Advanced Routes of Biological and Bio-electrocatalytic Carbon Dioxide (CO2) Mitigation Toward Carbon Neutrality

Advanced Routes of Biological and Bio-electrocatalytic Carbon Dioxide (CO2) Mitigation Toward Carbon Neutrality

Changes in the environment due to multiple factors, such as combustion of fossil fuels, heating, transportation, deforestation, etc., have led to more greenhouse gases in the atmosphere, which eventually led to a rise in global temperatures. Carbon dioxide (CO2) is the major factor for the rapid ris...

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Main Authors: Sanath Kondaveeti, Ibrahim M. Abu-Reesh, Gunda Mohanakrishna, Metin Bulut, Deepak Pant
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-06-01
Series:Frontiers in Energy Research
Subjects:
CO2 capture and utilization
algae
bioenergy
greenhouse gases (GHG)
gas fermentation
microbial electrosynthesis (MES)
Online Access:https://www.frontiersin.org/article/10.3389/fenrg.2020.00094/full
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spelling doaj-3589b89fb4a74201ad3462bb1278e07b2020-11-25T03:09:59ZengFrontiers Media S.A.Frontiers in Energy Research2296-598X2020-06-01810.3389/fenrg.2020.00094537628Advanced Routes of Biological and Bio-electrocatalytic Carbon Dioxide (CO2) Mitigation Toward Carbon NeutralitySanath Kondaveeti0Ibrahim M. Abu-Reesh1Gunda Mohanakrishna2Metin Bulut3Deepak Pant4Department of Chemical Engineering, College of Engineering, Qatar University, Doha, QatarDepartment of Chemical Engineering, College of Engineering, Qatar University, Doha, QatarDepartment of Chemical Engineering, College of Engineering, Qatar University, Doha, QatarSeparation and Conversion Technology, Flemish Institute for Technological Research (VITO), Mol, BelgiumSeparation and Conversion Technology, Flemish Institute for Technological Research (VITO), Mol, BelgiumChanges in the environment due to multiple factors, such as combustion of fossil fuels, heating, transportation, deforestation, etc., have led to more greenhouse gases in the atmosphere, which eventually led to a rise in global temperatures. Carbon dioxide (CO2) is the major factor for the rapid rise in global temperature. One of the most encouraging technological advances to address global warming is to transform CO2 into value-added commodities that offer a win–win strategy. In this regard, intensive research has been pursued around the world for development of feasible systems in product recovery or product synthesis from CO2-rich industrial emissions. We envision that the biological CO2 reduction or conversion process can be beneficial for developing carbon-neutral technologies. The integration of CO2-emitting industrial technologies with CO2-converting biological systems can be helpful in achieving sustainable value-added products with no or minimal loss of energy and materials that are assuring for improved economics. The CO2-converting bioprocesses can be directly integrated with the processes emitting a high amount of CO2. This symbiotic integration can make the whole process carbon neutral. Herein, this review highlights an insight on research activities of biological CO2 mitigation using photo catalysts (algae and photo bacteria), an anaerobic biocatalyst (bacteria), gas fermentation, and an enzymatic catalyst. Perspectives and challenges of these technologies are discussed.https://www.frontiersin.org/article/10.3389/fenrg.2020.00094/fullCO2 capture and utilizationalgaebioenergygreenhouse gases (GHG)gas fermentationmicrobial electrosynthesis (MES)
collection DOAJ
language English
format Article
sources DOAJ
author Sanath Kondaveeti
Ibrahim M. Abu-Reesh
Gunda Mohanakrishna
Metin Bulut
Deepak Pant
spellingShingle Sanath Kondaveeti
Ibrahim M. Abu-Reesh
Gunda Mohanakrishna
Metin Bulut
Deepak Pant
Advanced Routes of Biological and Bio-electrocatalytic Carbon Dioxide (CO2) Mitigation Toward Carbon Neutrality
Frontiers in Energy Research
CO2 capture and utilization
algae
bioenergy
greenhouse gases (GHG)
gas fermentation
microbial electrosynthesis (MES)
author_facet Sanath Kondaveeti
Ibrahim M. Abu-Reesh
Gunda Mohanakrishna
Metin Bulut
Deepak Pant
author_sort Sanath Kondaveeti
title Advanced Routes of Biological and Bio-electrocatalytic Carbon Dioxide (CO2) Mitigation Toward Carbon Neutrality
title_short Advanced Routes of Biological and Bio-electrocatalytic Carbon Dioxide (CO2) Mitigation Toward Carbon Neutrality
title_full Advanced Routes of Biological and Bio-electrocatalytic Carbon Dioxide (CO2) Mitigation Toward Carbon Neutrality
title_fullStr Advanced Routes of Biological and Bio-electrocatalytic Carbon Dioxide (CO2) Mitigation Toward Carbon Neutrality
title_full_unstemmed Advanced Routes of Biological and Bio-electrocatalytic Carbon Dioxide (CO2) Mitigation Toward Carbon Neutrality
title_sort advanced routes of biological and bio-electrocatalytic carbon dioxide (co2) mitigation toward carbon neutrality
publisher Frontiers Media S.A.
series Frontiers in Energy Research
issn 2296-598X
publishDate 2020-06-01
description Changes in the environment due to multiple factors, such as combustion of fossil fuels, heating, transportation, deforestation, etc., have led to more greenhouse gases in the atmosphere, which eventually led to a rise in global temperatures. Carbon dioxide (CO2) is the major factor for the rapid rise in global temperature. One of the most encouraging technological advances to address global warming is to transform CO2 into value-added commodities that offer a win–win strategy. In this regard, intensive research has been pursued around the world for development of feasible systems in product recovery or product synthesis from CO2-rich industrial emissions. We envision that the biological CO2 reduction or conversion process can be beneficial for developing carbon-neutral technologies. The integration of CO2-emitting industrial technologies with CO2-converting biological systems can be helpful in achieving sustainable value-added products with no or minimal loss of energy and materials that are assuring for improved economics. The CO2-converting bioprocesses can be directly integrated with the processes emitting a high amount of CO2. This symbiotic integration can make the whole process carbon neutral. Herein, this review highlights an insight on research activities of biological CO2 mitigation using photo catalysts (algae and photo bacteria), an anaerobic biocatalyst (bacteria), gas fermentation, and an enzymatic catalyst. Perspectives and challenges of these technologies are discussed.
topic CO2 capture and utilization
algae
bioenergy
greenhouse gases (GHG)
gas fermentation
microbial electrosynthesis (MES)
url https://www.frontiersin.org/article/10.3389/fenrg.2020.00094/full
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AT ibrahimmabureesh advancedroutesofbiologicalandbioelectrocatalyticcarbondioxideco2mitigationtowardcarbonneutrality
AT gundamohanakrishna advancedroutesofbiologicalandbioelectrocatalyticcarbondioxideco2mitigationtowardcarbonneutrality
AT metinbulut advancedroutesofbiologicalandbioelectrocatalyticcarbondioxideco2mitigationtowardcarbonneutrality
AT deepakpant advancedroutesofbiologicalandbioelectrocatalyticcarbondioxideco2mitigationtowardcarbonneutrality
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