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Substrate Analysis for Effective Biofuels Production (2020)

Srivastava, Neha. [editor.] ; Srivastava, Manish. [editor.] ; Mishra, P. K. [editor.] ; [et al.]

Singapore :Springer Nature Singapore :

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Keywords: Environmental engineering. ; Biotechnology. ; Bioremediation. ; Environmental chemistry. ; Environmental management. ; Microbiology. ; Botanical chemistry. ; Environmental Engineering/Biotechnology. ; Environmental Chemistry. ; Environmental Management. ; Microbiology. ; Plant Biochemistry.

Description / Table of Contents: Chapter-1: Algal Biomass: Potential renewable feedstock for biofuels production -- Chapter-2: Algal Butanol Production -- Chapter-3: Suitability of the lantana weed as a substrate for biogas production -- Chapter-4: Recent progress in emerging microalgae technology for biofuel production -- Chapter-5: Recent update on biodiesel production using various substrates and practical execution -- Chapter-6: Cellulose Nanofibers from Agro-wastes of North East India for Nanocomposite and Bioenergy Applications -- Chapter-7: Impact of pretreatment technologies for biomass to biofuels production -- Chapter-8: Impact of pretreatment technology on cellulosic availability for fuel production -- Chapter-9: Application of metabolic engineering for biofuel production in microorganisms -- Chapter-10: Nanomaterials and its application to improve biomass to bio-fuels production.

Abstract: As a substrate, cellulose plays a crucial role in the biomass-based biofuel production process, and is essential to enzyme and sugar production. Accordingly, ensuring maximum availability of cellulose for enzyme production and bioconversion for sugar generation is one of the major challenges for sustainable biofuels production. To date there has been extensive research on biofuel production using lignocellulosic biomass, but there is a huge gap when it comes to the critical analysis of cellulose content, structural feasibility, availability, and economic processing, so that it can be converted for enzyme and fuel production at low cost. Consequently, this book discusses the availability of lignocellulosic substrate for biofuel production in light of the challenges that the biofuels industry is currently facing. After identifying the major substrate selection challenges for the practical biofuel production process, the book addresses said challenges by focusing on various issues such as: potential substrates that have high cellulosic content, structural feasibility, and low-cost & effective processing to remedy the structural complexity of biomass structure and create added value. In addition, it covers recent advancements in cellulase production and outlines future prospects. Given its scope, it offers a valuable guide for research students and industry practitioners alike.

Type of Medium: Online Resource

Pages: XII, 272 p. 70 illus., 49 illus. in color. , online resource.

Edition: 1st ed. 2020.

ISBN: 9789813296077

Series Statement: Clean Energy Production Technologies,

URL: https://doi.org/10.1007/978-981-32-9607-7

DOI: 10.1007/978-981-32-9607-7

DDC: 628

Language: English

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Biofuel Production Technologies: Critical Analysis for Sustainability (2020)

Srivastava, Neha. [editor.] ; Srivastava, Manish. [editor.] ; Mishra, P. K. [editor.] ; [et al.]

Singapore :Springer Nature Singapore :

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Keywords: Environmental engineering. ; Biotechnology. ; Bioremediation. ; Environmental management. ; Microbiology. ; Botanical chemistry. ; Environmental Engineering/Biotechnology. ; Environmental Management. ; Microbiology. ; Plant Biochemistry.

Description / Table of Contents: Chapter-1 Biofuels: types and process overview -- Chapter-2 Biofuels generation based on technical process and biomass quality -- Chapter-3 Biogas: An Effective and Common Energy Tool-PART-I -- Chapter-4 Biogas: An Effective and Common Energy Tool-PART-II -- Chapter-5 Biogas: An Effective and Common Energy Tool-PART-III -- Chapter-6 Stoichiometric analysis of biogas production from industrial residues -- Chapter-7 Bioethanol Production; Generation Based Comparative Status Measurements -- Chapter-8 Algal Biomass: Potential Renewable Feedstock for Biofuels Production-PART-I -- Chapter-9 Recent trends in biogas upgrading technologies for biomethane production -- Chapter-10 Efficiency Analysis of Crude Vs Pure Cellulase in Industry -- Chapter-11 Significance of process parameters on fungal cellulase production -- Chapter-12 Modeling and stimulation of pyrolysis of teak (Tectona grandis) Sawdust. .

Abstract: Production and utilization of sustainable energy toward maintaining a clean environment is a major challenge. At the same time, the continued depletion of fossil fuels and the global dependency on non-renewable fuels is a chief concern. Moreover, the long-term economic and environmental issues associated with the high utilization of fossil fuel, such as global warming, are also important, particularly in the context of the predicted increase in the global population to around 5 billion by 2050. In recent years, researchers have been investigating alternative, renewable fuels to replace fossil fuels. Of the various options, biofuels are especially attractive due to their low production costs and the fact that they are pollution free. Also known as transportation fuels, their energy is derived from biological resources or through the biological processes. Biofuels such as biohydrogen, biomethane, biogas, ethanol and butanol offer a number of advantages and can be economically produced from cellulosic biomass. As such, they can play a vital role in sustainably meeting future energy demands. Biofuels have the potential to become a global primary energy source, offering significant reductions in greenhouse gas emissions as well as opportunities to increase economic and social development in rural communities and reduce the problems associated with waste disposal. However, low yields and lack of process technology are some of the aspects that need to be addressed. This book offers an overview of existing biofuels and the technologies to solve the problems associated with their practical implementation. Evaluating the biofuel options and discussing the opportunities and risks in relation to resources, technologies, practices, markets and policy, it provides insights into the development of economically viable bioenergy industries.

Type of Medium: Online Resource

Pages: XIII, 342 p. 76 illus., 48 illus. in color. , online resource.

Edition: 1st ed. 2020.

ISBN: 9789811386374

Series Statement: Clean Energy Production Technologies,

URL: https://doi.org/10.1007/978-981-13-8637-4

DOI: 10.1007/978-981-13-8637-4

DDC: 628

Language: English

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Microbial Strategies for Techno-economic Biofuel Production (2020)

Srivastava, Neha. [editor.] ; Srivastava, Manish. [editor.] ; Mishra, P. K. [editor.] ; [et al.]

Singapore :Springer Nature Singapore :

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Keywords: Botanical chemistry. ; Microbiology. ; Environmental chemistry. ; Environmental engineering. ; Biotechnology. ; Bioremediation. ; Environmental management. ; Plant Biochemistry. ; Microbiology. ; Environmental Chemistry. ; Environmental Engineering/Biotechnology. ; Environmental Management.

Description / Table of Contents: Chapter 1. An introduction to algal biofuels -- Chapter 2. Paper mill sludge as a potential feedstock for microbial ethanol production -- Chapter 3. Application of hydrolytic enzymes in biorefinery and its future prospects -- Chapter 4. Cultivation of microalgae –effects of nutrients focus on biofuels -- Chapter 5. Microalgae as an efficient feedstock biomass for Biofuel Production -- Chapter 6. Microalgae potential feedstock for production of Biohydrogen and Bioactive compounds -- Chapter 7. Algal Biofuels: An economic and effective alternative of fossil fuels -- Chapter 8. Nanocatalysts to improve the Production of microbial fuel Applications -- Chapter 9. Microbial system: An emerging application in the bioenergy production -- Chapter 10. An introduction of metagenomics and its application in microbial fuel production.

Abstract: Biofuels are one of the most sustainable options when it comes to renewable energy sources to replace fossil fuels. Biotechnological processes, such as microbial fermentation, are used to produce energy from waste biomass by converting organic substrates into biofuels. This book discusses practices to improve and enrich various microbial communities in order to enhance sustainable and economical biofuel production. It also evaluates various strategies to develop potential microorganisms and microbial consortia to produce highly efficient biofuels at a relatively low cost.

Type of Medium: Online Resource

Pages: XII, 291 p. 45 illus., 39 illus. in color. , online resource.

Edition: 1st ed. 2020.

ISBN: 9789811571909

Series Statement: Clean Energy Production Technologies,

URL: https://doi.org/10.1007/978-981-15-7190-9

DOI: 10.1007/978-981-15-7190-9

DDC: 572.2

Language: English

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Trajectory of 75 years of Indian Agriculture after Independence (2023)

Ghosh, P. K. [editor.] ; Das, Anup. [editor.] ; Saxena, Raka. [editor.] ; [et al.]

Singapore :Springer Nature Singapore :

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Keywords: Agriculture. ; Agronomy. ; Subsistence farming. ; Agricultural biotechnology. ; Agriculture. ; Agronomy. ; Subsistence Agriculture. ; Agricultural Biotechnology.

Description / Table of Contents: Chapter 1. Indian agriculture @75: Unraveling the trend and Trajectory -- Chapter 2. Contribution towards food supply and security -- Chapter 3. Changing Structure of Rural Employment and its Implications for Agriculture in India -- Chapter 4. Contributions of Technologies to Agricultural Development in India -- Chapter 5. Evolution of The Indian Seed Sector and its Role in Agricultural Growth -- Chapter 6. Rice research in India: A historical perspective -- Chapter 7. Wheat -- Chapter 8. Maize and Millets -- Chapter 9. Pulses -- Chapter 10. Role of Oilseeds and Oil Palm in Food, Nutritional and Income Security -- Chapter 11. Indian Horticulture @75 years of Independence -- Chapter 12. Growth and Developments in Livestock Sector -- Chapter 13. Fishery -- Chapter 14. Status of commercial crops (Jute, Cotton and Sugarcane) -- Chapter 15. Natural Resource Management to attain Food and Environment Security -- Chapter 16. Water -- Chapter 17. Land – a vital component of natural resource: Pre- and post-Independence status, challenges and options to achieve food and environmental security in India -- Chapter 18. Farm Mechanization -- Chapter 19. Forests to attain Food and environment security -- Chapter 20. Agrometeorological Research in India Towards Food and Environment Security -- Chapter 21. Sustainable Production Systems in Indian Agriculture -- Chapter 22. Dryland Agriculture -- Chapter 23. Biotic stress management in India– an endless fight since pre-independence -- Chapter 24. Invasive and Transboundary Pests -- Chapter 25. Bio pesticides -- Chapter 26. Trajectory of Market Reforms in India Facts and Foundation -- Chapter 27. Prospects of Agribusiness and Entrepreneurship -- Chapter 28. The Food Processing Industry in Post-Independence Era: Performance and Way Forward -- Chapter 29. Transformation of Agricultural Extension System in India -- Chapter 30. Recent policy reforms in India.

Abstract: This edited book focus on highlighting the evolution of Indian agriculture over the past 75 years of independence, covering every sector, viz. crop science, horticulture, management of biotic & abiotic stress, post-harvest quality management, livestock, fisheries, mechanization, marketing and human resource development. The book has 30 chapters from most experienced researchers and academicians who are actively engaged in research work on the subject area of the book. The book is in line with the strategy for new India @ 75’ brought out by NITI Ayog. It highlights India’s success stories in innovation, technology, enterprise and efficient management together to achieve overall growth while making available food, required nutrition and others ecological services. It also asses the India’s preparedness in terms of commitment toward sustainable development goal SDG). The book is a relevant reading material for both students and researchers and policy makers.

Type of Medium: Online Resource

Pages: XV, 790 p. 1 illus. , online resource.

Edition: 1st ed. 2023.

ISBN: 9789811979972

URL: https://doi.org/10.1007/978-981-19-7997-2

DOI: 10.1007/978-981-19-7997-2

DDC: 630

Language: English

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Nanomaterials in Biofuels Research (2020)

Srivastava, Manish. [editor.] ; Srivastava, Neha. [editor.] ; Mishra, P. K. [editor.] ; [et al.]

Singapore :Springer Nature Singapore :

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Keywords: Botanical chemistry. ; Environmental engineering. ; Biotechnology. ; Bioremediation. ; Environmental management. ; Microbiology. ; Nanochemistry. ; Plant Biochemistry. ; Environmental Engineering/Biotechnology. ; Environmental Management. ; Microbiology. ; Nanochemistry.

Description / Table of Contents: Chapter 1. Biofuel; types and process overview -- Chapter 2. Applications of plant based natural products to synthesize nanomaterial-Part-i -- Chapter 3. Application of plant based natural product to synthesize nanomaterial-Part-2 -- Chapter 4. Green synthesis approach to fabricate nanomaterials -- Chapter 5. Nanomaterials; types, synthesis and characterization -- Chapter 6. Nanotechnology: an application in biofuel production nanomaterial synthesis and mechanism for enzyme immobilization-part-i -- Chapter 7. Nanomaterial synthesis and mechanism for enzyme immobilization-part-ii -- Chapter 8. Nanomaterial synthesis and mechanism for enzyme immobilization-part-ii -- Chapter 9. Nanomaterials immobilized biocatalysts for biofuel production from lignocellulose biomass -- Chapter 10. Carbon nanotubes synthesized by green/ecofriendly technique potential for bioenergy applications -- Chapter 11. Synthesis of iron oxide nanomaterials for biofuels applications. .

Abstract: As renewable energy sources, biofuels have tremendous potential to replace fossil fuels in future energy scenarios, offering green alternative energy sources. However, though such fuels could mean a significant reduction in environmental pollution, they are still far from practical implementation due to their high production costs and technical issues. Consequently, efforts are being made around the globe to achieve the cost-effective production of biofuels. In this context, the use of nanomaterials to improve biofuels production efficiency is a vital, emerging area. Nanomaterials are attracting attention due to their versatile physicochemical properties and may improve the production process for various biofuels by acting as catalysts. However, this area is still in its infancy. To improve the practical viability of the biofuels production process, it is essential to focus on the specific type of nanomaterial used, its synthesis, and its specific effects on the process parameters. This book explores the potential advantages and feasibility of various aspects of nanomaterials with regard to improving the current biofuels production process, making it a valuable resource for a broad readership.

Type of Medium: Online Resource

Pages: XIII, 307 p. 73 illus., 19 illus. in color. , online resource.

Edition: 1st ed. 2020.

ISBN: 9789811393334

Series Statement: Clean Energy Production Technologies,

URL: https://doi.org/10.1007/978-981-13-9333-4

DOI: 10.1007/978-981-13-9333-4

DDC: 572.2

Language: English

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