Green Solutions for CO2 Mitigation: Exploring Microalgae-Based Carbon Capture and Utilization Technologies
Background: Rising carbon dioxide concentrations in the Earth's atmosphere drive greenhouse gas accumulation and climate change. Addressing this critical concern mandates inventive solutions, among which the Microbial Carbon Capture Cell (MCC) system stands out. Central to MCC technology is mi...
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| Main Authors: | , |
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| Format: | Article |
| Language: | English |
| Published: |
Al-Nahrain University/ Biotechnology Research Center
2025-05-01
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| Series: | مجلة مركز بحوث التقنيات الاحيائية |
| Subjects: | |
| Online Access: | https://www.jobrc.org/index.php/jobrc/article/view/765 |
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| Summary: | Background: Rising carbon dioxide concentrations in the Earth's atmosphere drive greenhouse gas accumulation and climate change. Addressing this critical concern mandates inventive solutions, among which the Microbial Carbon Capture Cell (MCC) system stands out. Central to MCC technology is microalgae, encompassing diverse species with exceptional carbon dioxide absorption capabilities. Microalgae convert carbon dioxide into biomass through photosynthesis, effectively sequestering it and mitigating environmental impact. Beyond carbon sequestration, MCC technology extends to wastewater treatment and flue gas purification, providing a dual advantage by combating pollutants while capturing carbon dioxide. This holistic approach contributes to cleaner air and water, promoting sustainable development. MCC technology harbors transformative potential in energy. Microalgae-derived biomass can yield biofuels, a renewable energy source, substantially reducing greenhouse gas emissions. This shift from fossil fuels to biofuels is pivotal for reducing our carbon footprint and advancing sustainability. Objective: This study has multiple objectives, including emphasizing the role of microalgae in efficiently sequestering carbon dioxide, the parameters that affect microalgae growth and performance, and improving their carbon sequestration capabilities. Discussion: The study also highlights the power generation of MCC technology and its contribution to clean energy production and grid sustainability. The study also addresses the production of biodiesel from microalgae as a renewable and environmentally friendly fuel source, reducing carbon emissions, reducing dependence on depleting fossil fuels, and enhancing energy security. Conclusion: Microbial carbon capture cell technology holds promise in combating climate change by efficiently capturing carbon, reducing pollution, and transitioning to cleaner, sustainable energy sources.
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| ISSN: | 1815-1140 2708-1370 |