“Green Panels for a Blue Planet: A Bioengineered Living Liquid Algae System by Barwal Aquarium Delivering Environmental Benefits and Aesthetic Architectural Integration while Reducing Atmospheric Carbon Di Oxide [CO2].”

Mukesh Manmohan Barwal; Kartik Mukesh Barwal; Shivani Mukesh Barwal

doi:10.36948/ijfmr.2025.v07i05.58801

“Green Panels for a Blue Planet: A Bioengineered Living Liquid Algae System by Barwal Aquarium Delivering Environmental Benefits and Aesthetic Architectural Integration while Reducing Atmospheric Carbon Di Oxide [CO2].”

Author(s)	Mr. Mukesh Manmohan Barwal, Mr. Kartik Mukesh Barwal, Ms. Shivani Mukesh Barwal
Country	India
Abstract	The escalating levels of atmospheric carbon dioxide [CO₂] and declining air quality present one of the greatest environmental challenges of the 21st century. Addressing this urgent issue, Barwal Aquarium introduces a novel bioengineered system - the Living Liquid Algae Panel, designed under the concept “Green Panels for a Blue Planet.” This innovative system utilizes microalgae suspended within transparent liquid media to actively capture atmospheric CO₂ and purify the surrounding air. The panels function as dynamic biofilters, harnessing photosynthetic activity to convert CO₂ into oxygen while simultaneously reducing particulate matter and other airborne impurities. The research focuses on optimizing algal growth conditions, light exposure, and fluid dynamics to maximize carbon absorption efficiency. Experimental observations indicate that these living panels can significantly enhance local air quality while maintaining a sustainable, self-regenerating biological ecosystem. In addition to environmental benefits, the design integrates aesthetic and architectural adaptability, allowing for deployment in urban infrastructure such as building facades, greenhouses and public spaces. The study further explores potential scalability, maintenance cycles and the ecological footprint of implementation. By merging biological intelligence with engineering design, the Barwal Aquarium’s bioengineered algae system represents a transformative approach to climate-responsive architecture and sustainable urban living. This research underscores the potential of living systems to serve as both environmental solutions and visual symbols of harmony between nature and innovation. The various properties were ascertained with the CPCB Guidelines and IS codes; IS 5182- part 1 , part 2, part 14, IS 3025, IS 10500.Experimental studies conducted under controlled laboratory conditions, following CPCB ambient air quality standards and mentioned IS codes guidelines, demonstrated CO2 absorption rates of 18-24 % per cycle, concurrently particulate matter [PM 2.5 and PM 10] decreased by 15 to 20 % and ambient oxygen levels increased by approximately 7 % validating the panel’s dual functionality as carbon sinks and oxygen generators.
Keywords	Living Liquid Panel, Atmospheric Carbon Di Oxide Reduction, Air Purification, Bioengineered Systems, Shivani Barwal, Microalgae Based Carbon Capture, Kartik Barwal, Sustainable Urban Architecture, Environmental Benefits, Mukesh Barwal, Aesthetic Architectural Integration, Renewable Air Filtration, Climate Responsive Design, Barwal Aquarium, Miracle Bonsai Store, Barwal.
Field	Sociology > Health
Published In	Volume 7, Issue 5, September-October 2025
Published On	2025-10-25
DOI	https://doi.org/10.36948/ijfmr.2025.v07i05.58801

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“Green Panels for a Blue Planet: A Bioengineered Living Liquid Algae System by Barwal Aquarium Delivering Environmental Benefits and Aesthetic Architectural Integration while Reducing Atmospheric Carbon Di Oxide [CO2].”

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