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Plant and Algae Biomass : Feasible Sources for Biofuel Production (2022)

Bhat, Rouf Ahmad. ; Singh, Dig Vijay. ; Tonelli, Fernanda Maria Policarpo. ; [et al.]

Cham :Springer International Publishing :

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Keywords: Botany. ; Environment. ; Biotechnology. ; Renewable energy sources. ; Cogeneration of electric power and heat. ; Fossil fuels. ; Plant Science. ; Environmental Sciences. ; Biotechnology. ; Renewable Energy. ; Fossil Fuel.

Description / Table of Contents: Introduction: values of pollution free atmosphere -- Plant and Algae Classes Recognition, Biomass Production and Potential Source of Biofuel -- Plant and Algae Metabolites Alternative and Clean Source of Energy -- Mechanism and methods of extraction of biofuels -- Metabolic routes to biofuels extraction -- Optimizations on steps involved on biofuel obtainment and their validation -- Economic consideration on biofuel and energy security -- Technical challenges of biofuel obtainment -- Conclusion and Future Perspectives.

Abstract: This volume discusses how plant and algae organisms play a pivotal role in the transformation of solar energy to essential metabolites, and explores the numerous beneficial roles these metabolites have at an industrial level. It presents information on the utilization of plant and algae for biomass production, and shows how this is a practical option for large scale biofuel production. The book examines how these bio-metabolites can then be used to extract biofuel. Biomass produced from plants and algae can act as the source of feedstock for biofuel production and industrially important compounds. This book also explores that by curtailing culturing cost using wastewater, seawater, and industrial water as a nutrient and water source, biomass becomes an economical energy source. The introductory chapters of the book focus on the appreciative values of a pollution-free atmosphere, with special reference to enhanced greenhouse effect, and then are followed by chapters on the potential of plant and algae as a liquid energy resource. This book targets researchers, graduate students, and energy and fuel industry professionals interested in the plant sciences, biotechnology and renewable energy. .

Type of Medium: Online Resource

Pages: XV, 164 p. 21 illus., 20 illus. in color. , online resource.

Edition: 1st ed. 2022.

ISBN: 9783030940744

URL: https://doi.org/10.1007/978-3-030-94074-4

DOI: 10.1007/978-3-030-94074-4

DDC: 580

Language: English

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Green Nanoremediation : Sustainable Management of Environmental Pollution (2023)

Policarpo Tonelli, Fernanda Maria. [editor.] ; Roy, Arpita. [editor.] ; Ananda Murthy, H C. [editor.]

Cham :Springer International Publishing :

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Keywords: Pollution. ; Green chemistry. ; Environmental chemistry. ; Pollution. ; Green Chemistry. ; Environmental Chemistry.

Description / Table of Contents: Chapter. 1. Important Features of Nanomaterials for Environmental Remediation -- Part. I: Green nanoremediation: generating eco-friendly nanoremediators -- Chapter. 2. Green-synthesis of nanomaterials for environmental remediation -- Chapter. 3. Nanoremediation: main strategies, advantages and disadvantages - Strategic methods of nanoremediation through nanomaterials synthesized from microbes -- Chapter. 4. Fungi-based synthesis to generate nanomaterials to nanoremediation -- Chapter. 5. Algae-based synthesis to generate nanomaterials to nanoremediation -- Chapter. 6. Plant-based synthesis to generate nanomaterials to nanoremediation -- Chapter. 7. Innovations on the synthesis of metal nanoparticles to nanoremediation -- Part II: Important green nanomaterials in the management of environmental pollution -- Chapter. 8. Main green nanomaterials to water remediation -- Chapter. 9. Green non-carbon-based nanomaterials to environs remediation -- Chapter. 10. Green Iron nanoparticles for nanoremediation -- Chapter. 11. Green Silver nanoparticles for nanoremediation -- Part III: Conjugating nanoremediation to other remediation strategies -- Chapter. 12. Green-based nanomaterial and plants in nanophytoremediation strategies -- Chapter. 13. Main interactions of green nanomaterials and microorganisms on nanoremediation protocols -- Part. IV: Safety aspects and analysis of nanoremediation -- Chapter. 14. Supporting nanotechnology safety through nanoinformatics -- Chapter. 15. Conventional strategies of environmental pollution remediation versus Green Nanoremediation -- Chapter. 16. Using nanoremediation strategies: cost/benefit analysis -- Chapter. 17. Strategies to evaluate nanoremediation efficiency.

Abstract: This book focuses on green nanoremediation addressing aspects related to the use of nanomaterials generated through green synthesis protocols to efficiently restore polluted environs. Nanomaterials’ characteristics such as large surface area, capacity to easily reach into contaminated sites, good reactivity, and possibility of being developed to present photocatalytic activity and/or to deal with targeted substances by chemical surface modification are useful specially to perform remediation. As an alternative to conventional physicochemical methods, the green-based synthesis protocols reject the use of harmful reagents, prevent waste production, apply renewable energy source and/or materials, and consider in first place offering the smallest negative impact possible to living beings and to the ecosystem. Green synthesis in nanotechnology field involves the use of seaweeds, bacteria, cyanobacteria, yeasts, fungi, plants (living ones, biomass, extracts) and/or bio-derived products to generate the nanomaterials. The introductory chapter will be dedicated to nanomaterials’ characteristics that enable them to be used in environmental remediation. The first part of the book will be dedicated to organic and inorganic pollution and the threats they pose to living forms; advantages, disadvantages and mechanisms of nanoremediation; comparison between conventional strategies of environmental pollution remediation and the green nanoremediation; carbon-based and non-carbon-based green nanomaterials capable of promoting environs’ remediation; cost/benefits of using nanomaterials and nanoinformatics to a safe nanotechnology. The second part will be dedicated to green nanoremediation of water and soil, microbe-based, algae-based and plant-based synthesis of nanomaterials to nanoremediation. This part will also contain chapters dedicated to relevant nanomaterials for green nanoremediation protocols, nano-phytoremediation strategies, strategies to evaluate the efficiency of protocols related to this kind of remediation, main interactions of green nanomaterials and microbes during nanoremediation and, as a consequence of it, biocompatibility of green nanomaterials. This book’s main purpose is to offer readers extensive knowledge on green nanoremediation as a feasible strategy to fight pollution's harmful consequences and clean environmental pollution, but also present the challenges that should be surpassed.

Type of Medium: Online Resource

Pages: XI, 388 p. 96 illus., 77 illus. in color. , online resource.

Edition: 1st ed. 2023.

ISBN: 9783031305580

URL: https://doi.org/10.1007/978-3-031-30558-0

DOI: 10.1007/978-3-031-30558-0

DDC: 363.73