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Phytoremediation Potential of Bioenergy Plants (2017)

Bauddh, Kuldeep ; Singh, Bhaskar ; Korstad, John

Singapore : Springer

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Keywords: Ecology ; Plant science ; Botany ; Environmental management ; Waste management ; Environmental engineering ; Biotechnology ; Sustainable development ; Environment

Description / Table of Contents: The globally escalating population necessitates production of more goods and services to fulfil the expanding demands of human beings which resulted in urbanization and industrialization. Uncontrolled industrialization caused two major problems - energy crisis and accelerated environmental pollution throughout the world. Presently, there are technologies which have been proposed or shown to tackle both the problems. Researchers continue to seek more cost effective and environmentally beneficial pathways for problem solving. Plant kingdom comprises of species which have the potential to resolve the couple problem of pollution and energy. Plants are considered as a potential feedstock for development of renewable energy through biofuels. Another important aspect of plants is their capacity to sequester carbon dioxide and absorb, degrade, and stabilize environmental pollutants such as heavy metals, poly-aromatic hydrocarbons, poly-aromatic biphenyls, radioactive materials, and other chemicals. Thus, plants may be used to provide renewable energy generation and pollution mitigation. An approach that could amalgamate the two aspects can be achieved through phytoremediation (using plants to clean up polluted soil and water), and subsequent generation of energy from the phyto-remediator plants. This would be a major advance in achieving sustainability that focuses on optimizing ‘people’ (social issues), ‘planet’ (environmental issues), and ‘profit’ (financial issues). The “Phytoremediation-Cellulosic Biofuels” (PCB) process will be socially beneficial through reducing pollution impacts on people, ecologically beneficial through pollution abatement, and economically viable through providing revenue that supplies an energy source that is renewable and also provides less dependence on importing foreign energy (energy-independence). The utilization of green plants for pollution remediation and energy production will also tackle some other important global concerns like global climate change, ocean acidification, and land degradation through carbon sequestration, reduced emissions of other greenhouse gases, restoration of degraded lands and waters, and more. This book addresses the overall potential of major plants that have the potential to fulfil the dual purposes of phytoremediation and energy generation. The non-edible bioenergy plants that are explored for this dual objective includeJatropha curcas, Ricinus communis, Leucaena leucocephalla, Millet ...

Type of Medium: Online Resource

Pages: Online-Ressource (XX, 472 p. 81 illus., 62 illus. in color, online resource)

ISBN: 9789811030840

Series Statement: SpringerLink

URL: https://doi.org/10.1007/978-981-10-3084-0

URL: https://swbplus.bsz-bw.de/bsz486672794cov.jpg

DOI: 10.1007/978-981-10-3084-0

Language: English

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Biodiesel: Feedstocks, Technologies, Economics and Barriers : Assessment of Environmental Impact in Producing and Using Chains (2019)

Avagyan, Armen B. [VerfasserIn]

Singapore : Springer

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Keywords: Science (General) ; Environmental chemistry ; Environmental management ; Biotechnology ; Sustainable development ; Applied Ecology ; Environmental engineering. ; Popular works.

Description / Table of Contents: Air pollution policy is closely connected with climate change, public health, energy, transport, trade, and agriculture, and generally speaking, the Earth has been pushed to the brink and the damage is becoming increasingly obvious. The transport sector remains a foremost source of air pollutants – a fact that has stimulated the production of biofuels. This book focuses on the biodiesel industry, and proposes a modification of the entire manufacturing chain that would pave the way for further improvements. Oil derived from oilseed plantations/crops is the most commonly used feedstock for the production of biodiesel. At the same time, the UK’s Royal Academy of Engineering and 178 scientists in the Netherlands have determined that some biofuels, such as diesel produced from food crops, have led to more emissions than those produced by fossil fuels. Accordingly, this book re-evaluates the full cycle of biodiesel production in order to help find optimal solutions. It confirms that the production and use of fertilizers for the cultivation of crop feedstocks generate considerably more GHG emissions compared to the mitigation achieved by using biodiesel. To address this fertilization challenge, projecting future biofuel development requires a scenario in which producers shift to an organic agriculture approach that includes the use of microalgae. Among advanced biofuels, algae’s advantages as a feedstock include the highest conversion of solar energy, and the ability to absorb CO2 and pollutants; as such, it is the better choice for future fuels. With regard to the question of why algae’s benefits have not been capitalized on for biofuel production, our analyses indicate that the sole main barrier to realizing algae’s biofuel potential is ineffective international and governmental policies, which create difficulties in reconciling the goals of economic development and environmental protection

Type of Medium: Online Resource

Pages: 1 Online-Ressource (XII, 128 p. 15 illus., 12 illus. in color)

ISBN: 9789811357466

Series Statement: Springer eBooks

URL: https://doi.org/10.1007/978-981-13-5746-6

DOI: 10.1007/978-981-13-5746-6