Goal 7: Affordable and clean energy

Bioenergy, Second Edition: Chapter 41 - Integrated agroecological technology networks for food, bioenergy, and biomaterial production "

Samuel M. Gorton, Chapter 41 - Integrated agroecological technology networks for food, bioenergy, and biomaterial production, Editor(s): Anju Dahiya, Bioenergy (Second Edition), Academic Press, 2020, Pages 767-788, ISBN 9780128154977, https://doi.org/10.1016/B978-0-12-815497-7.00041-5.

This book chapter advances SDGs 6, 7 and 11 by discussing how we can create integrated ecological technologies that transform natural resources into anthropocentric goods and services, while restoring the land and reducing pollution by returning beneficial materials or energy to the ecosystem.

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Book chapters

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Sustainable consumption and production; Technology; Green economy, Global

Distributed Energy Resources in Local Integrated Energy Systems - Chapter 1: Overview of distributed energy resources in the context of local integrated energy systems

Elsevier,

Distributed Energy Resources in Local Integrated Energy Systems, Optimal Operation and Planning, 2021, Pages 1-29

This book chapter advances SDG 7 by surveying literature concerning the use of distributed energy resources in the context of local energy systems, including the deployment of local solutions to generate, store, and manage energy at small scale and micro-scale; grid-related aspects and solutions for optimal grid operation; and finally emergent aspects referring to local energy systems, markets and energy communities, which are gaining relevance in the present and future context of energy transition.

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Book chapters

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Science; Energy, Global

Biomass, Biofuels, Biochemicals: Circular Bioeconomy: Chapter 27 - Circular Economy and Carbon Capture, Utilization, and Storage

Elsevier,

Biomass, Biofuels, Biochemicals - Circular Bioeconomy, Feb 2021, Pages

Circular bioeconomy has a big role to play in goals towards cleaner energy and more sustainable industrial practices. In addition, the carbon capture opportunities it offers holds promise for supporting climate goals. This book chapter advances SDGs 7, 9 and 13.

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Book chapters

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Chemicals and waste; Green economy; Circular Economy, Global

Biomass, Biofuels, Biochemicals: Circular Bioeconomy - Current Status and Future Outlook - 15: Microbial Electrochemical Technologies for CO2 Sequestration

Elsevier,

Biomass, Biofuels, Biochemicals, Circular Bioeconomy - Current Status and Future Outlook, 2021, Pages 413-443

This book chapter advances SDG 7 by showing the scope of the application of MET as a sustainable technology to sequester atmospheric CO2 and simultaneously produce value-added by-products at an efficient engineering level and discusses the bottlenecks associated with these technologies.

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Book chapters

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Energy, Global

Biomass, Biofuels, Biochemicals: Circular Bioeconomy - Current Status and Future Outlook - Chapter 27: Circular Economy and Carbon Capture, Utilization, and Storage

Elsevier,

Biomass, Biofuels, Biochemicals, Circular Bioeconomy - Current Status and Future Outlook, 2021, Pages 813-851

This book chapter advances SDG 7 by focuing on carbon capture, utilization, and storage techniques, with a special scope on mineral carbonation, as a promising solution toward a carbon circular economy. The challenges and perspectives of these different technologies will also be exposed.

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Book chapters

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Energy, Global

Sustainable Materials for Oil and Gas Applications - Chapter 4: Nanoparticles for enhanced oil recovery

Elsevier,

Sustainable Materials for Oil and Gas Applications, Volume 1 in Advanced Materials and Sensors for the Oil and Gas Industry, 2021, Pages 125-174

This book chapter addresses SDG 7 and 9 by explaining how nanotechnology can play a role in allievating environmental impact within enhancing oil recovery.

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Book chapters

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Technology; Energy, Global

Sustainable Materials for Transitional and Alternative Energy - Chapter 1: Smart and state-of-the-art materials in oil and gas industry

Elsevier,

Sustainable Materials for Transitional and Alternative Energy, Volume 2 in Advanced Materials and Sensors for the Oil and Gas Industry, 2021, Pages 1-51

This book chapter addresses SDG 7 and 9 by explaining state of the art technology that is improving environmental impact in oil and gas operations including nanotechnology and supramolecular assembly solutions.

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Book chapters

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Technology; Energy, Global

Hybrid Nuclear Energy Systems - Chapter 4: Uses

Elsevier,

Hybrid Nuclear Energy Systems, A Sustainable Solution for the 21st Century, Hybrid Energy Systems, 2021, Pages 23-41

This book chapter advances SDG 7 and 11 by discussing the uses of hybrid energy systems, contrasting and ranking the application capabilities of major reactor and power plant types.

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Book chapters

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Sustainable consumption and production; Energy; Industry, Global

Agricultural Waste Diversity and Sustainability Issues - Chapter 6: New approach and prospects of agrowaste resources conversion for energy systems performance and development

Elsevier,

Agricultural Waste Diversity and Sustainability Issues, Sub-Saharan Africa as a Case Study, 2021, Pages 97-118

This book chapter addresses SDG 7 and 12 by explaining how biofuel made from producing crops can lend to sustainable agricultural solutions for developing countries with sub-Saharan Africa used as a case study.

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Book chapters

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Energy, Africa

Low Carbon Energy Technologies in Sustainable Energy Systems - Chapter 1: The role of resource recovery technologies in reducing the demand of fossil fuels and conventional fossil-based mineral fertilizers

Elsevier,

Low Carbon Energy Technologies in Sustainable Energy Systems, 2021, Pages 3-24

This chapter advances SDG 6, 7, and 11 by examining the role of resource recovery technologies in reducing the demand of fossil fuels and conventional fossil-based mineral fertilizers, including through the production of sustainable biofuels such as hydrogen, syngas, and bio-oil.

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Book chapters

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Energy; Sustainable transport; Water and sanitation; Fossil Fuels, Global

Bioenergy, Second Edition: Chapter 41 - Integrated agroecological technology networks for food, bioenergy, and biomaterial production "

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Distributed Energy Resources in Local Integrated Energy Systems - Chapter 1: Overview of distributed energy resources in the context of local integrated energy systems

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Biomass, Biofuels, Biochemicals: Circular Bioeconomy: Chapter 27 - Circular Economy and Carbon Capture, Utilization, and Storage

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Tags:

Biomass, Biofuels, Biochemicals: Circular Bioeconomy - Current Status and Future Outlook - 15: Microbial Electrochemical Technologies for CO2 Sequestration

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Biomass, Biofuels, Biochemicals: Circular Bioeconomy - Current Status and Future Outlook - Chapter 27: Circular Economy and Carbon Capture, Utilization, and Storage

Category:

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Sustainable Materials for Oil and Gas Applications - Chapter 4: Nanoparticles for enhanced oil recovery

Category:

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Sustainable Materials for Transitional and Alternative Energy - Chapter 1: Smart and state-of-the-art materials in oil and gas industry

Category:

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Hybrid Nuclear Energy Systems - Chapter 4: Uses

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Agricultural Waste Diversity and Sustainability Issues - Chapter 6: New approach and prospects of agrowaste resources conversion for energy systems performance and development

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Low Carbon Energy Technologies in Sustainable Energy Systems - Chapter 1: The role of resource recovery technologies in reducing the demand of fossil fuels and conventional fossil-based mineral fertilizers

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