πLANC2160 | Team 3 Projectπ‘
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ππ¨ Carbon Capture and Storage (CCS):
CCS is a climate technology π± that helps reduce
carbon dioxide (COβ) emissions π«οΈ from energy β‘
and industrial sources π.
It works by:
𧲠Capturing COβ before it reaches the air βοΈ
π Transporting it safely via pipelines π€οΈ
πͺ¨ Storing it deep underground in rock formations π
CCS is crucial for achieving net-zero goals β»οΈ
and is vital for tough sectors like:
𧱠Cement industry
π© Steel industry
Itβs a key step toward a cleaner future πΏπ
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πΏ Team membersπΏΒ
Al-Fadhil AlAdawi
Al_Muntaser Alhaatali
Alazzd Alhnai
Hamood alkhanjari
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ππΏ Research Question:Β
πRQ1 : How do pre-combustion and post-combustion carbon capture methods differ in capturing COβ?
π₯βοΈ Pre-combustion vs. π¨π§ͺ Post-combustion β what sets them apart in technology and efficiency?
π RQ2 : What are the risks and benefits of storing carbon dioxide in underground geological formations?
ππͺ¨π Is it a safe long-term solution, or does it carry risks like leakage or seismic activity?
π RQ3 :Β How do pipeline networks help transport captured carbon, and what challenges do they face?
ππ€οΈπΏ From construction and safety to environmental impact β what hurdles do they face?
π RQ4 :Β How effective is Direct Air Capture (DAC) at removing COβ from the atmosphere, and what are the main challenges?
π«οΈπ±β‘ Is DAC a climate game-changer, or is it too costly and energy-intensive to scale?
π RQ5 :Β How do carbon mineralization and ocean storage compare in terms of long-term COβ storage?
πͺ¨β³π Which method locks away carbon more securely β and with fewer environmental trade-offs?
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