Pond was recently featured by the Financial Post and BNN. In the article, CEO Steve Martin discusses Pond’s potential to provide high-protein feed to the aquaculture industry with a much lower ecological footprint as compared to farm-grown soy or corn. Enjoy the read!

Turning pollution into profit

A close up of a man's hand holding dried algae product.

Algae biomass is a versatile feedstock for food, feed, and industrial bioproducts.

  • Climate change is creating an urgent need to lower greenhouse gas emissions
  • Pond Technologies has developed an algae-based carbon capture and utilization solution
  • Algae biomass is a versatile feedstock for food, feed, and industrial bioproducts

With wildfires scorching the western U.S. and Canada and record-breaking heat waves in normally temperate climates like Europe, the impact of climate change is very much in the news these days. Heatwaves and droughts across large parts of Europe and Australia are causing massive reductions in crop yields this year.

A divided political climate, particularly in the U.S., has inhibited collective solutions to the problems of climate change and the greenhouse gases that are causing it. Still, most countries are signatories to the Paris Climate Accord and an ever-increasing number of investors and business leaders are actively looking for solutions to the problems that climate change is causing.

The key is to find commercially scalable solutions that provide healthy returns to investors. Without a financial incentive to reduce emissions, businesses stuck in a quarterly reporting cycle find it challenging to justify the investments needed to address these.

Three of Pond's bioreactors illuminated by a purple light

Pond grows algae for various lucrative uses, using its industry-leading, made-in-Canada technology.

Converting Emissions into Algae

Pond Technologies Holdings Inc. (TSX.V: POND) believes it has found a way to make emissions reduction financially viable by connecting its photobioreactors — large tanks equipped with sensors and specialty lighting — to emission-producing industrial plants.

The company’s modular, scalable bioreactors grow algae — a carbon dioxide (CO2) gobbling organism that serves as a surprisingly lucrative product. Pond has one pilot plant in operation, two commercial facilities under development with Ontario-based industry partners, and is laser-focused on ramping up algae production at commercial scale. One facility is Markham District Energy’s Warden Energy Centre, while the other facility is an add-on to Stelco’s Lake Erie Works steel mill.

Pond CEO Steve Martin comments, “We are actively trying to accelerate the rollout of our technology and have begun the detailed engineering work and construction at Stelco. We have support from the provincial government and should have the first phase up and running over the next 12 months.”

Success at these facilities should help Pond attract more capital. Indeed, this is already happening as Connecticut-based private equity firm Inventiv Capital Management recently signed a letter of intent to fund up to US$100 million of Pond’s projects across North America.

“As the oceans get fished to the brink, our technology portfolio will provide a commercially scalable growth platform that can farm any microalgae as a sustainable source of marine protein.” — Steve Martin, CEO, Pond Technologies

Algae as a Feedstock for Fish and Meat Production

In providing this level of backing, Inventiv no doubt looked at the myriad of potential applications for industrially produced algae.

Chief among those uses is as a feedstock for the world’s fish farms. It’s projected that the global population will require 70 per cent more food calories by 2050. Current pressure on the world’s fisheries will make commercial protein production essential for the survival of wild fish stocks. Certain types of algae are rich in omega fatty acids and other ocean-borne nutrients, thus providing excellent feed for commercial fish farms.

“As the oceans get fished to the brink, our technology portfolio will provide a commercially scalable growth platform that can farm any microalgae as a as a sustainable source of marine protein,” says Martin. One in-demand algae product is Astaxanthin, extracted from a naturally occurring microalgae that give salmon and shrimp their signature red colour. This extract can fetch prices in excess of $50,000 per tonne. Due to its modular, highly efficient design, Pond’s technology can potentially deliver thousands of tonnes of algae to global feed producers without competing for scarce agricultural land or water. In fact, a small Pond bioreactor contained in one shipping container can yield more feed than 10 acres planted with corn.

Nutraceuticals Market Forecasted to Grow

Pond is also pursuing the nutraceutical, health supplement, and natural food colouring verticals. Thanks to a production system that allows it to grow clean, premium-quality nutraceutical algae, the company has the ability to tap this burgeoning market.

Spirulina algae, in particular, is well-established as one of the most protein-dense and nutrient-rich supplements available. And, while Pond’s bioreactors can and will be hooked up to carbon dioxide emitting plants to reduce emissions, its technology works equally well using bottled, beverage-grade carbon dioxide, if desired by Pond’s downstream partners.

Pond’s patented bioreactors can grow algae 20 times faster than conventional producers. The company’s closed-loop system avoids the bacterial contamination issues that legacy operators must contend with in conventional open pond systems — bird fouling or pollutants from flash floods and rain.

A collection of green and healthy foods laid out on a table including spirulina

Scientists point to the long-term health benefits of Spirulina and other algae-based supplements.

A Surprising Diversity of Uses

As the company works to construct its first commercial-scale operations, it will continue to seek new markets for its products. Other uses for algae become evident when one considers that the world’s oil reserves consist mainly of ancient algae. Just like oil, algae can be converted into fuels or fibers for plastic. There is a growing demand for green cosmetics, green cleaning products, and green fertilizer. Further, algae can be mixed with traditional polymers to make a biofoam for use in products from running shoes to mattresses.

The next step for Pond (TSXV: POND) is to prove the viability of its bioreactors at scale. Martin says his team is up to the task. “Our R&D team is dominated by ex-automotive engineering people who know how to take experimental science out of the lab and turn it into a commercialized system.”

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