Author Archives: paul.wightman

About paul.wightman

Paul Wightman is the Manager of Business Development at ENSO Plastics, you can find contact information for ENSO Plastics by visiting our Contact page here on this site or by visiting www.ensoplastics.com.

Power Packed Plastic Packaging

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ENSO’s technology provides a value investment in sustainable packaging. Our material is added to standard resins (including biopolymers) at a 1% load rate during the manufacturing process, just like a colorant. There are no changes in processing parameters or any performance characteristics. However, it ensures proper performance compliance within our anaerobic waste environments. Anaerobic digesters, bioreactors and today’s modern landfills continue to be the single-most common disposal method of plastic packaging and all contribute to the energy revolution that is upon us. Within these active infrastructures we have an opportunity to reduce environmental plastic waste and recoup end-of-life value.

Waste-to-Energy (WtE) is an active and growing resource, available throughout the developing world. In the U.S. alone, ENSO’s technology provides an immediate 85% capture rate to reduce greenhouse gases and over 75% conversion of biogas into clean alternative energy. The returns are significant, measurable and applicable to greenhouse gas initiatives, energy recovery efforts and the environmental waste problem. Plus, it provides intrinsic value for consumers as well. With both world and U.S. energy demand expected to increase in the future, America’s energy resources will only grow in importance. Ensuring today’s plastics will be tomorrow’s energy is inseparable from America’s larger prospects for improved economic growth, job creation, security and quality of life.

For less than the average price fluctuation of raw material, pennies on the dollar, ENSO can put real power in your packaging. It is the most efficient way, both economically and environmentally, to elevate the end-of-life value through energy recovery. Get it out of the environment and into the grid, join the energy revolution!

To learn more, please contact ENSO Plastics.

Orange County is packing power in Landfill Gas-to-Energy

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Do it for the OC! Can you imagine the concentration of plastic packaging that’s accumulated in Orange County alone? Beyond standard recycling, did you know that Orange County has installed four Landfill Gas-to-Energy facilities? The most recent $60 million dollar investment will power 18,500 homes. Altogether, the four facilities will produce 400,000 megawatts of electricity per year, enough to power more than 50,000 homes. These projects are turning our waste into clean energy all over the country and right now they’re the single-most common disposal environment of plastic waste. Ensuring energy recovery in packaging design offers the greatest value in full-scale recycling. Get it out of the environment and into the grid, make today’s waste, tomorrow’s energy! Design for disposal.

The Top 10 and Not a 1?

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This diagram represents the top ten producers of plastic packaging. The vast majority of the plastic applications that are produced by these brands become waste. All the film packaging, pouches, diapers, detergents, hygiene products, wrappers, coffee bags, food containers and much more, that’s produced by these 10 companies accounts for an astonishing amount of the plastic waste that is certainly not being reused or recycled in any meaningful way.

We hear a lot that environmental pollution is a consumer problem. We get told how to prepare our waste for recycling. “Put this here and put that there. No! Not that, this. Well, sometimes that, but probably not. Maybe, use water and wash it out. No wait – water..? Take it here or actually take it someplace over there. Otherwise, it may need to be shipped somewhere..?” And when you stop to take a look at the results of all this effort, you’re left wondering, are you kidding me, is all this even environmental? Enough already!

News Flash: In the last 50 years, we’ve invested heavily in how we manage waste and the infrastructures we utilize. They’re very impressive works of innovation and they’re regulated for environmental efficiency at the highest level. In fact, today 85% of all U.S. municipal solid waste ends-up in an environment that converts biogas into clean energy, generating a valuable alternative resource for our growing energy needs. Some of these companies are actually using the same means to power their own manufacturing facilities! Yet, accountability for this aspect in packaging design is scarce. How is this being overlooked?

We’re now dealing with decades of plastic waste that’s been left in our environment; we see the devastating repercussions and the projected damage it will cause. Plastic production has surged to 311 million tons and is expected to double in 20 years. Currently, plastic packaging accounts for nearly a third of the total volume of plastics used, and unlikely to be recycled. By ignoring the single most common disposal method of this material, valuable energy is being wasted and continues to compound the environmental problem.

If these 10 companies took one simple step to ensure packaging design for disposal compliance, the impact would provide tremendous and measurable value, for company and community. Getting plastics out of our environment and into the grid falls on the shoulders of producers not consumers.

Ensuring energy recovery should be paramount in packaging design, it’s the only opportunity to recoup value and it should be the top consideration in packaging sustainability initiatives. It’s the missing link to creating circularity; it’s recycling at its highest peak. With an immediate 85% capture rate at the fingertips of corporate sustainability leaders, what are you waiting for?

Sustainable Packaging: Are we wasting valuable energy vilifying landfills?

Biogas is a renewable energy source that exerts a very small carbon footprint and has proven to be an extremely viable resource. The cause is indisputable and the effect holds the key to significantly advancing sustainability in plastic packaging. The cause is a process in which living organisms, microbes, breakdown organic matter in the absence of oxygen (anaerobically). The effect is an immensely valuable alternative energy resource. Although the term for what causes this process cannot be labeled on any plastic packaging or product in the State of California, our ability to design plastic applications to biodegrade in anaerobic environments is the catalyst for advancing our efforts in how we handle plastic waste. To achieve circularity, recouping end-of-life value is imperative and our energy needs are paramount. Today, our most inexpensive disposal method returns one of our greatest needs and it’s already the single most common waste stream for plastics. With our ever growing energy requirements, is it wise to continue to overlook this valuable resource?

Speaking of California, did you know that Orange County just added another landfill gas-to-energy (LFGTE) project, making it the third LFGTE facility in this immediate region? At a tune of $60 million, this highly efficient and strictly regulated facility is not only estimated to reduce CO2 emissions by approximately 53,000 tons annually, but it will also generate roughly 160,000 megawatt-hours (MWh) of electricity. Collectively, the three LFGTE operations in this one region alone produce approximately 380,000 MWh of electricity annually, enough to power some 56,000 Southern California homes.

Apple, Coca-Cola, Anheuser-Busch, BMW, General Motors, Kimberly-Clark, Mars, UPS, Pepsi and many others have harnessed this valuable resource as an important part of their competitive strategy. The US EPA and the Departments of Agriculture and Energy recognized directed biogas as an emerging technology in a December 2015 report, touting that it “offers the nation a cost-effective and profitable solution to reducing emissions, diverting waste streams, and producing renewable energy.”

Today in the United States over 85% of all municipal solid waste is disposed of into landfills that are already converting landfill gas to green energy! This energy is used to power homes, manufacturing, businesses, schools, and government facilities. These are also the same landfills that are being used to dispose of the vast majority (over 90%) of all plastics used. Think about this; what if all of the plastics being disposed of into landfills were waste-to-energy compliant and would be converted into green/clean energy? We would instantly solve the vast majority of our plastic waste problem and help solve some of our energy shortage problem, all without the need to subsidize billions of dollars.

It is irrefutable that we have the ability/technology to accelerate the biodegradation process of plastics. The question now becomes, where should this process take place? In the New Plastics Economy, the objective is to harness innovations that can scale across the system, to re-define what’s possible and create conditions for a new economy. It’s about deriving greater “end-of-life” value through the infrastructures we already have in place. Today, one of our highest priorities is alternative energy. With the vast majority of plastic waste entering anaerobic environments that control and convert biogas into clean energy, we should probably stop ignoring the elephant in the room.

For more information, please contact ENSO Plastics.

Recovery Cannot be Ignored in a Circular Economy :

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There’s about 78 million tons of plastic waste produced each year that is non-recyclable, non-reusable, already light-weighted and unavoidable. The next feasible option we have to “cycle” this material at its highest level possible is in energy recovery. Fortunately, the vast majority of this material is already entering a waste-to-energy facility and there’s no need for infrastructure or behavioral changes. For this to happen, these applications simply need to be designed conducive for anaerobic environments.

The recovery of Landfill Gas-to-Energy provides predictable results and a better value proposition for single-cycle applications than any other disposal method we have available today. As we embark on creating a “Circular Economy” we need to harness the resources available to us. The idea is to recoup, or recover, the greatest value possible within a products life-cycle, including disposal. Plastics cannot be recycled perpetually, it is not an end-of-life solution. In order to get plastics out of the environment and into the grid, it falls on producers, the brands and manufactures, to ensure its applications are designed to comply with this disposal method.

A collaborative approach is vital, yet there are still some companies, even ones who’ve pledged their commitment to creating a circular economy, that scoff at the idea. Unwilling to design for disposal and dismissing the returns of alternative energy, they stay committed to a recurrent single strategy for nearly half a century. Is it because consumers won’t understand? I doubt that, but using consumer comprehension as a litmus test in harnessing innovation may not be the best idea. Besides, as a consumer myself, I’d prefer an honest approach that provides intrinsic benefits, and less of my own involvement, to being misled that anything’s really being done at all.

Finding Circularity with Single Cycle Packaging

Let’s look at the issue of plastic waste and how we can use the circular economic model to resolve some of the problems that we face, that’s ultimately spilling into our environment. Some 300 million tons of plastic is manufactured globally each year and “plastic packaging” accounts for about 78 million tons of it. That’s 172 billion pounds of non-reusable, non-recyclable and unequivocally unaccounted for plastic waste. This includes items such as flexible packaging, films, foamed material, small items, contaminated material, complex/multi-layer applications and anything colored, where recycling and reusability are practically non-existent. These are single use, single cycle, applications. Also, there’s unanimous agreement that the vast majority of all these applications are destined for a landfill. And these are not the demonized landfills from days gone by; I’m talking about today’s modern landfills that are now energy generating power plants.

This discussion is not for the consumer, this is for the difference makers, the sustainability managers, the leaders that can make a difference. They’re the companies that, according to Extended Producer Responsibility (EPR), are to be held accountable for the post-consumer aspect of its products and packaging. I’m talking about companies like Kraft, Coca-Cola, Nestle, PepsiCo, P&G, General Mills, Johnson & Johnson, Kellogg, Mars, Unilever and all the brands under them.

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We all know, or the data tells us, that this is the single most common disposal method of all this material. It should also be known that waste-to-energy has proven to be one of our greatest resources for alternative energy. Whether it’s an anaerobic digester, a bioreactor or today’s modern landfills, most plastic packaging is ultimately ending-up in a unique anaerobic environment that is controlling and converting biogas into clean energy. Some of these companies utilize the energy from landfills, yet they haven’t put the pieces together to figure out that the very trash that their products produce could be the feedstock for the alternative energy resource they’re already harnessing. Too often, the end-of-life aspect is ignored or swept under the rug with theoretical contemplations about disposal methods that simply don’t exist and senseless confusion.

Yet, nearly all 50 states include landfill gas-to-energy as part of their green energy portfolios. It’s recognized by the United Nations, the EPA, as well as dozens of Fortune 500 companies and government organizations that all utilize energy from landfills. However, the dots just aren’t being connected. I recently asked the Director of Sustainability for one of these 10 companies about this topic and they honestly said that they’ve never heard of such a thing and can’t imagine that we’ll ever get our energy from slowly decomposing waste. Yet, three years ago this same company won top honors by the EPA as one of the largest on-site green power generators because of its use of Landfill Gas-to-Energy (LGE) to power its manufacturing facilities! Seriously, why the disconnect between what companies are doing and what companies should and could be doing to think more circular? Imagine if you will, this same company implementing landfill biodegradable packaging and then using the energy from landfill gas. This is true circular economy thinking, especially when energy needs will increase 50% in the next couple decades. Without requiring any change to the infrastructures in place today and without modifying consumer behavior, these single use applications can be designed to cycle at a higher level.

I’ve heard the idea that plastics should be made NOT to biodegrade in a landfill because one day we might want to mine for this material. This is completely asinine and assumes that we’ll have a need to mine for this material within the next couple hundred years. The reason being, plastic will eventually biodegrade, we just won’t be able to capture the gases produced if we wait too long. Instead, if these applications were designed to biodegrade within the managed timeframe of these anaerobic environments, for every million pounds of plastic waste that enters a LGE facility, it offers the equivalence of over 422,000 pounds of coal, 52,000 gallons of gasoline and more than 1100 barrels of oil, which is used to power homes and factories, as well as fueling vehicles!

The technology is readily available to make most any polymer application anaerobically biodegradable, or commonly referred to as Landfill Biodegradable. The technology does not change any processing parameters, there’s no change in any performance characteristics, and it’s not expensive. In fact, for about the price of a Tall Cappuccino, tens of thousands of Starbucks Coffee cups can be designed to biodegrade in a landfill. These multi-layer applications are not being reused or recycled, but they are going to a landfill. So what gives, is it because of the misguided concept that landfills are bad? Perhaps it’s time to reevaluate the integral role of this disposal method that rely so heavily on; a lot has changed since the 80’s. In fact, you could say that we’re now diverting 75% of all MSW away from landfills, because the type of landfills that are being vilified are becoming obsolete – quickly.

A single loop system for handling our plastic waste is impractical, circularity does not mean singularity, there’s too much at stake, too much potential, and the infrastructure is already in place so there’s no need to implement Cass Sunstein’s “nudging” tactics to change consumer behavior. Besides, the fact that none of this material can/will be recycled is not because of consumer behavior, its feasibility and market demand, and it’s just not there. A company wanting to take accountability for its packaging needs to answer one candid question: What is the common disposal method of the application? Then, do what can be done to take advantage of this fact and understand the value in having our waste integrate into our waste infrastructures instead of working against it. The facts, the science and all the data, prove that there’s an enormous opportunity being overlooked. I believe the circular economic model can work for plastics, but not if it’s simply a rebranding of the last 40+ years of rhetoric.

Sustainability with Landfilling

When considering landfills from a sustainability perspective, often the most difficult thing is to step back from the negative connotations of landfills. Too often, sustainability managers get caught in the trend of “zero landfill” because it is great marketing and it sounds like it would be more environmental. We must overcome the negative perception of landfills so we can evaluate them objectively.

The truth is always in the facts. Landfills are an important part of any sustainability strategy. Most all of the waste worldwide goes into landfills. Landfills can be the most environmentally and economically beneficial disposal options for certain items. Technology has completely changed landfills; they are not the same as they were prior to the 1980’s. And landfills are an important part of many municipal green energy initiatives.

The design and operation of landfills has completely changed over the past few decades. Landfills are now actively managed to avoid leachate absorption into the surrounding soil, to avoid air emissions and they are a valuable and consistent source of renewable energy. Modern landfills are by far the most inexpensive method to dispose of materials and they allow a means to provide economic and environmental value through the conversion of landfill gas to energy.

There is no doubt that most all plastics are disposed of in landfills. Even after 40 years of efforts to divert plastics from landfills, we still landfill over 90% of plastics. Many companies’ products and packaging will have closer to 100% landfill disposal. History has shown that we will continue to landfill plastics for a very long time and attempts to divert plastics from landfills usually causes more damage to the environment and economy than any benefit it may provide. Because of this, we must understand how to create sustainability with landfilling of plastics.

Plastics in the landfill should biodegrade during the managed life of the landfill, 2-50 years. When compostable plastics enter a landfill many will biodegrade too rapidly and the methane is released into the atmosphere and most traditional plastics biodegrade over hundreds of years meaning, again, the methane goes into the atmosphere. We must use plastics that biodegrade during the 2-50 year managed time of a landfill so the methane can be managed, collected and converted to clean energy. Once collected, the methane provides energy, fuel, and reduces the methane’s global warming effects.

Ultimately, we cannot disregard landfilling because plastics are, and will continue to be, discarded into landfills. Instead, we must design plastics that provide value in the landfill. In this way, we can create sustainability platforms that are more realistic and beneficial.

For more details, check out the Sustainability Managers Complete Guide to Plastics: http://www.amazon.com/dp/B0175AQ24K

Connecting the dots between plastic waste and renewable energy

With the recent United Nations Conference on Climate Change, there’s a lot of talk about harnessing renewable energy. Take a company like Unilever who’s committed to becoming ‘carbon positive’ by 2030. Meaning, 100% of Unilever’s energy across its operations will come from renewable sources, in just 15 years! Interesting, now let’s quickly switch gears and take a look at plastic waste and the sustainability efforts taking place there. With the advent of Extended Producer Responsibility, brands and manufacturers will be held accountable for the post-consumer stage of its product. What is the common disposal method for the majority of Unilever’s packaging and products? Well, if we’re being honest and using the facts and data available, it’s all ending-up in a landfill. Recycling comes in a distant second and composting and incineration are practically nonexistent. However, considering this new agenda Unilever proposes, is this really a negative thing? Not if someone can connect the dots.

Today, the bad thing about landfills is in name only. Perhaps we need to start referring to this single most common disposal method simply as Bioreactors. The vast majority of all MSW ends-up in “landfills” that capture and control the gases being produced in these environments and turning it into energy. This valuable resource, Landfill Gas-to-Energy, is considered the most economical form of green energy available today, even when considering the costs of hydro, solar and wind. Once converted, landfill gas can be utilized in many ways: to generate electricity, heat, or steam; as an alternative vehicle fuel; or sold on the energy market as a renewable “green” power or gas. All States in the U.S. (including California) utilize gas to energy as part of their green initiatives and companies like Mars, Dart, Toyota, Frito Lay, SC Johnson, Tyson Foods, Kimberly-Clark, Coca-Cola, Anheuser Busch, just to name a few, are already harnessing this energy resource.

If Unilever’s plastic products and packaging where designed for this specific environment, it could essentially power itself with the trash it produces. Today, we have the ability to make plastic waste naturally biodegrade in these amazing anaerobic environments, Bioreactors. The Recycling industry and the Compostable Plastics industry will continue to rail against this, but it’s time more companies rely on facts and scientific data instead of myths and emotions that simply coddle consumer’s inaccurate perceptions. Today, and in the foreseeable future, Landfills/Bioreactors will absolutely play a major role in the way we manage waste and harness renewable energy. The demonization of this fact is counterproductive to the goals being set. The power is in the hands of companies like Unilever to see beyond the status quo and implement solutions that provide accountability and viability for itself and its customers. Connecting the dots is the key to a sustainable future.

Are sustainability efforts appeasing the myth or addressing the facts?

A recent blog on LinkedIn caught my eye, “9 Take-Aways That Resonated From SPC Advance.” It was about the recent SPC Advance Conference, a GreenBlue / Sustainable Packaging Coalition members only plus guests event.

“SPC Advance is an amazing opportunity to gather different members of industry, academia, and government together to share perspectives, knowledge, and insight into sustainability,” said GreenBlue and Sustainable Packaging Coalition Executive Director, Nina Goodrich.

Sounds good, right? The who’s who of professionals, the decision makers on the environment, packaging and creating a more sustainable future… Then, you hear some of the feckless rhetoric that emerges from this brain trust and it leaves you wondering if this is just an exercise in futility.

Kim Carswell of Target commented, “Bio polymers move packaging closer to petroleum independence as part of our move to a circular economy.”

Kathleen Sayler, Assistant Director of the EPA’s Office of Resource Conservation and Recovery says that currently in the U.S. over 30% of edible food goes to waste resulting in significant social, economic and environmental costs, and it is estimated that Americans waste 141 trillion calories of food annually at a cost of over $161 billion dollars. Food production accounts for 50% of land use, 80% of freshwater consumption, and 10% of total energy use in the United States.

These two need to get together for a come to Jesus moment. Land system change is a major environmental factor and our existing use in farming is already having perilous effects on our environment. Let’s not be too quick to jump into corn, sugarcane or potatoes as something that’s going to save the planet. We should not waste food and our farming should be to feed people, not our insatiable appetite for plastic, it’s not sustainable. It’s a recipe for our economy and ecosystem to go down the circular drain.

Walmart Senior Sustainability Manager, Ashley Hall, said that customers should not have to choose between products that they can afford and products that are better for them and the environment. She emphasized Walmart’s focus on selling products in recyclable packaging, and stated that the company has made packaging made with recycled content a priority.

There is no term more ambiguous than “recyclable.” Take a walk with me down Walmart’s isles and I’ll point out all the packaging that will not be recycled. Heck, we can just visit one isle; you know the one that sells all the trash bags, tinfoil and plastic utensils and foamed plates? Next time, take a look at all the Great Value brand items, along with the other brands – none of it is being recycled. Don’t even get me started on those crappy light-weighted plastic bags that have “Recyclable” on them – nonsense. We need to start basing our actions on facts and scientific data, instead of propagated myths. If you’re going to make the claim, prove its happening. It’s long overdue that we separate facts from fiction. “Recyclable” – theoretically, and that’s the problem.

Kim Carswell, Group Manager at Target stated, “Packaging is a gateway to our consumers.” She continued saying that Target likes to give consumers alternative options for the products’ and packaging’s end-of-life instead of the materials having to go to landfill, and that Target is constantly asking how its designs influence end-of-life.

Personally, I’m not interested in trying to find a non-existent alternative option; I’m not a garbage sorter. When I buy the product, I throw away the packaging. There is nothing more counterproductive in advancing our environmental position than the demonization of landfills. Landfills are not the problem; packaging simply needs to be designed for the most common disposal method. If that’s a landfill, let’s not keep making decisions on folklore and pretending this isn’t happening. Landfill Gas to Energy is the cleanest and most inexpensive alternative energy resource available; it’s the byproduct of the biodegradation process that is coming from the natural breakdown of organic waste in this specific anaerobic environment. 80% of all municipal solid waste goes to modern landfills that control or capture this natural gas. Perhaps it would make it easier on everyone if companies like Target took genuine accountability and made all their plastic packaging Landfill Biodegradable, because it’s not getting recycled and I’m not getting in my car and taking it to my local industrial composter 80 miles away.

Amy Duquette, Sustainability Project Manager at HAVI Global Solutions, which represents the packaging department of McDonald’s, said that packaging is the consumer’s last experience with the brand, and that experience should be as positive as possible. Through mechanics such as the How2Recyle Label, brands can empower consumers to do the right thing, in this case recycle packaging.

Regulations such as Extended Producer Responsibility (EPR) are predicated on the brand/producer doing the right thing, not the consumer. The experience being created isn’t positive, it’s downright misleading! Think of all the plastic applications used at McDonald’s, the white cup, the lid, straw, utensil, packaging for utensil, condiments, all of it, IS NOT getting recycled. It’s not happening, it does not exist, stop it. EPR simply means producers will be held accountable for the post-consumer stage, not the consumer. It does not say you need to recreate a new disposal environment or champion one over the other. It starts with an easy question, where does all (minus the idiots who litter) the McDonald’s plastic applications end-up? If you said a landfill, you’re on the right track. Honesty is the best policy. Now what? That’s the path to accountability.

Al Metauro, President & CEO of Cascades Recovery, Inc. said, “Doing the same things and expecting a different outcome is insanity.” He’s absolutely right; we’ve been beating the same drum for a long time and it’s not improving our situation. These Goliaths of industry need to understand where these plastics will be disposed of and implement solutions based on that environment and, as Laura Koss, Assistant Director of the Federal Trade Commission, points out:

Be as specific as possible.
Make environmental claims clear and prominent.
Don’t make qualifications about those claims only in asterisks and in tiny print.
Be honest about what your product represents and does not represent.
In the FTC’s eyes, it’s all about what a “reasonable consumer” might think about an on-package claim.

It’s absolutely unreasonable to take landfills out of the equation. Today, modern landfills are energy generating power plants and the vast majority of all of our waste ends-up in this managed and profitable environment. Let me emphasize this important and critical fact: today, nearly every State within the United States (including Alaska) already implements landfill gas to energy programs and each of these States count that energy creation as part of its green energy efforts. This is already an infrastructure that is in place and it’s a proven resource. Spinning our wheels to create more programs and new infrastructure such as for recycling, composting, incineration, etc. will bear a significant environmental and economic cost to implement.

A recent study, “Plastics: Establishing the Path to Zero Waste” provides the most comprehensive and informative look at plastic disposal today and the environmental, economic and social impact of landfilling, recycling, composting and incarnation. The only way organizations will truly reach sustainability with plastics is if they take a step back look at the entire picture and evaluate the facts.

Let’s stop promoting environmental fairytales, get the science and data to make decisions about environmental solutions that will have the greatest positive impact today and begin doing something productive. We must strongly evaluate concepts such as bioplastics, recycling and compostable plastics that have no positive impact to our environment; show me the data!!! It’s time for these Big Boys to put their big-boy pants on and take responsibility and accountability for what’s actually happening. Let’s get past trying to just make the consumer “feel good,” progress feels good.

Looking Beyond the Borders for Plastic Pollution Solutions

Plastics rock! In a brief moment, if you focus on the role of plastic in our lives, it’s incredible all the applications we use it to our benefit. Unfortunately, the end-of-life for most plastic is hundreds of years away, if not longer, a fundamental problem. Over the course of the last few years I’ve had the privilege of playing a role in the Sustainability efforts of numerous producers of plastic. I’ve heard about their attempts at previous technologies, their struggles of processing and performance, the regulatory quagmire they face, what they’re trying to hang their hat on now and everything under the sun and including the sun.

During this time, I’ve also been privy to some remarkable advancement in technologies and I’m amazed at the innovations that are available today as well as what is on the horizon. It’s that focus on what tomorrow brings that truly provides a synergistic sustainable solution for a company. It’s about implementing a solution that understands that plastic, and the issue of plastic waste, is not an island unto itself. We must look beyond the borders to see the true possibilities, the interaction of multiple elements and cooperative action. It’s why ENSO applauds the efforts and recent announcement by NatureWorks, for recognizing the possibilities beyond its current technology. The silver bullet may not exist today, but with concerted efforts, we can move closer and closer to the goal. The value proposition of methane capturing is far beyond any of its counterparts and it is increasingly being recognized as a more logical and fundamentally sound platform to adopt.

Methane, despite the perceived negative connotations, is one of our most inexpensive and cleanest energy resources. This naturally produced gas can be used either in combustion engines or for conversion to electricity. To include the possibility of harnessing methane for plastic production would be a huge game changer. It is why current technologies such as ENSO RESTORE®, which proves to accelerate the natural biodegradation process in landfill environments, are being sought after. Many initiatives being touted today are simply incapable of proportionally meeting the increased production rate of plastic. What may appear to be “green” in theory essentially remains inadequate at meeting the greater objective of a cleaner planet. It is why ENSO RESTORE® provides a significantly more dynamic solution to stand behind when it comes to adopting technologies that support sustainability goals. Beyond bans and regulations, the objective is to provide a clear end-of-life solution in any plastic application (PET, HDPE, LDPE, PE, PP, EVA, PS, nitrile, rubber or latex); otherwise, we’re merely offering lip service in addressing the plastic waste in our environment.