Think about this: Every time you buy a soft drink that comes with a plastic straw, and toss it into the garbage, you are contributing to the global plastic pollution problem.
The same goes for hundreds, maybe thousands of other single-use plastics, including ubiquitous food packaging, take-out containers & cutlery, coffee cups with plastic lids, water bottles, shopping bags, and throw-away plastic covers like those used by drycleaners and auto-service departments.
Originating more than 150 years ago as a substitute for billiard balls made of ivory, plastic is both a wonder-material that has aided in the progression of modern industry and life (plastic production grew 300% during World War Two, used for example in parachutes, helmet liners and bazooka barrels; endless plastic products have been designed to make life easier, it being cheap, sanitary, lightweight, moldable and safe), and a scourge, due to the inability of science to come up with a solution to the seemingly intractable issue of plastic waste.
Plastic has been filling up our landfills for decades, or incinerated, thus contributing to land/ ocean/ air pollution, and carbon emissions. Researchers quoted by The Guardian found that the black smoke from open waste burning emits between 2% and 10% of the world’s carbon dioxide. The harmful practice also produces large amounts of dioxins and other pollutants that can persist in the food chain. In India, the extra chloride produced by burning plastics interacts with other pollutants, creating ground-level ozone that is estimated to reduce yields on some crops by 20-30%.
If plastic were a country, it would be the fifth-highest emitter in the world. That’s because 99% of plastic is made from fossil fuels. A significant portion of emissions comes from the extraction and transportation of fuels that create plastic, including methane from natural gas, considered 28 times more potent than carbon dioxide. Cracking Plants that refine fuel and convert it to plastic are also extremely harmful to the environment. At the production stage, polyester, polyamide and acrylic, used in textiles, have the highest level of emissions.
Over the years, plastic has followed a hockey stick-shaped growth trajectory. We make 190 times more plastic than we did in 1950; in 2017, the United States alone produced 35 million tons, out of a global total of about 400 million tons.
Despite the proliferation of curbside recycling programs, regional eco-centers, and an increasingly aware and motivated public, very little plastic is recycled, around 10% according to most estimates. Another 12% is incinerated, reducing it to ash, gas and heat. The other 79% makes its way to a landfill or escapes into the environment.
Between 1950 and 2015, an estimated 6.3 billion metric tons ended up as waste — the equivalent mass of 42 million blue whales, each weighing 150 tonnes. (1 metric ton = 1.10231 US tons)
Plastic packaging in 2015 represented the highest waste category, @ 141 million tons, followed by textiles at 42 million tons, and consumer/ institutional products at 37Mt.
Our plastic world
It is estimated there are over 150 million tonnes of plastic in the ocean. Around 8 million tonnes enter the seas every year — the equivalent of dumping a truckload of plastic garbage every minute.
On land, plastic pollution has been with us since the material was invented in 1907.
The expected decline in oil production due to vehicle electrification and the switch to renewables, is unlikely to affect plastics, which are a by-product of crude oil. According to a Statista report, plastics production is forecast to become the largest driver of oil demand growth in the coming years, exceeding the oil demanded by global road transportation by 2050. A one-liter plastic bottle takes 250 milliliters of oil feedstock to be produced.
National Geographic says the problem of discarded plastic is so severe, that if nothing is done, by 2050 the oceans will contain more plastic than fish, ton for ton.
It has become a much-discussed topic, and the subject of several documentaries, revolving around the harmful effects of minute plastic fragments, called microplastics and nanoplastics on plants, fish, sea birds, mammals, and eventually, humans at the top of the food chain.
The problem stems from the fact that plastic is virtually indestructible. A trait that was once sold to consumers as a virtue, has become a vice, due to the ubiquity of plastic especially in the marine environment.
Most plastic has a very long lifespan. Plastic bags, for example, can take up to 20 years to decompose, while takeaway coffee cups, despite being mostly paper, have a plastic lining that will endure for 30 years.
Other items, including coffee pods, disposable diapers, and plastic toothbrushes, will be in landfills for five centuries!
Plastic that enters the ocean gets exposed to UV radiation, oxygen, high temperatures and microbial activity. Some plastics, those made from bacterial polymers, are naturally biodegradable. Others, such as take-away food containers, will only decompose when exposed to prolonged temperatures above 50 degrees C, conditions found in an industrial composter that cannot be replicated in the oceans.
Eventually the salt water, sun, wind and waves break the plastics down to tiny particles that are carried by ocean currents to even the most remote corners of the Earth.
Some marine animals get entangled in plastic fishing nets or are impaled by plastic straws. Others mistake the colorful plastic fragments for food and eat them. However since they cannot be digested, the pieces create a feeling of artificial satiation in the animals that can lead to starvation.
Humans are ingesting plastics as well. According to Statista, every week people consume an amount of plastic the size of a credit card.
What makes plastic so problematic? The answer comes down to chemistry. Plastic is a polymer molecule consisting of repeating identical units (homopolymer) or different sub-units in sequences (copolymer). Plastics are further categorized as thermoplastics, which soften when heated and can be molded; or thermosets, which cannot be molded or heated.
Both types cause pollution in a marine environment.
Plastics also contain chemicals to improve their properties, that cause harm when they enter the food chain.
Although hundreds of thousands of plastic materials have been invented, only six are extensively used: polyethylene terephthalate (PETE), high-density polyethylene (HDPE), low-density polyethylene (LDPE), polyvinyl chloride (PVC-U), polypropylene (PP), and polystyrene (PS), or Styrofoam.
In the ocean, despite weathering that reduces plastics like water bottles and shopping bags to tiny particles, the original plastic polymer remains intact, unless it is converted into carbon dioxide, water, methane, hydrogen, ammonia and other inorganic compounds — a process that doesn’t happen in a marine environment.
Especially worrying are “nanoplastics” — pieces that are so tiny, they are able to penetrate human cell walls.
A distinction must be made between microplastics and nanoplastics. The former are plastic fragments up to 5 millimeters, whereas the latter are between 0.001 and 0.1 micrometers (μm). Nanoplastics are so small, they are invisible to the naked eye or even under a simple microscope.
One of the surprising facts about microplastics is how entrenched they are in the global ecosystem. They have been detected in lakes and seas, in the sediments of rivers and deltas, and in the stomachs of the smallest and largest organisms, from zooplankton to whales. One study found that every square kilometer of the world’s oceans has 63,320 plastic particles floating on the surface.
According to Food Safety magazine, microplastics are present in various food products, including seafood, as well as in bottled water. In addition, microplastics can also help introduce other contaminants to foods. Persistent organic pollutants and other toxins in water can also be attracted to these particles. Once consumed by plankton, these contaminants are passed through the food chain to small fish and eventually to humans. While their impact on human health is currently debated, high volumes of microplastics in rats have been found to cause cancer.
There are a number of ways that plastics get into the environment. Microbeads used as exfoliants in beauty products escape water filtration systems. Other primary sources include plastic powders in molding, and plastic nanoparticles in a variety of industrial processes.
The extensive and indiscriminate use of food packaging, car tires, paints, personal care products (eg. toothpaste) and electronic equipment, are some more contributors to microplastic contamination.
Microplastics can also become part of the water cycle and delivered back to Earth as rain or snow.
Scientists think that tiny particles shed by anything plastic get incorporated into water droplets when it rains, then wash into lakes, rivers and oceans. When the water evaporates, the particles can end up in groundwater. They are then consumed by animals and people via drinking water and food, or breathed in.
If nano-scale plastic has become prevalent in drinking water, oceans, rainwater, and the animals that mistakenly eat them, it’s not a stretch to say that microplastics are probably in our food.
One study looking for synthetic particles in sea turtles found microplastics in the guts of all 102 turtles that were examined. They have also been detected in quantities up to 273 particles per pound of sea salt, 300 fibers per pound of honey, and around 109 fragments per liter of beer.
Mussels and oysters harvested for eating reportedly had 0.36 to 0.47 particles per gram, meaning that shellfish consumers are ingesting up to 11,000 pieces of microplastic per year, according to Healthline.
A common way for nanoplastics to move up the food chain, is to be first consumed by algae, that is eaten by water fleas, which in turn become fish food.
The problem is not only the nano/microplastics, but the pollutants they carry with them. When plastics move through the food chain, the attached toxins also move, and accumulate in animal fat and tissue through a process called bio-accumulation. Chemicals added to the plastic during the production process can leach from the plastic into the body of the animal that has eaten them. Read more here
Potential adverse effects, at high enough concentrations, may include immunotoxicological responses, reproductive disruption, anomalous embryonic development, endocrine disruption, and altered gene expression.
While microplastics’ effects on human health have not been widely studied, it’s safe to say that inhaling or ingesting them should be avoided. This may be extremely difficult however; one study found plastic fibers in 87% of the human lungs studied.
Chemicals associated with plastics are known to be harmful. The most well-studied is BPA — found in plastic packaging or food storage containers. When BPA leaks into food it can interfere with reproductive hormones in women.
Another chemical, phthalates es, is used to make plastic flexible. The presence of phthalates in a petri dish was shown to increase the growth of breast cancer cells.
In a limited study, Canadian researchers estimated the average person ingests over 74,000 plastic particles a year. Examining just a few food categories including fish, shellfish, sugar, alcohol, honey, bottled versus tap water, plus air, the study authors found the most microplastics in air, bottled water and seafood.
Single-use plastic bans
Thankfully, the news on plastic pollution isn’t altogether bleak. While the pandemic has caused many countries to hit “pause” on their plastic recycling, re-use and reduction programs, in recent years some positive developments have taken place.
Several US jurisdictions have enacted policies on plastic pollution. In 2018 Seattle became the first US city to slap a ban on plastic straws and single-use plastic utensils. Eight states — California, Connecticut, Delaware, Hawaii, Maine, New York, Oregon, and Vermont — have banned single-use plastic bags.
Montreal banned plastic bags thinner than 50 microns in 2018, followed by bans on plastic bags and straws in the Vancouver Island communities of Victoria, Tofino and Uclulet in 2019. On the other side of the country, PEI’s Plastic Bag Reduction Act came into effect on July 1, 2019.
According to CTV News, the Canadian government’s planned ban on six single-use plastic items — shopping bags, cutlery, straws, stirs sticks, food take-out containers and six-pack rings — has been delayed to 2022.
In step with increasingly stringent government regulations on single-use plastic, the manufacturing sector has been busy developing technologies that can serve as alternatives to plastic, while maintaining many of its same characteristics.
An example of a company working in this area, one that has recently come to my attention, is Evanesce.
Evanesce Packaging Solutions Inc.
Headquartered in Vancouver, Evanesce designs and manufactures sustainable packaging solutions using the latest advancements in material science. The still-private company’s plant-based compostable packaging alternatives, which decompose in 90 days or less, are set to disrupt the industry. Its goal is to eliminate single-use plastic and Styrofoam waste in food packaging, which takes 500 years or more to decompose.
The rapidly expanding sustainable packaging market is expected to reach over US$1.2 trillion by 2028. As a solution to replace single-use plastics and Styrofoam in food services and packaging, Evanesce’s business model includes manufacturing, licensing, collaborative partnerships and joint ventures to accelerate the adoption of compostable plant-based solutions.
Targeting the $980 billion per year single-use plastics (SUP) market, Evanesce is positioning itself to be at the leading edge of the change, that is bringing forth alternatives to SUPs.
The company has set up a joint venture partnership with Minima, the world’s leading provider of polylactic acid (PLA) used to make biodegradable plastic. The Taiwanese company is led by CEO and founder Dr. Chien-Ming Huang, whose engineering prowess over the years has made him a leader in the industry, attracting some of the largest chemical and distribution company players to Minima, including China-based Formosa Plastics and Japan’s Mitsui & Co., one of the largest logistics and trading companies in the world.
Through the North American JV, Evanesce is providing a PLA technology that is 81% owned by Evanesce, and 19% by Minima. The Joint Venture has set up its first operating plant in South Carolina to manufacture straws made from corn starch, that are 100% compostable within 90 days, and will become the initial cornerstone of Evanesce’s business development.
Evanesce’s 100% plant-based, 100% compostable Molded Starch technology can be molded into a diverse range of products including meat trays, cups, food containers and five-section meal trays. Best of all, they cost half of other eco-friendly alternatives.
Its biopolymers are cheaper than paper, better than plastic and BPI-certified compostable. Its range of food service products are made with high-quality 100% plant-based resins and include straws, cups, lids, bowls, plates, cutlery and more.
In October Evanesce opened its first US production facility in Hampton County, South Carolina, where it will produce eco-friendly food service products using renewable resources such as corn starch. The 15,000-square-foot facility has the ability to manufacture millions of compostable straws per day. A second plant is planned for northern Las Vegas, Nevada.
A C$10-million financing that closed in November was the second round of funding last year, bringing the total capital raised to over C$16 million.
The North American compostable straw market is pegged at around $4 billion a year. Of that, paper straws represent about $1.4 billion. But paper straws have drawbacks that include getting soggy when wet, plus the fact that when it comes right down to it, they aren’t that green. Trees are a natural resource. Cutting them down to make paper straws may be better than letting “forever” plastic straws get into landfills, rivers and oceans, but at the end of the day, it isn’t much better for the environment. Evanesce sees the $1.4B paper straw market as an opportunity ripe for the picking. For one thing, their manufacturing costs are lower. Evanesce’s compostable straws are also more environmentally friendly, technologically more advanced, and they are better for both the companies that use them (Evanesce’s clients) and their customers.
The company currently has four machines for straw-making and it hopes to scale up to 10 by the end of the year. Within the next two years the goal is to have 14 machines up and running.
Of course, Evanesce isn’t the only company attempting to capitalize on the “greening” of the food and beverage industry, so what distinguishes them from the competition?
The answer comes down to the fact that there are a number of challenges that makers of single-use plastic alternatives face. The first is they typically need several years of engineering under their belt to come up with a product that is compostable yet stable. Second, no matter what formula is chosen for making the product, there will always be a massive requirement for raw materials.
Their partnership with Minima overcomes both challenges.
Minima has spent the last 17 years perfecting the manufacture of a full suite of single-use plastic alternatives. Their product portfolio includes straws, cups & lids for cold drinks, fast-food bowls & lids for soups, curries and the like, bags, bag liners, Saran wrap- like films for food storage, and cutlery. All of these items are fully certified and are already in production in mass quantities.
That makes Evanesce’s ramp-up to scale fast and simple, with no need for engineering and certification. These things have already been done, making it practically a turn-key operation; all they need to do is raise funds for purchasing the machinery (as mentioned the treasury sits around $16 million), install the equipment, and press “go”.
And straws are just the first step, the “low-hanging fruit,” so to speak. Considering the size of the packaging market, representing over a third (36%) of all plastic produced, and the number of single-use plastics that could be converted to plant-based compostable items, the opportunities are endless.
Evanesces Stage 2 Growth
Anyone who stops in at their local recycling depot will notice a large bin that is nearly always full. This is polystyrene, more commonly known as Styrofoam. Like single use plastics, Styrofoam plays a huge role in packaging. The white and multi-colored material is placed in boxes to protect goods especially those being shipped. Meats are sets on polystyrene trays to protect the contents before being wrapped in plastic.
It is the latter usage that Evanesce is targeting in its second product line rollout planned for this year. About 800,000 tonnes of meat packaging waste per year is produced in the UK alone. North America uses a similarly large amount. I couldn’t find a figure, but it wouldn’t surprise me to learn it’s in the billions of trays, all going through the polystyrene manufacturing process. All the big food retailers use them — Costco, Walmart, Safeway, etc.
The Styrofoam alternative Evanesce plans on making is 100% compostable but looks and feels identical to polystyrene. Using a manufacturing process known as starch fiber technology, the patent covers a wide range of fibers that are all derived from food waste — from rice and wheat husks to barley and hemp, all may be used in the starch fiber end product. The fact that food waste is so inexpensive, and plentiful, makes it an ideal source of raw materials for Evanesce.
Suppliers include large food processing companies like McCains. Under Evanesce’s patented formula, the starches are mixed with various fibers to produce a material that resembles cookie dough, which is pressed into a mold, placed on a tray and cooked on a conveyor as it passes through a large oven.
Like its straws, Evanesce’s Styrofoam alternative is cost-competitive. Evanesce won’t beat polystyrene on price, but it will be a percentage, not a magnitude, higher, making it easier to interest big meat packing companies like Tyson Foods.
The company’s goal is to to create a product that has the same properties as the meat trays, that allows high-speed packaging machines to seamlessly switch from a polystyrene to a starch-fiber product — one that is fully compostable within 60 days.
Evanesce is targeting the second half of 2022 to have its first starch-fiber machinery up and running. The equipment is being supplied by Buhler Group, one of the largest food processors in the world.
As for clients, Evanesce is getting the attention of some of the largest food distributors in North America, including Novalex, whose Eco-Products insignia is stamped on Starbucks cups, for example. Novalex has a standing order for millions of straws per week and other similar distributors have placed multi-million unit orders per week as well
The tremendous $980 Billion market opportunity is driven by the change in sweeping government regulation creating a vacuum in the market by banning single-use plastics.. Consider: Evanesce’s production lines can each manage a million straws a day,. If each production line generates $12 million a year in sales, the company’s goal of 14 lines would generate an annual $160 million just from straws alone.
Evanesce has what we at AOTH love to see in a start-up, and that is cash flow. It’s already landed major clients like Novalex, with cumulative orders exceeding their current production capacity of over 10 million straws per week. Clients will almost certainly increase their orders once the company delivers on time and with quality product. The market for plastic straws is valued at $4 billion a year. If Evanesce could capture even half of the $1.4 Billion paper straw market, with their better biopolymer straws at a better price that’s an annual $700 million.
But plastics straws are only one part of single-use plastics. There’s also the cups, lids, take-out foodware, bags, cling-film, cutlery etc. These markets must be worth billions as well and Evanesces biopolymer-based products made from food waste materials are all fully certified compostable, and scaled to mass production, formerly produced in Taiwan. With Evanesces 81% owned exclusive manufacturing joint venture transitioning to North America, huge transportation and distribution savings further assists them in being the most cost competitive alternatives in the market
And we still have to factor in Evanesces starch-fiber alternative to Styrofoam. According to a December market research report, the polystyrene market in 2020 was valued at USD$9.21 billion. It is expected to grow at a CAGR of 4.1%, reaching $13.1B by 2028. It’s a bit early to be putting a dollar figure on Evanesce’s expected Molded Starch production, but it’s got to be a very nice cash cow, to complement their alternatives to plastic business which already has anchor clients like Novalex.
I’m presenting this information early on, even before Evanesce goes public, expected in June, to give my readers a heads-up on what could be a once in a lifetime investment opportunity.
I heard about the company through Brad Aelicks President of Pyfera Growth Capital Corp, and I participated in an early financing last February. Pyfera and Aelicks led the financings the first of which in 2021 raised CAD$3.9 million, with the second one closing in October at $10.1 million. During that time shareholders exercised about $2.1 million of the warrants that were included in the first financing. In total the company’s financing package amounts to about $16 million, from which Evanesce plans to purchase the first eight straw manufacturing lines. Each line can produce approximately a million straws a day when operating on 3 shifts per day. Two production plants, one in South Carolina and the other in Las Vegas will provide central distribution points for both the mass markets along the US Eastern Seaboard and the West Coast.
Alternatives to single-use plastic is an idea whose time has come. Evanesce is clean, green, “ESG-friendly” (environmental, social and governance, the buzzword of the day). It has the right story to tell at the right time in the market. I am eagerly awaiting the IPO and will keep my readers informed of the company’s progress as it gets all its ducks in a row for commercial production of plant-based biopolymer straws this year, along with Molded Starch products including meal trays, meat trays, containers and cups.
Richard (Rick) Mills
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