What if agricultural land could sequester carbon like an old-growth forest?

Could we carbon balance our ecosystems through regenerative production of our most consumed resources?

Yes, it is possible. Within a decade if we're lucky.

Introducing RENEWABLE PROFIT
Solutions for Carbon Sequestration.

A proven plant-based solution providing regenerative production for our most consumed resources at a government scale transition from fossil fuels.

Regulatory Challenges

Countries regulate carbon credits to avoid runaway pricing. Industries face added restrictions to meet emissions reduction goals.

Soil Carbon Storage

Soil stores more carbon than Earth's entire plant mass and atmosphere combined.

CORSIA Fuel Tax

A new transportation fuel tax follows EU and UN guidelines to reach emission reduction goals.

Carbon Credit Supply

Due to a shortage of valid carbon credits, the EU recently opened up international trading. Supply shrinks as we ramp up our goals.

Feedstock Challenges

Current feedstock supplies are too variable, seasonal or expensive to be taken seriously.

Land Management

Roughly 37% of Earth's landmass is cropland. Land use matters. 

1/3 Already Degraded

Leading reports indicate ⅓ of Earth’s topsoil is already degraded.

Restoring Degraded Land

We invest in unused land to cultivate plant biomass. Low-risk Indirect Land Use Change (ILUC).

Modular Scalability

Effective scaling across vast amounts of degraded land is paramount to smoothly transitioning from fossil fuels.

Regenerative Biofuel Transition

Together we can use the leading edge of regenerative agriculture and plant biomass processing technology to create a realistic transition option for governments serious about drawing down carbon in months, not decades.

Regenerative Agriculture

Smart cultivation of plant biomass safely converts to liquid biofuels that can restore ecosystems by design through regenerative agriculture practices.

Plant Biomass To Liquid Biofuels

Converts plant biomass into high octane, low sulfur biodiesel, and ethanol biofuel production aligned with Low Carbon Fuel Standards (LCFS) standards.

Electrical Energy Production

In the processing of producing fuels, we create excess thermal and electrical energy that can be used for remote auxiliary energy grids or clean off-peak generation supplementing solar/wind.

Carbon Sequestration
and Credits

Our entire process draws down more carbon than it produces making it a net positive for the planet and required for a successful transition from fossil fuels.

Sustainable Aviation Fuels

Our regulator-approved process converts ethanol to jet fuel as an approved SAF or Sustainable Aviation Fuel.

Biodiesel Blends

Our B20-B100 blends feature high octane and low sulfur contents on par with industry-leading LCFS standards.

Regenerative Production

We carefully design each step to build on each other throughout the process life cycle.

Year-Round Growing

Our operations receive full-year sunshine with all locations within the Tropic of Cancer and Tropic of Capricorn.

Fast Harvest Cycles

Short fiber harvest cycles allow for higher yields per year while returning more nutrients to the soil than we take.

Ecosystem Regeneration

Our process incorporates advanced bioremediation techniques that remove heavy metals and increase the carrying capacity of the soil to store more nutrients, water, carbon, and more.

Advanced Soil Additives

Our proprietary organic microbial and bacterial additives contain activated biochars that improve how nutrients are stored in vastly undervalued soil ecosystems.

Bioremediation

The natural process known as phytoremediation uses sunlight via photosynthesis to assist in the cleaning and restoration of our air, water, and soil ecosystems.

Better Soil = Higher Yields

Investing in soil returns higher yields year after year. Nature knows what to do, she just needs a gentle push.

Faster with a little help

With our help, these natural processes can happen much faster allowing for quick replenishment of our natural ecosystems.

Slow Natural Processes

Organic topsoil evolution takes 1,000 years to form one inch. Slow organic processes are responsible for effectively breaking apart rocks and minerals with each growing cycle.

Carbon Balancing Our Planet

We are currently exploring government-level partnerships to help carbon balance our planet.

Within a decade at scale, if we're lucky.