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Waste Intake

Anaerobic Digestion of Farm Waste

Conversion

Microbial Methane Oxidization

Production

Mixing of O2, Water, and Mineral Catalyst

Measurement

Precision Sensor Methane Tracking

Farm Return

Fertilizer Returned to Original Farm

Climate Infrastructure for Food Sector Decarbonization

Our climate infrastructure is the first to transform farm waste into a superior-performing, low-emission alternative to synthetic fertilizer.

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Core Process

Methane to Fertilizer

Modular Bioreactor

The Heart of Our Infrastructure

Our specialized bioreactors create an optimal environment for blending precise amounts of methane, oxygen, and water with Windfall Bio's breakthrough biotechnology to produce consistent year-round fertilizer. Each bioreactor converts methane into ultra-low emission amino acid fertilizer, avoiding more than 12,000 tons of CO2e emissions annually (the equivalent of eliminating enteric emissions from 2,200 dairy cows). 

Biomimicry

Improving Upon Haber Bosch

Our process recreates a microbial process that occurs naturally at barely noticeable levels in most soils and at elevated levels in ruminant grasslands and rice fields. We upscale the Haber Bosch process using nitrogen-fixing microbes that convert methane generated by agricultural waste streams into amino acid fertilizer with 90% lower emissions than synthetic or manure fertilizers.

Resource Use

Maximum Sustainability

Our process recycles water reclaimed from agricultural waste streams, requires a fraction of the external energy of ammonia fertilizer, reuses bioreactor filter materials, requires no secondary processing of produced fertilizer, which we blend with reclaimed phosphorous, potassium, and micronutrients from animal waste, and package it in recyclable materials.

Measurement

Unsurpassed Precision

We use state-of-the-art methane sensors, precision flow rate meters, and automated valve controls on each bioreactor, augmented by trained AI to detect and report out-of-calibration sensors, identify and correct process inconsistencies, and predict and schedule optimal fertilizer extraction times.

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