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Minimizing carbon footprint via microalgae as a biological capture
Helen Onyeaka
,
Taghi Miri
, KeChrist Obileke
, Abarasi Hart
, Christian Anumudu
, Zainab T. Al-Sharify
Chemical Engineering
Research output
:
Contribution to journal
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Article
›
peer-review
1428
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Keyphrases
Microalgae
100%
Carbon Footprint
100%
Climate Change
25%
Pollution
25%
Storage Methods
25%
Lipids
25%
Promising Technology
25%
Volcanic Eruption
25%
Automobile
25%
Carbon Source
25%
Power Plant
25%
Capture Method
25%
Molecular Tools
25%
Carbon Dioxide CO2
25%
Food Supply Chain
25%
Environmental Implications
25%
Carbon Capture
25%
Bioenergy
25%
Forest Fire
25%
Transport Fuel
25%
CO2 Capture
25%
Microalgae Species
25%
Organic Matter Decomposition
25%
Petroleum-derived
25%
Value-added Products
25%
Anthropogenic Intervention
25%
Engineering
Microalgae
100%
Carbon Footprint
100%
Climate Change
25%
Climatic Change
25%
Electric Power Plant
25%
Bioenergy
25%
Carbon Capture
25%
Carbon Dioxide Capture
25%
Microalgae Specie
25%
Chemical Engineering
Carbon Dioxide
100%
Carbon Dioxide Capture
25%
Immunology and Microbiology
Microalga
100%
Bioenergy
20%
Material Science
Carbon Dioxide
100%