 5.1. Introduction; 5.2. Removal of various EDCs using microalgae; 5.2.1 Estrogens; 5.2.2 Phenol derivatives; 5.2.2.1. Nonylphenol and Octylphenol; 5.2.2.2 Bisphenol A; 5.2.3 NSAIDS; 5.2.4 Antibiotics; 5.2.5 Pesticides; 5.3 Conclusion; References Chapter 6; The application of microalgae for bioremediation of pharmaceuticals from wastewater: recent trend and possibilities; Prithu Baruah and Neha Chaurasia*; 6.1. Introduction; 6.2 Pharmaceuticals in the environment; 6.2.1 Source and entry of pharmaceuticals into the environment; 6.2.2 Environmental and health risks of pharmaceuticals; 6.3 Modern methods of pharmaceuticals remediation; 6.4 Removal of pharmaceuticals by microalgae; 6.4.1 Ecological role of microalgae; 6.4.2 Mechanism of pharmaceuticals removal by microalgae; 6.4.3 Factors affecting pharmaceuticals removal by microalgae; 6.5 Other application of microalgae; 6.5.1 Production of biofuel; 6.5.2 Biomitigation of carbon dioxide; 6.6 Conclusion and prospects; References Chapter 7; Green Nanotechnology: A microalgal approach to remove heavy metals from wastewater; Navonil Mal, Reech … (more)
- Edition:
- 1st
- Publisher Details:
- Boca Raton : CRC Press
- Publication Date:
- 2021
- Extent:
- 1 online resource, illustrations (black and white)
- Subjects:
- 628.3
Sewage -- Purification
Algology -- Industrial applications - Languages:
- English
- ISBNs:
- 9781000481464
9781000481457
9781003155713 - Related ISBNs:
- 9780367726447
- Notes:
- Note: Description based on CIP data; resource not viewed.
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- British Library HMNTS - ELD.DS.651280
- Ingest File:
- 07_016.xml