Algaetree™ Technology

Living hardware for real‑time atmospheric repair.

A compact photobioreactor architecture combining high-efficiency light capture, precision gas handling, closed-loop water management, and sensor‑driven AI controls—built for dense cities where every cubic metre matters.

PhotobioreactorIoT + AI controlSolar + windHEPA intakeClosed-loop

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Photonic growth core
Optimized light & fluid dynamics for peak fixation.

System Overview

Urban photobioreactor stack

Core Bio‑Reactor

High‑density cultures (Chlorella, Scenedesmus, Coleastrella) in UV‑stable transparent chambers sustain rapid CO₂ fixation and O₂ release.

NeuroControl AI

Closed‑loop control of pH, light cycles, nutrient dosing, CO₂ dissolution, and flow regime with fail‑safe overrides and self‑diagnostics.

EnviroSense Grid

Internal: pH, DO, temp, biomass density; External: AQI, PM₂.₅/PM₁₀, humidity, temperature—streamed to dashboards in real time.

Reactor Architecture

OptiLight shell + micro‑bubble gas transfer

OptiLight Shell
UV‑stable acrylic + refraction panels distribute light to reduce self‑shading.

Gas Diffusion Grid
Venturi & micro‑porous injectors create fine bubbles for efficient CO₂ dissolution.

Thermal Regulation
Selective coatings keep culture in optimal growth range.

Biofilm Control
Shear profiles + anti‑fouling layers preserve clarity and PAR penetration.

Photonic Engineering

Light spectra tuned for microalgae

Action Spectrum

Photosynthetically active radiation (PAR) lies ~400–700 nm, with strong absorption in blue (~420–450 nm) and red (~660–700 nm). Our shell & auxiliary LEDs bias those bands for productivity when ambient light is poor.

Even Light Field

Refraction panels and controlled turbulation keep cells cycling through light/dark phases, sustaining high growth without photoinhibition.

PARL/D cyclingPhotoinhibition control

Intake & Purification

Air pathway with medical‑grade filtration

Atmospheric Intake

Calculated flow rates pull local air through pre‑mesh, HEPA, and activated carbon before contact with the bio‑reactor—capturing PM₂.₅/PM₁₀ and chemical pollutants.

HEPA Capture

True HEPA standards remove ≥99.97% of particles at 0.3 µm (U.S. DOE); EU HEPA is ≥99.95%—targeting the most penetrating particle size (MPPS).

Closed‑Loop Biofluid

Minimal water use, zero liquid discharge

Resource Management

Micro‑pump circulation network ensures even nutrient delivery.
Condensation recovery lines recapture evaporated moisture.
pH & EC monitoring nodes maintain biochemical balance.

Power & Autonomy

Solar + wind hybrid with smart storage

hours backup (battery)

/7 telemetry uptime

kWh/day typical draw*

sources (solar+wind)

*Varies by insolation, pump duty cycle, and light supplementation.

Sensors & NeuroControl

Adaptive controls with scientific fidelity

Sensor Suite

Optical dissolved oxygen (0–20 mg/L typical), thermistors, pH/EC, CO₂ uptake via gas balance, turbidity/optical density for biomass—paired with external AQI & particulate sensors.

DO (optical)pH/ECOD/biomassPM₂.₅/PM₁₀

Live Readout (Simulated)

pH 7.1 • DO 7.8 mg/L • Temp 28.4 °C • AQI 62

AI tunes light cycles + gas transfer to keep metrics within yield‑optimized bands.

Benchmarks

From fixation stoichiometry to real‑world capture

kg CO₂ / kg algal biomass*

–50× CO₂ per m² vs plants†

% CO₂ optimal (range)

g/L/day CO₂ fixation (lab)

*Theoretical stoichiometry; field values depend on light, mass transfer & culture state.

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Inside the Algaetree™ system

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