Sustainable Water Treatment
Innovative Technologies
Herausgeber: Noor, Zainura Zainon; Sabli, Noor Salehan Mohammad
Sustainable Water Treatment
Innovative Technologies
Herausgeber: Noor, Zainura Zainon; Sabli, Noor Salehan Mohammad
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This book focuses on green and innovative wastewater treatment technologies that promote sustainability. It discusses a variety of biological, physical, and chemical treatment technologies. It covers biological processes for recovery of value-added products from wastewater and gives an overview of enzymatic hydrolysis and bioremediation of waste
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This book focuses on green and innovative wastewater treatment technologies that promote sustainability. It discusses a variety of biological, physical, and chemical treatment technologies. It covers biological processes for recovery of value-added products from wastewater and gives an overview of enzymatic hydrolysis and bioremediation of waste
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 184
- Erscheinungstermin: 10. Dezember 2019
- Englisch
- Abmessung: 234mm x 156mm x 11mm
- Gewicht: 286g
- ISBN-13: 9780367885779
- ISBN-10: 0367885778
- Artikelnr.: 58482678
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 184
- Erscheinungstermin: 10. Dezember 2019
- Englisch
- Abmessung: 234mm x 156mm x 11mm
- Gewicht: 286g
- ISBN-13: 9780367885779
- ISBN-10: 0367885778
- Artikelnr.: 58482678
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
Dr. Zainura Zainon Noor is Associate Professor of Chemical Engineering at Universiti Teknologi Malaysia. She embarked on her career in UTM in 1999 as a research officer in a chemical engineering pilot plant prior to joining the Faculty of Chemical Engineering and Natural Resources two years later. A well-trained chemical engineer specializing in environmental engineering, Dr, Zainura is an intrinsically passionate and driven individual towards finding greener and eco-friendly solutions. Through her relentless interest, years of academic study as well as conducive research and consultation activities, Dr. Zainura has established and strengthened her expertise in green technology, including cleaner production, life cycle assessment (LCA), water and carbon footprints, greenhouse gas inventory and projection as well as sustainable development. She is an accomplished project manager and is currently leading the Green Technology Research Group (Green Tech RG) at one of UTM's prominent centers of excellence, Center of Sustainable Environment and Water Security (IPASA). Recognizing her expertise in Green Technology, in 2009, Department of Environment (DOE) Malaysia appointed her to develop the Cleaner Production Module, which was later on used as the training module for the department's officers from all over Malaysia. Recently, she was selected by the Malaysian Government (under the Ministry of Natural Resources and Environment) as a consultant for the development of Malaysia Environmental Performance Index (EPI). She is also an appointed committee member of the Green Technology Focus Group (Sustainable Solid Waste) under the Ministry of Green Technology, Energy and Water. Dr. Zainura is also a renowned speaker and has given talks in numerous seminars, workshops and short courses at both national and international levels. Dr. Zainura received her PhD and MS degrees from Newcastle University, UK, and BE degree from Vanderbilt University. Noor Salehan Moh
Section 1: Innovative Biological Processes for the Recovery of Value Added
Products from Wastewater. Enzymatic Hydrolysis of Used Cooking Palm Oil by
PVA- Alginate-Sulfate Immobilized Lipase. Bioremediation of POME for
Itaconic Acid Production by Aspergillus terreus NRRL 1960 Immobilized in
PVA- Alginate-Sulfate Beads. Optimization of Lipid Content in Microalgae
Biomass Using Diluted Palm Oil Mill Effluent (POME) by Varying Nutrient
Ration. Section 2: MBR Technologies. Removal of Micropollutants from
Wastewater through MBR Technologies: A Case Study on Spent Caustic
Wastewater. The Outlook on Future MBR Technologies. Integration of Membrane
Bioreactor with Various Wastewater Treatment Systems. Section 3: Advanced
Chemical-Physical Processes for Industrial Wastewater Treatment. Wet Air
Oxidation Processes: A Pretreatment to Enhance the Biodegrability of
Pharmaceutical Wastewaters. Application of Nonthermal Plasma in the
Treatment of VOCs from Wastewater. Removal of Color Wastewater Using Low
Cost Adsorbent: A Comparative Study. Bioparticle Development in Constructed
Wetland for Domestic Wastewater.
Products from Wastewater. Enzymatic Hydrolysis of Used Cooking Palm Oil by
PVA- Alginate-Sulfate Immobilized Lipase. Bioremediation of POME for
Itaconic Acid Production by Aspergillus terreus NRRL 1960 Immobilized in
PVA- Alginate-Sulfate Beads. Optimization of Lipid Content in Microalgae
Biomass Using Diluted Palm Oil Mill Effluent (POME) by Varying Nutrient
Ration. Section 2: MBR Technologies. Removal of Micropollutants from
Wastewater through MBR Technologies: A Case Study on Spent Caustic
Wastewater. The Outlook on Future MBR Technologies. Integration of Membrane
Bioreactor with Various Wastewater Treatment Systems. Section 3: Advanced
Chemical-Physical Processes for Industrial Wastewater Treatment. Wet Air
Oxidation Processes: A Pretreatment to Enhance the Biodegrability of
Pharmaceutical Wastewaters. Application of Nonthermal Plasma in the
Treatment of VOCs from Wastewater. Removal of Color Wastewater Using Low
Cost Adsorbent: A Comparative Study. Bioparticle Development in Constructed
Wetland for Domestic Wastewater.
Section 1: Innovative Biological Processes for the Recovery of Value Added
Products from Wastewater. Enzymatic Hydrolysis of Used Cooking Palm Oil by
PVA- Alginate-Sulfate Immobilized Lipase. Bioremediation of POME for
Itaconic Acid Production by Aspergillus terreus NRRL 1960 Immobilized in
PVA- Alginate-Sulfate Beads. Optimization of Lipid Content in Microalgae
Biomass Using Diluted Palm Oil Mill Effluent (POME) by Varying Nutrient
Ration. Section 2: MBR Technologies. Removal of Micropollutants from
Wastewater through MBR Technologies: A Case Study on Spent Caustic
Wastewater. The Outlook on Future MBR Technologies. Integration of Membrane
Bioreactor with Various Wastewater Treatment Systems. Section 3: Advanced
Chemical-Physical Processes for Industrial Wastewater Treatment. Wet Air
Oxidation Processes: A Pretreatment to Enhance the Biodegrability of
Pharmaceutical Wastewaters. Application of Nonthermal Plasma in the
Treatment of VOCs from Wastewater. Removal of Color Wastewater Using Low
Cost Adsorbent: A Comparative Study. Bioparticle Development in Constructed
Wetland for Domestic Wastewater.
Products from Wastewater. Enzymatic Hydrolysis of Used Cooking Palm Oil by
PVA- Alginate-Sulfate Immobilized Lipase. Bioremediation of POME for
Itaconic Acid Production by Aspergillus terreus NRRL 1960 Immobilized in
PVA- Alginate-Sulfate Beads. Optimization of Lipid Content in Microalgae
Biomass Using Diluted Palm Oil Mill Effluent (POME) by Varying Nutrient
Ration. Section 2: MBR Technologies. Removal of Micropollutants from
Wastewater through MBR Technologies: A Case Study on Spent Caustic
Wastewater. The Outlook on Future MBR Technologies. Integration of Membrane
Bioreactor with Various Wastewater Treatment Systems. Section 3: Advanced
Chemical-Physical Processes for Industrial Wastewater Treatment. Wet Air
Oxidation Processes: A Pretreatment to Enhance the Biodegrability of
Pharmaceutical Wastewaters. Application of Nonthermal Plasma in the
Treatment of VOCs from Wastewater. Removal of Color Wastewater Using Low
Cost Adsorbent: A Comparative Study. Bioparticle Development in Constructed
Wetland for Domestic Wastewater.