Algae-powered climate infrastructure
Cooling buildings.
Capturing carbon.
Regenerating soil.
We design and deploy modular algae systems that reduce building heat, capture carbon emissions, and convert biomass into regenerative biofertilizer. Our integrated approach operates across buildings, communities, and industrial sites.
One integrated climate system.
Our model connects cooling, carbon capture, community production, and soil regeneration into one circular infrastructure.
Carbon Capture
Algae Growth
Biomass Harvest
Regenerative Output
Algae absorbs COâ‚‚ from buildings and industrial sources.
Modular systems cultivate microalgae in controlled environments.
Algae biomass is collected from cooling units and pod systems.
Biomass is converted into biofertilizer, returning nutrients to soil systems.
Modular solutions. Integrated impact.
Indoor Cooling Units
Industrial Carbon Capture
Women-led Algae Pods
Biofertilizer Production
Terracotta-based cooling systems integrated with algae modules that reduce indoor heat while capturing carbon.
Containerized algae photobioreactors designed to absorb COâ‚‚ from industrial emissions and urban air streams.
Decentralized algae cultivation units operated by women entrepreneurs, generating income through biomass production.
Harvested algae biomass processed into regenerative soil inputs that support sustainable agriculture.
Built for measurable climate resilience.
01 / THERMAL
Passive heat reduction in high-temperature environments
02 / SEQUESTRATION
Carbon absorption through biological systems
03 / COMMUNITY
Distributed income generation for women operators
04 / CIRCULARITY
Regenerative agriculture inputs from biomass conversion
Why algae infrastructure?
Algae is one of the most efficient biological systems for carbon absorption and biomass production. By integrating algae into cooling systems and modular photobioreactors, we transform emissions into regenerative value creating infrastructure that works with nature, not against it.
Leadership
The minds behind Algae Quest for Earth Advancement(ALQEA) are combining industrial engineering with biotechnology to scale climate solutions.
Hauwa Busari
FounderÂ
Algae systems, biomass harvesting, and circular carbon utilization.
Christianah Oseni
Lead Crop ScientistÂ
Controlled-environment agriculture and substrate performance testing.
Joshua Isah
Lead System Engineer
Reactor design, gas flow optimization, and modular system integration.
Mas'ud RufaiÂ
Bio-Agriculture Intern
Biomass processing support and laboratory validation.
Strategic Advisors
Dr. Lorraine ArcherÂ
Algae specialist — Senior researcher specializing in carbon sequestration and algae physiology.
Akhir Hall
Bio-designer — Specializes in sustainable Biomaterials
Partner with us to deploy algae-powered systems.
We are seeking pilot partners, industrial collaborators, development agencies, and climate investors to scale modular algae infrastructure across hot and emission-intensive regions.