Sustainable Downstream Processing of Microalgae for Industrial Application
Herausgeber: Gayen, Kalyan; Bhowmick, Tridib Kumar; Maity, Sunil Kumar
Sustainable Downstream Processing of Microalgae for Industrial Application
Herausgeber: Gayen, Kalyan; Bhowmick, Tridib Kumar; Maity, Sunil Kumar
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This book provides information related to the downstream processing of microalgae for sustainable production of commodity and specialty products such as pigments, protein rich food supplements, biopolymers, and biofuel. A roadmap is provided for sustainable industrialization of value-added microalgae-based chemicals.
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This book provides information related to the downstream processing of microalgae for sustainable production of commodity and specialty products such as pigments, protein rich food supplements, biopolymers, and biofuel. A roadmap is provided for sustainable industrialization of value-added microalgae-based chemicals.
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 376
- Erscheinungstermin: 2. Oktober 2023
- Englisch
- Abmessung: 234mm x 156mm
- Gewicht: 1120g
- ISBN-13: 9781032653693
- ISBN-10: 1032653698
- Artikelnr.: 70113784
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 376
- Erscheinungstermin: 2. Oktober 2023
- Englisch
- Abmessung: 234mm x 156mm
- Gewicht: 1120g
- ISBN-13: 9781032653693
- ISBN-10: 1032653698
- Artikelnr.: 70113784
Dr. Kalyan Gayen is an Assistant Professor in the Department of Chemical Engineering, National Institute of Technology Agartala, West Tripura, Tripura, Indiia. His specialties include Microalgae and Cyanobacteria based Biofuels and Bioproducts, Conversion of Lignocellulosic Biomass into Liquid Biofuels and Value added Chemicals, Metabolic Network Analysis, Systems Biology, Fermentation Technology. Dr. Tridib Kumar Bhowmick is the assistant professor at Department of Bioengineering at National Institute of Technology Agartala, Tripura, India. He had received his Ph. D degree from Department of Chemical Engineering, Indian Institute of Technology Bombay, India, in 2009. During his PhD, he had worked on Indian traditional medicine. He was a postdoctoral research assistant in Institute for Bioscience and Biotechnology Research, University of Maryland, College Park, MD from 2008 to 2013. His research was focused on nanomaterials and targeted delivery of therapeutic molecules. He had made a number of publication on nanomedicine. Currently, he is involved to explore north east region of India representing biodiversity hotspot with endemic flora and fauna, to identify promising microalgal strains as resource for alternative renewable energy production. His broad goal of interest is to understand the characteristics of biomaterials at nano-scale level and looking forward their novel application possibilities. His goal in teaching students is to provide the basic foundations that will allow each student to develop his or her understanding of and capabilities in the area of biotechnology and bioengineering. Dr. Sunil K. Maity is an academician in the field of Chemical Engineering. He is currently working as an Associate Professor at Indian Institute of Technology Hyderabad, India. Prior to this, he served about two and half years as an Assistant Professor at National Institute of Technology Rourkela, India. He did his PhD from Indian Institute of Technology Kharagpur. His current research interests are i) biorefinery for biofuels and chemical, ii) heterogeneous catalysis and chemical reaction engineering, and iii) process design and techno-economic analysis. He is currently working on hydrodeoxygenation of vegetable oils, steam and oxidative steam reforming, production of gasoline, butylene and aromatics from bio-butanol, hydroxyalkylation-alkylation reaction, and production of butyl levulinate from furfuryl alcohol. He has executed number of externally funded projects. As a research outcome, he has published more than twenty-five research articles, two book chapters, and several national and international conferences.
Part 1: Biomolecules from Microalgae for Commercial Production. 1.
Biomolecules from Microalgae for Commercial Applications. 2. Promising
Future Products from Microalgae for Commercial Applications. 3. Cultivation
of
Microalgae for Production of Biomolecules and Bioproducts at Industrial
Scale. 4. Industrial Scope
with High-Value Biomolecules from Microalgae. Part 2: Sustainable Approach
for Industrial-Scale
Operations. 5. Sustainable Pre-treatment Methods for Downstream Processing
of Harvested
Microalgae. 6. Sustainable Approach for Bioenergy and Biofuel Production
from Microalgae. 7.
Sustainable Production of Bioproducts from Wastewater-Grown Microalgae. 8.
Integrated Approach
for the Sustainable Extraction of Carbohydrates and Proteins from
Microalgae. Part 3: Optimized
Downstream Processing of Microalgae. 9. Current Issues with a Sustainable
Approach in the Industrial-Scale Operations of Microalgae. 10. Trends and
Bottlenecks of Sustainable Mitigation of Environmental Issues Using
Microalgae. 11. Optimization of the Integrated Downstream Processing of
Microalgae for Biomolecule Production.
Biomolecules from Microalgae for Commercial Applications. 2. Promising
Future Products from Microalgae for Commercial Applications. 3. Cultivation
of
Microalgae for Production of Biomolecules and Bioproducts at Industrial
Scale. 4. Industrial Scope
with High-Value Biomolecules from Microalgae. Part 2: Sustainable Approach
for Industrial-Scale
Operations. 5. Sustainable Pre-treatment Methods for Downstream Processing
of Harvested
Microalgae. 6. Sustainable Approach for Bioenergy and Biofuel Production
from Microalgae. 7.
Sustainable Production of Bioproducts from Wastewater-Grown Microalgae. 8.
Integrated Approach
for the Sustainable Extraction of Carbohydrates and Proteins from
Microalgae. Part 3: Optimized
Downstream Processing of Microalgae. 9. Current Issues with a Sustainable
Approach in the Industrial-Scale Operations of Microalgae. 10. Trends and
Bottlenecks of Sustainable Mitigation of Environmental Issues Using
Microalgae. 11. Optimization of the Integrated Downstream Processing of
Microalgae for Biomolecule Production.
Part 1: Biomolecules from Microalgae for Commercial Production. 1.
Biomolecules from Microalgae for Commercial Applications. 2. Promising
Future Products from Microalgae for Commercial Applications. 3. Cultivation
of
Microalgae for Production of Biomolecules and Bioproducts at Industrial
Scale. 4. Industrial Scope
with High-Value Biomolecules from Microalgae. Part 2: Sustainable Approach
for Industrial-Scale
Operations. 5. Sustainable Pre-treatment Methods for Downstream Processing
of Harvested
Microalgae. 6. Sustainable Approach for Bioenergy and Biofuel Production
from Microalgae. 7.
Sustainable Production of Bioproducts from Wastewater-Grown Microalgae. 8.
Integrated Approach
for the Sustainable Extraction of Carbohydrates and Proteins from
Microalgae. Part 3: Optimized
Downstream Processing of Microalgae. 9. Current Issues with a Sustainable
Approach in the Industrial-Scale Operations of Microalgae. 10. Trends and
Bottlenecks of Sustainable Mitigation of Environmental Issues Using
Microalgae. 11. Optimization of the Integrated Downstream Processing of
Microalgae for Biomolecule Production.
Biomolecules from Microalgae for Commercial Applications. 2. Promising
Future Products from Microalgae for Commercial Applications. 3. Cultivation
of
Microalgae for Production of Biomolecules and Bioproducts at Industrial
Scale. 4. Industrial Scope
with High-Value Biomolecules from Microalgae. Part 2: Sustainable Approach
for Industrial-Scale
Operations. 5. Sustainable Pre-treatment Methods for Downstream Processing
of Harvested
Microalgae. 6. Sustainable Approach for Bioenergy and Biofuel Production
from Microalgae. 7.
Sustainable Production of Bioproducts from Wastewater-Grown Microalgae. 8.
Integrated Approach
for the Sustainable Extraction of Carbohydrates and Proteins from
Microalgae. Part 3: Optimized
Downstream Processing of Microalgae. 9. Current Issues with a Sustainable
Approach in the Industrial-Scale Operations of Microalgae. 10. Trends and
Bottlenecks of Sustainable Mitigation of Environmental Issues Using
Microalgae. 11. Optimization of the Integrated Downstream Processing of
Microalgae for Biomolecule Production.