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Compostable ‘bioplastics’ make inroads with consumers

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Katherine Roth, The Associated Press


Published Tuesday, February 19, 2019 10:16AM EST

Looking for an eco-friendly alternative to traditional plastics — especially single-use items like bags, straws and picnic tableware — many supermarkets and vendors are offering an array of compostable alternatives made from plant fibers or starches.

“The market for compostable products is growing at an incredible pace,” says Olga Kachook, sustainability manager for Petaluma, California-based World Centric, which makes ones geared mostly toward food services in stadiums, school cafeterias, hotels, restaurants and convention centres. Those facilities work with industrial composting facilities, which can cut their waste exponentially.

Bioplastics, as the rapidly evolving products are also known, can be made from corn, potatoes, rice, tapioca, palm fiber, wood cellulose, wheat fiber, sugar, or sometimes even shrimp shells, seaweed or algae. Not all bioplastics are compostable, but those that are can go right into one big industrial-composting bin along with food waste.

“Ultimately, all households will need to have a three-bin system, for industrial compost, recycling and waste. Consumers and companies are trying hard to identify more sustainable ways of doing things, and compostable products are an important part of the picture,” says Rhodes Yepsen, executive director of the New York-based Biodegradable Products Institute, which offers a certification ensuring that products claiming to be compostable actually are.

Items must be thin enough to be compostable. Products that are certified compostable either carry BPI’s seal of approval or are listed on the organization’s website.

The number of certified compostable products has increased by 80 per cent in the past few years, according to BPI. Many of these products, like bags, cups and dishes, are increasingly available in grocery stores.

But compostable technology is still new, and whether or not products are certified, it’s best to check with your local composting facility before adding them to the rest of your organic waste, experts agree.

Melissa Ozawa, gardening and features editor at Martha Stewart Living magazine, says, “The best thing you can do is to use reusables. Keep your own utensils at work, your own tote bag for the grocery store, glass containers for home storage. And if you decide to use bioplastics and don’t have access to a composting facility, consider joining with others in your community to try to get one. They won’t biodegrade in your home garden or in a landfill.”

Yepsen says over 5 million households already have three-bin systems.

“We have a long way to go, but it’s encouraging to think about where recycling was in the ’80s and where it is now,” he says. “That’s what’s happening now with compostables. It will take some time, but I fully expect in the next 10 to 20 years, most communities will have curbside compost pickup.”

But critics say bioplastics are no silver bullet.

“They’re not as great as they seem at first glance,” says Brett Stevens, global vice-president of material sales and procurement at the recycling company TerraCycle, based in Trenton, New Jersey.

Most households have no access to the industrial composting facilities needed to quickly break down these products, he notes. If they are tossed in with other plastics for recycling, they pollute the recycling stream, and if tossed in the trash, they aren’t much better than traditional plastic.

Compostable products “are renewable in the sense that they can be grown and regenerated again and again,” writes Tom Szaky, TerraCycle’s CEO, in his book “From Linear to Circular: The Future of Packaging” (2019, Berrett-Koehler Publishers).

“What most consumers don’t realize is that biodegradable bioplastics will break down only under the right conditions — those of an industrial composting facility. And even if that happens, they won’t contribute value to the compost, unlike coffee grounds or leaves, which have a wide range of micro- and macronutrients as well as a living ecosystem of bacteria and other microbes,” Szaky says.

If sent to an industrial-scale composting facility “with actively managed piles of compost under controlled conditions, and fed a diet of digest microbes,” compostable products will break down in less than two months, says Jeremy Kranowitz, a board member of the non-profit group Sustainable America. ” In someone’s backyard compost heap, it could easily take more than a year. If they are accidentally sent to a landfill and buried, it could take over a century. And if they go into a plastics recycling bin, they will contaminate the recycling process.”

Those promoting compostable plastics counter that plastic recycling is already problematic, since only a small fraction of plastic products make it into the recycling stream, and the market for recycled plastics is limited.

They also say that no matter where bioplastics end up, they are more sustainable to produce than traditional plastics, made from fossil fuels. And even detractors admit that if compostable products do end up in oceans, they break down more quickly than traditional plastics.

“It’s complicated,” says Yepsen. “But the composting infrastructure is slowly being built up across the country, and there’s huge potential in this.”

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More groups join in support of women in STEM program at Carleton

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OTTAWA — Major companies and government partners are lending their support to Carleton University’s newly established Women in Engineering and Information Technology Program.

The list of supporters includes Mississauga-based construction company EllisDon.

The latest to announce their support for the program also include BlackBerry QNX, CIRA (Canadian Internet Registration Authority), Ericsson, Nokia, Solace, Trend Micro, the Canadian Nuclear Safety Commission, CGI, Gastops, Leonardo DRS, Lockheed Martin Canada, Amdocs and Ross.

The program is officially set to launch this September.

It is being led by Carleton’s Faculty of Engineering and Design with the goal of establishing meaningful partnerships in support of women in STEM.  

The program will host events for women students to build relationships with industry and government partners, create mentorship opportunities, as well as establish a special fund to support allies at Carleton in meeting equity, diversity and inclusion goals.

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VR tech to revolutionize commercial driver training

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Serious Labs seems to have found a way from tragedy to triumph? The Edmonton-based firm designs and manufactures virtual reality simulators to standardize training programs for operators of heavy equipment such as aerial lifts, cranes, forklifts, and commercial trucks. These simulators enable operators to acquire and practice operational skills for the job safety and efficiency in a risk-free virtual environment so they can work more safely and efficiently.

The 2018 Humboldt bus catastrophe sent shock waves across the industry. The tragedy highlighted the need for standardized commercial driver training and testing. It also contributed to the acceleration of the federal government implementing a Mandatory Entry-Level Training (MELT) program for Class 1 & 2 drivers currently being adopted across Canada. MELT is a much more rigorous standard that promotes safety and in-depth practice for new drivers.

Enter Serious Labs. By proposing to harness the power of virtual reality (VR), Serious Labs has earned considerable funding to develop a VR commercial truck driving simulator.

The Government of Alberta has awarded $1 million, and Emissions Reduction Alberta (ERA) is contributing an additional $2 million for the simulator development. Commercial deployment is estimated to begin in 2024, with the simulator to be made available across Canada and the United States, and with the Alberta Motor Transport Association (AMTA) helping to provide simulator tests to certify that driver trainees have attained the appropriate standard. West Tech Report recently took the opportunity to chat with Serious Labs CEO, Jim Colvin, about the environmental and labour benefits of VR Driver Training, as well as the unique way that Colvin went from angel investor to CEO of the company.

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Next-Gen Tech Company Pops on New Cover Detection Test

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While the world comes out of the initial stages of the pandemic, COVID-19 will be continue to be a threat for some time to come. Companies, such as Zen Graphene, are working on ways to detect the virus and its variants and are on the forefronts of technology.

Nanotechnology firm ZEN Graphene Solutions Ltd. (TSX-Venture:ZEN) (OTCPK:ZENYF), is working to develop technology to help detect the COVID-19 virus and its variants. The firm signed an exclusive agreement with McMaster University to be the global commercializing partner for a newly developed aptamer-based, SARS-CoV-2 rapid detection technology.

This patent-pending technology uses clinical samples from patients and was funded by the Canadian Institutes of Health Research. The test is considered extremely accurate, scalable, saliva-based, affordable, and provides results in under 10 minutes.

Shares were trading up over 5% to $3.07 in early afternoon trade.

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