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The banana peels, coffee grounds, rotten tomatoes, moldy bread and other food waste that ends up in the landfill could be transformed into a biodegradable plastic packaging material creating an alternative to single-use plastics.

Bacteria in sugars, starches and protein in food provide the building blocks for the bioplastics: Microorganisms feed on those bacteria and produce PHAs (polyhydroxyalkanoates), which is separated out and made into plastics. PHA is both biodegradable and compostable and can be used to create injection-molded packaging, plastic bags, bottles, straws, food wrappers and other sustainable packaging materials.

Lowering Costs Would Raise Demand

Martin Mulvihill PhD, a chemist and co-founder of Safer Made, a mission-driven venture capital firm, notes that Cargill and Dow partnered on a joint development effort two decades ago to develop polylactic acid or PLA, a biopolymer similar to PHA. PLA can also be made from food waste but, Mulvihill notes, it’s cheaper to produce it from corn and other feedstock. One of the major disadvantages of PLA is that it’s not marine degradable, which means it could still end up in our oceans. Cost is another deterrent.

Bioplastics are more expensive to manufacture than conventional petroleum-based plastics and companies like Cargill and Dow backed out of producing PLA when oil prices fell because cheap materials were hard to resist but the engineered material, often used in food containers, is still used as an alternative to single-use plastics.

“It really comes down to sort of dollars and cents,” Mulvihill says. “We could use similar technologies to make a PLA from waste, too, but we don’t because that’s not the most affordable way to make it or the most efficient way to make it.”

Orts believes that initial attempts to commercialize PHAs in the 1990s failed because the products were 50 percent more expensive than petroleum-based plastics. Similar challenges remain, he adds, and focusing on higher value products— biodegradable microbeads, textiles and cosmetics packaging instead of plastic bags and detergent bottles—could help startups generate revenue, scale production and achieve lower costs of production, making widespread adoption more likely.

Creating PHA from food waste also solves the environmental issues associated with growing monocrops like corn, sugar and potatoes to use as the basis for bioplastics. An increased demand for PHA made from feedstock requires arable land that could be used for growing food; transitioning other land into farmland to grow crops leads to loss of wildlife habitat and, once planted, the crops require irrigation to grow.

To solve the issues associated with using feedstock for PHA, Full Cycle Bioplastics is committed to using food waste from sources ranging from food manufacturers to municipalities with green bin (composting) programs. Using a non-homogenous feedstock presents challenges, Polk admits, but the technology exists to turn combinations of fats and oils into a replacement for petroleum-based plastic but relying on food waste as a base material also keeps costs in check.

“It’s a low-or no-cost feedstock,” Polk says. “You don’t have to…grow a crop, grind it for the oils and convert it into PHA. We’re using a feedstock that would go off to landfill or sent off to compost for a cost [and] the low acquisition cost allows us to deliver a polymer that [has cost parity] with oil-based polymers.”

Adopting a Different Mindset

Changes in infrastructure could also help PHAs succeed.

Farms, restaurants, supermarkets and other food waste hot spots would need to be willing to install digester tanks to collect food at the source, transitioning from massive economies of scale to locally-sourced, locally-produced [bioplastics] and manufacturers and consumers would need to absorb the costs for [these] products,” Orts says.

“It’s a very different mindset than what we’re used to,” he adds. “We can invent ourselves to a sustainable future [but] it’s going to require a little bit of will and slight change of thinking and the willingness, sometimes, to pay just a smidgen more.”

All of the PHA that Mango Materials produces is sold to companies that want to test it for packaging but Morse hopes to announce new partnerships “soon” that include PHA-based cosmetics packaging and bags. In the meantime, she says, “Global PHA production is not yet putting a dent in the global plastics production. We all need to scale up.”



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