The initial stage entails utilizing advanced ceramic, high-temperature filtration technologies within the facility to eliminate harmful particulate matter and other pollutants. The waste is initially transformed into energy through pyrolytic gasification, producing heat and electricity. In line with our carbon capture endeavor, a multi-stage process is planned, which involves the extraction of gases emitted during waste combustion. Once captured, these gases, including carbon dioxide (CO2), undergo purification and compression before being transported via dedicated pipelines or vessels for suitable storage or utilization, preventing their release into the atmosphere and reducing greenhouse gas emissions.

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The Park will undergo continuous monitoring and optimization systems to enhance carbon capture efficiency at the stack. Regular maintenance and system upgrades ensure the proper functioning of the capture technologies, maximizing the extraction of non-biogenic CO2 and minimizing environmental impact.

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Continuous research and development efforts are dedicated to enhancing carbon capture methods, striving for elevated capture rates, and investigating unconventional storage alternatives like geological sequestration or utilization in industrial processes. These endeavors reinforce our pledge to sustainable and eco-friendly waste-to-energy operations.