Tag Archives: PLA

The Truth Shall Set You Free

We produce well over 200 billion pounds of plastic each year.  This is a well-documented environmental issue of grim proportions; plastic is literally trashing our planet.  Brands, manufactures and consumers are fully aware and the search for solutions is in full swing.  Fortunately, our awareness has spurred incredible technological advances to address this problem, some better than others.

As a brand, being environmentally accountable is a trait that serves well in the marketplace.  It’s a hallmark that projects the greater good.  But in a Cass Sunstein meets George Orwell world,  where the FTC, EPA, FDA, IRS, (insert acronym),  are watching your every move and new terms such as Extended Producer Responsibility emerge, it can be paralyzing to make that technological decision.  You want to choose something that is justifiable, reliable and proven.

In a small microcosm of the larger issue, we catch a glimpse of the efforts and problems we face.  In a recent article Coffee Makers wrestling with recyclability of single-serve pods,  TerraCycle is boasting about recovering 25 million coffee capsules over the last couple years, but has essentially found no use for them.  Are we to understand that companies are paying TerraCycle to collect and store these things in some warehouse?  Add to this, according to the article, 41 million adults drink a coffee made in a single-cup brewer every day.  So in a two year effort, TerraCycle could not recover a single days’ worth of coffee capsules?  Clearly, the Customary Disposal Method for this application is the garbage, in other words, the Landfill.   Let’s not jump on a bandwagon for the sake of waiving a green flag, the overall effect is useless.

Here’s one, California is now floating a new Bill to put the burden on companies to find solutions for plastic waste in our waterways.  The same State that bans the claim of biodegradable materials (and has sued companies legitimately making those claims), is now requiring brands and manufacturers to seek out and implement biodegradable solutions?? Are they expecting producers to put their necks on the line in search for innovation? Good luck taking that bait!

Unfortunately, the principle concern of environmental safety is being contaminated with agendas that have not proven capable of long term sustainability.  There is a tendency to gravitate towards colorful Green language instead of clear, black and white solutions.  Today, we have the capability to address plastic pollution on an incredible scale, without contamination.  Unfortunately, too many producers are paralyzed with uncertainty or are turning to the least point of resistance.

A perfect example is the less than bold stand that one of the largest producers of bottled water took, “Lightweighting”.  Holy crap! That’s it?  Reduce your costs and provide a rigid bag for a bottle?  C’mon…the “commitment to minimizing the environmental impact” is lackluster., considering 50 billion plastic water bottles end up in U.S. landfills each year.

Here’s my humble opinion.  Within a generation, we have witnessed the birth of the plastic EVERYTHING.  We began filling-up our Landfills with EVERYTHING and noticed NOTHING was reprocessing back into nature.   The raging river of plastic is pouring onto our planet and we place the majority of this material in Landfills.   There is a biodegradation process in Landfills that is beaming with potential and we have the proven ability to produce, capture and harness one of the most inexpensive and cleanest energy resources and fundamentally address our plastic pollution problem.

Recycling is an industry I support, but the numbers don’t lie and the goal is not to prop-up one particular industry, it’s to clean our planet.  We need to stop kidding ourselves and start dealing with reality.  I also understand Sourcing from renewable resources, but harvesting Corn for plastic in order to claim “Compostable” is absolutely wrong.  I’ve lived in many places over the years and I have yet to find my local Industrial Composting facility.  But if I did, I would respectfully not bring them my plastic waste.  Let’s face it, you can claim it, but it’s not going there and where it is going, this technology does nothing.   For those adding metal into the equation, this technology is borderline criminal.  That probably explains the parasitic tendencies of this technology in underdeveloped countries.  Both of these technologies have an adverse effect on our Food Source/Supply, which alone is highly irresponsible.

When making the decision on how to be accountable for your Plastic Footprint, know what is out there, get the full story and get the proof that it performs as claimed.  If you stand in the light of truth, you will be safe.  70% is greater than 30%, 2+2=4, what’s right is right.

Biodegradable Plastic – Compostable Not So Fast Says Stanford Daily

There was a recent press release issued by Media Juice titled “Biodegradable Plastic – Compostable Not So Fast Says Stanford Daily.”  The press release reviews a study performed by students at Stanford University regarding compostable utensils and their performance in “real world” environments.

The study points out that what the company markets as a compostable PLA material and the “Compostable” certifications that organizations (such as BPI Biodegradable Products Institute) issue on the material is not necessary a reflection of what happens in real world environments.

This brings up a great point and discussion topic and one ENSO has pushed for the past five years and that is that we are mistaken in our approach to promoting, marketing or pushing materials that will go away in any real world environment in a specific timeframe.    Even the much touted and pushed material of PLA is not a rapidly compostable as is promoted in marketing materials.  Sure, we can create test environments which are highly controlled and manipulated that will maximize biodegradation and provide results that look and sound great, but the variety that nature brings in the real world can mean a huge difference in the amount of time needed for a product to biodegrade, from months to even years. This does not change the fact of whether a product is biodegradable, just simply that to dictate exactly when it will biodegrade is a bit misleading to the consumer.

So yes – labs can show specific time frames for biodegradation, but what happens when that same material ends up in real world environments?  9 times out of 10, it doesn’t perform as promised.  So, what does this mean?  How can a material tested and certified by industry organizations such as BPI not perform when introduced into real world natural environments?  After all legislators are passing laws based on such certifications.

We would love to hear your thoughts on the subject.

http://www.sbwire.com/press-releases/biodegradable-plastic-compostable-not-so-fast-says-stanford-daily-225526.htm

http://forkprintproject.wordpress.com/

http://www.news.pitt.edu/news/Landis_polymers_LCA

http://new.ensoplastics.com/theblog/?p=1143

 

Community for Biodegradable Plastics

The “Green” movement is growing at a breakneck speed. Brands are positioning themselves around their environmental initiatives in many ways, but whatever they do, addressing their use of plastic seems to be the most prevalent step in having a greener footprint on the environment. Unfortunately, there is a lot of misinformation and confusion in the marketplace about this subject. It seems like every time you turn around there is a new ban or an extreme move to address the use of plastic and it’s as if nobody really knows what to do at this point. But it’s my understanding that the advancements in new technologies are what we should really be focusing on embracing and bringing to market. I appreciate groups like the Community for Biodegradable Plastics that allow an open forum to discuss this matter. If you find yourself looking for answers to questions about biodegradable plastics and technology then this is the place where you can find them.

 

AT&T uses renewable plastic packaging

When it comes to plastic packaging it accounts for a huge chunk of our worlds single use plastic waste. Switching to a better alternative like plastic made with a renewable source is great. However when it comes to landfills/recycling….plastics like PLA corn plastics will act as traditional plastic. PLA acts wonderfully if placed into a industrial compost facility where it will be compostable but unfortunately a majority of people to not have access to these facilities. I am happy to hear that they will be using a renewable source for their plastic, but I wish the plastic would also be biodegradable in landfill like ENSO plastics. Let me know what you think! Leave a comment below dont forget to share this on facebook & twitter!

 

AT&T to use sugarcane, cut petroleum, in plastic packaging

Posted on September 13, 2011 at 5:45 am by Simone Sebastian in Ethanol, Biofuels, Petrochemicals

 

AT&T will start packaging its cell phone accessories in bio-plastic instead of petroleum-based plastic next month, the telecom company announced this week.

AT&T says the change is its latest effort to reduce the company’s carbon footprint. While the new plastic packaging will contain petroleum, up to 30 percent will be manufactured from plant materials, the company said in a statement.

While most plastics are manufactured from petroleum products like ethane and propane, technological advances have made plant-based plastics more widely available. Like biofuels, bioplastics are manufactured from agricultural crops, like corn and sugarcane.

AT&T said it will start using sugar cane ethanol to produce some of its plastic packaging beginning Oct. 2.

Jeff Bradley, AT&T’s senior vice president for devices, said in a statement the company will be the first in its industry to use plant-based plastic packaging for consumer products.

“We are actively working with our accessory suppliers to incorporate both less packaging and more sustainable plastic and paper,” Bradley said.

The company cut 500 tons of paper and plastic by shrinking its packaging in 2010 and 2011, according to the written statement, and has used soy and vegetable-based ink for some of its accessories cases.

Plastic Bags get Recovered

I think that it is wonderful that stores will be reclaiming plastic bags from consumers. In this particular case I wonder if the bags will be recycled or what action will be taken. If single use bags must be biodegradable, depending on whether they can biodegrade in a landfill or biodegrade in a industrial compost consumers must be informed so the proper disposal method will be taken. Too often do consumers see the word biodegradable on a label and assume that if the product is thrown in the trash it will biodegrade. Products made with ENSO will definitely biodegrade in a landfill however PLA products must be taken to an industrial composting facility, if not they will just sit in a landfill like traditional plastic. As a consumer do you desire for more accurate labeling/claims on products? Have you ever been misinformed about a green product because of their marketing claims/labeling? If you have any examples please share them with me! If a store offered a program where you could return your bags would you take advantage of it? Check out the article, and let me know what you think in the comment box below!

 

 

Measure boosts plastic bag ban

By CHARISSA M. LUCI
August 27, 2011, 3:31pm

MANILA, Philippines — The campaign to ban non-biodegradable plastic bags got a big boost after the House of Representatives approved on third and final reading a bill requiring the store owners to provide biodegradable plastic bags to customers.

To be known as the Plastic Bag Regulation Act of 2011, House Bill 4840 is an initiative to address the impact of climate change.

Under the bill, stores are mandated to implement an in-store recovery program in which the customers can return the plastic bags they had used.

“The recovery system will lead citizens to exert effort and give their due share in protecting the environment by bringing used plastic bags to stores and commercial establishments which in turn shall provide the logistics for recovery of these plastic shopping bags,” Caloocan City Rep. Oscar Malapitan, the bill’s principal author, said

HB 4840 also provides that the bags must have a logo showing that they are biodegradable, with a printed note saying “lease return to any store for recycling.”

Under the measure, all business establishments shall have their own plastic bag recovery bins, which shall be visible and accessible to the customers.

For their part, the local government units (LGUs) shall be tasked to collect, recycle and dispose of all plastic bags recovered by the stores.

“The State must ensure that contaminants to the environment, such as plastic and plastic bags, be prevented from being introduced into the ecosystem,” Cagayan de Oro Rep. Rufus Rodriguez, who co-authored the bill, said.

It is expected that after the implementation of the HB 4840, there will be a phase out of non-biodegradable plastic bags within three years.

ACC demands positive marketing towards plastic bags


Group alleges ACC influenced comments about plastics in Calif. curricula

PLASTICS NEWS REPORT
Posted August 22, 2011

WASHINGTON (Aug. 22, 2:35 p.m. ET) — An investigative reporting team alleges that the American Chemistry Council pressured educational officials in California to revise a section of an environmental curriculum to present positive information about plastic shopping bags.

Washington-based ACC says the allegation “distorts and misrepresents” what took place during a public comment period.

The California EPA also issued a statement, saying that all revisions to the Education and Environment Initiative curriculum were made for “accuracy and educational value” and “thoroughly vetted.”

California Watch, a reporting initiative of the Center for Investigative Reporting, claims that Gerald Lieberman, a private consultant hired by California school officials, added a new section to the 11th-grade teachers’ edition textbook called “The Advantages of Plastic Shopping Bags,” with the title and some of the textbook language inserted almost verbatim from letters written by the chemistry council.

California Watch posted the report on its website on Aug. 19.

The group also alleges that Lieberman added a workbook section that asks students to list some advantages of plastic bag, and that the correct answer in the revised teachers’ edition is that “plastic shopping bags are very convenient to use. They take less energy to manufacture than paper bags, cost less to transport and can be reused.”

The claim by California Watch “distorts and misrepresents public process and the role the ACC played in it,” said Steve Russell, ACC’s vice president of plastics. “When CalEPA developed its curricula, the agency … posted an invitation [for public comment] on draft versions of the curricula.”

“We submitted comments in response to the state’s public solicitation for input,” Russell said. “The purpose of our comments was to correct factual inaccuracies and to present a more complete view of plastic bags’ environmental attributes, including their benefits, which were absent from the draft. Our comments, and those of all other stakeholders, were submitted via email and through an online form on CalEPA’s website.”

Lieberman is director of the State Education and Environment Roundtable, a nonprofit group developed by 16 state departments of education to enhance environmental education in schools. He declined to comment on his role in editing the textbook, and referred Plastics News to CalEPA, which defended the EEI curriculum.

“We stand by the integrity of the EEI Curriculum and the open and transparent process in which it was created,” said Lindsey VanLaningham, director of communications for CalEPA. “The curriculum was thoroughly vetted by all appropriate state agencies and was ultimately approved (unanimously) by the California State Board of Education.”

“Throughout the development process, the state made revisions to the curriculum based on two primary factors: (1) accuracy; and (2) educational value,” said VanLaningham. “Teacher feedback supports our belief that the EEI engages students on issues of vital importance to them and their environment, including the role of plastic in our society.”

Regardless, state Sen. Fran Pavley, D-Santa Monica, author of the 2003 legislation that requires that environmental principles and concepts be taught in the state’s public schools, plans to write ask CalEPA officials to tweak the current text to remove language that portrays plastic bags in a favorable light.

The curriculum covers science, history, social studies and the arts, and weaves in environmental principles and concepts. It is currently being tested at 19 school districts that include 140 schools and more than 14,000 students. And an additional 400 school districts have signed up to use it, according to Cal-EPA.

In its letter to CalEPA dated Aug. 14, 2009, ACC said that it felt the lesson plan on Mass Production, Marketing and Consumption in the Roaring Twenties was “extensive in its inaccuracies and bias about plastic and plastic bags.

“The ACC takes exception to the overall tone, instructional approach and the lack of solutions offered — most especially, the lack of mention of the overall solution of plastic recycling,” wrote Alyson Thomas, a senior account executive with Ogilvy Public Relations Worldwide, who submitted the letter on behalf of ACC.

“We recommend that the list of concerns related to plastic bags be balanced with a measured response regarding efforts … to promote the recycling of plastic bags,” ACC said.

Plastic bags are referred to as “litter” in the text, ACC said. “To be clear, plastic bags don’t start as litter. They can become litter through behavioral actions leading to inappropriate disposal.”

The new text incorporated that view, as it now says that plastic bags “can become litter,” instead of calling them litter as the original version.

According to California Watch, the first teachers’ edition also had been highly critical of plastic shopping bags, noting the long decomposition rate of the bags and their threat to marine life and ocean health.

That information remains in the text, but a section on the benefits of plastic bags was added, after ACC made its comments.

“To counteract what is perceived as an exclusively negative positioning of plastic bags issues, we recommend adding a section entitled “Benefits of Plastic Shopping Bags,” ACC said in its letter.

It suggested that the text point out that plastic grocery bags require 70 percent less energy to manufacture than paper ones, that lightweight plastic bags save space and fuel in transport, and that paper bags are reusable, and also can be recycled and made into new plastic bags, and plastic lumber for decking, park benches and picnic tables.

“We recommend adding text referring to the second life of plastic products, and the increase in the recycling of plastic bags,” ACC said. “Recovered plastic bags and wraps can be recycled into many products, including backyard decking, fencing, railings, shopping carts and new bags.”

PET bottles Sink or Swim?

Read the below article and it got me thinking. What’s interesting is that PET (what bottles are made of) does not float…even if it fragments. The plastics that are swishing around in the Garbage patch are not PET bottles and a lot of people do not realize that. I definitely do not think that just because bottles, or PET sink, that that is not pollution because its still there. But there are SO many other products out there…medicine bottles, laundry bins, storage containers, scissor handles,trash cans,caps, product packaging, etc. why is always the “bottles” that get pointed out? I think its important for people to make changes in their habits/lifestyles to better the earth…but until companies make the decision to do so as well, a lot of us will find it almost impossible to avoid all of the plastic that we accumulate. We need solutions, that will work…no green washing…so companies and consumers can make the right decisions about the earth friendly products they will implement in their lives.

 

 

 

Plastic: It’s what’s for dinner

Posted by on August 19, 2011

Conservation of mass often applies to college-level physics problems: in a closed system, mass can neither be created nor destroyed. In the case of the Great Pacific Garbage Patch – a gigantic section of the ocean littered with an unusually high amount of man-made trash — the system is clearly not closed. Yet conservation of mass is almost precisely what we see, both in the Pacific and Atlantic Oceans: more than 20 years of waste plastic studies in these oceans have demonstrated that the garbage patches are neither growing in size nor shrinking. They have conserved their mass. While plastic production rates have skyrocketed, as well as human consumption of plastic-contained goods, the plastic masses in these oceanic gyres (very large circular current patterns spanning thousands of miles) are incontrovertibly the same now as they were in the 1980s.

 

Interesting. If the rate at which plastic enters the patch has increased while the total mass of the patch has remained constant, then there must have been a corresponding increase in the rate at which plastic leaves the patch, to balance. Some scientists have hypothesized that the depths of the oceans act as plastic “sinks” from which waste never returns. If this were true, huge collections of settled ocean plastic debris should be established across the world. But for all their efforts, scientists have not been able to locate such sinks. With no evidence to support the ocean sink hypothesis, researchers have been looking for alternative answers for decades. What they have recently found may surprise you.

In a recent article appearing in Nature News, marine chemist Tracy Mincer and colleagues at the Woods Hole Oceanographic Institution (WHOI) reported the observation of oceanic bacteria actively consuming bits of plastic recovered from ocean gyres. At a glance, their result are not so shocking. After all, we have long known that microbial communities can (slowly) degrade plastic in landfills, over many years. However, it had been previously thought that the ocean gyres were too nutrient-poor to sustain substantial bacterial colonies. Therefore, the group’s findings help shed light on what has been a rather intriguing puzzle to scientists.

Scanning electron micrograph of the same sheet of plastic shown above reveals millions of plastic-eating bacteria

Of course, all scientists know that by answering one question, hundreds more arise. Most importantly, currently no one knows what chemical compounds microbes degrade plastic into. They could be biologically benign compounds, or they could be toxic. Concentrated breakdown of plastic into toxic compounds in ocean gyre masses, or landfills, could spell eventual disaster for local ecological communities. Through biological magnification, toxins can be stored inside animals’ bodies. As prey is consumed at higher and higher levels up the food web, the largest predators end up with the highest concentrations of toxins – think the bald eagle and DDT. Then multiply the issue by the size of the Great Pacific Garbage Patch, which is swirling away inside the largest ecosystem on the planet.

Whatever scientists determine about the toxicity of the microbial degradation products of plastic, the rest of the conserved mass of floating plastic will still be there. If we continue our current plastic consumption as societies, then billions of micron-sized particles of human trash will continue to float in our oceans for decades or centuries, just flinking along while fish, whales, and seabirds consume them for dinner. Of course, we can also clearly see that preventative measures would have a profound effect here: if we actively reduce the mass of plastic entering the system while microbial degradation activity remains high, then the total mass of plastic in the oceanic gyres will also decrease. In other words, your actions today directly contribute to the health of our oceans in the future.

I urge you to think about consumption habits that you can change, like carrying a reusable water bottle instead of purchasing bottled water. I never go anywhere without my half-liter Nalgene. Also, you will be happy to know that the I Heart Tap Water campaign is well underway here at UC Berkeley. You can find campus water bottle filling stations on a Google map here.

It’s your choice. You can either let ocean microbes struggle to clean up our oceans for us, or you can actively prevent the contamination of our water with plastic debris by choosing to reduce your plastic consumption and recycling as much as possible.

PET bottles, Sink or Swim?

Read the below article and it got me thinking. What’s interesting is that PET (what bottles are made of) does not float…even if it fragments. The plastics that are swishing around in the Garbage patch are not PET bottles and a lot of people do not realize that. I definitely do not think that just because bottles, or PET sink, that that is not pollution because its still there. But there are SO many other products out there…medicine bottles, laundry bins, storage containers, scissor handles,trash cans,caps, product packaging, etc. why is always the “bottles” that get pointed out? I think its important for people to make changes in their habits/lifestyles to better the earth…but until companies make the decision to do so as well, a lot of us will find it almost impossible to avoid all of the plastic that we accumulate. We need solutions, that will work…no green washing…so companies and consumers can make the right decisions about the earth friendly products they will implement in their lives.

 

 

Plastic: It’s what’s for dinner

Posted by on August 19, 2011

Conservation of mass often applies to college-level physics problems: in a closed system, mass can neither be created nor destroyed. In the case of the Great Pacific Garbage Patch – a gigantic section of the ocean littered with an unusually high amount of man-made trash — the system is clearly not closed. Yet conservation of mass is almost precisely what we see, both in the Pacific and Atlantic Oceans: more than 20 years of waste plastic studies in these oceans have demonstrated that the garbage patches are neither growing in size nor shrinking. They have conserved their mass. While plastic production rates have skyrocketed, as well as human consumption of plastic-contained goods, the plastic masses in these oceanic gyres (very large circular current patterns spanning thousands of miles) are incontrovertibly the same now as they were in the 1980s.

 

Interesting. If the rate at which plastic enters the patch has increased while the total mass of the patch has remained constant, then there must have been a corresponding increase in the rate at which plastic leaves the patch, to balance. Some scientists have hypothesized that the depths of the oceans act as plastic “sinks” from which waste never returns. If this were true, huge collections of settled ocean plastic debris should be established across the world. But for all their efforts, scientists have not been able to locate such sinks. With no evidence to support the ocean sink hypothesis, researchers have been looking for alternative answers for decades. What they have recently found may surprise you.

In a recent article appearing in Nature News, marine chemist Tracy Mincer and colleagues at the Woods Hole Oceanographic Institution (WHOI) reported the observation of oceanic bacteria actively consuming bits of plastic recovered from ocean gyres. At a glance, their result are not so shocking. After all, we have long known that microbial communities can (slowly) degrade plastic in landfills, over many years. However, it had been previously thought that the ocean gyres were too nutrient-poor to sustain substantial bacterial colonies. Therefore, the group’s findings help shed light on what has been a rather intriguing puzzle to scientists.

Scanning electron micrograph of the same sheet of plastic shown above reveals millions of plastic-eating bacteria

Of course, all scientists know that by answering one question, hundreds more arise. Most importantly, currently no one knows what chemical compounds microbes degrade plastic into. They could be biologically benign compounds, or they could be toxic. Concentrated breakdown of plastic into toxic compounds in ocean gyre masses, or landfills, could spell eventual disaster for local ecological communities. Through biological magnification, toxins can be stored inside animals’ bodies. As prey is consumed at higher and higher levels up the food web, the largest predators end up with the highest concentrations of toxins – think the bald eagle and DDT. Then multiply the issue by the size of the Great Pacific Garbage Patch, which is swirling away inside the largest ecosystem on the planet.

Whatever scientists determine about the toxicity of the microbial degradation products of plastic, the rest of the conserved mass of floating plastic will still be there. If we continue our current plastic consumption as societies, then billions of micron-sized particles of human trash will continue to float in our oceans for decades or centuries, just flinking along while fish, whales, and seabirds consume them for dinner. Of course, we can also clearly see that preventative measures would have a profound effect here: if we actively reduce the mass of plastic entering the system while microbial degradation activity remains high, then the total mass of plastic in the oceanic gyres will also decrease. In other words, your actions today directly contribute to the health of our oceans in the future.

I urge you to think about consumption habits that you can change, like carrying a reusable water bottle instead of purchasing bottled water. I never go anywhere without my half-liter Nalgene. Also, you will be happy to know that the I Heart Tap Water campaign is well underway here at UC Berkeley. You can find campus water bottle filling stations on a Google map here.

It’s your choice. You can either let ocean microbes struggle to clean up our oceans for us, or you can actively prevent the contamination of our water with plastic debris by choosing to reduce your plastic consumption and recycling as much as possible.

 

 

Target T.V. Ads “Go Green”

It’s always exciting when a big company that has such a influence on consumers decides to make earth friendly changes. Target is teaming up with EcoSet (eco-consulting firm) to make their television commercials more earth friendly. For example, on set, they’re using PLA utensils….I just hope they are discarding of those in a industrial compost facility! Read the article below to learn what other changes Target is making to their t.v. advertisements . Do you think these changes are enough, or do you think they could do better? Let me know in the comment box below!- Megan Bentley

 

Target and EcoSet: TV Commercials Can Be Green Too

By Merlin Miclat on Mon, 08/15/2011 – 1:27pm

Many retailers these days have made significant progress in reducing their impacts on the environment. From implementing alternative energy to fuel their operations to carrying eco-friendly products, retailers are increasingly going green. However, Target and eco-consulting firm EcoSet, are taking it further by making television ads eco-friendly as well.

Target, which already carries a number of eco-friendly products, has teamed up with EcoSet to produce TV advertisements that are more environmentally responsible. The firm claims to have the ability to prevent 90% of waste produced on the set from ending up in landfills without interfering or costing production crews time or extra money. Also, since TV ad shoots last only a few days, crews usually do not take the time or put in the effort to clean up after the shoot. With tight schedules, why clean up if it takes up as much time as the shoot itself? This is where EcoSet comes in.

EcoSet is comprehensive in achieving its goals. On the set, there is not a single plastic water bottle; everyone is given a reusable, stainless steel water container. For Target shoots, everyone gets a red bottle labeled with a Target logo. Filtered water dispensers are provided for everyone to refill their water containers when necessary. How many times do people open a water bottle, take a sip, put the bottle down somewhere, leave, then come back and wonder which bottle was theirs? Then, just to be safe, they open up a new, sealed water bottle, and might repeat the whole process again. The use of reusable water containers and water dispensers would help eliminate this problem, which wastes water and plastic.

EcoSet also provides numerous recycling solutions. Waste from the set and office are recycled. Hazardous and electronic waste are also properly disposed of or recycled.

EcoSet also has composting bins to compost any food waste, which can be a big problem. In some cases, this problem has prompted groups to launch campaigns against production crews that waste food. For instance, Australian chef Matt Moran was angered when the prosciutto-wrapped chicken dish he prepared as a demonstration was tossed into the trash by a crew member.

Although the profanity-laced incident was admittedly staged, it emphasizes the problem with food waste. Chef Moran later explained, “I was more than happy to be involved in something so controversial if it meant that the message of food waste would be brought to the top of Australians’ minds.” Food waste can be used as compost; however, some chefs, especially those that spend much time and effort putting together dishes they are proud of, may be irked at the sight of their labors being composted and used to feed plants instead of being enjoyed by people.

Speaking of food, all dishware and utensils used on the set are either reusable or plant-based. Plant-based utensils are composed of renewable materials such as rice, corn, potatoes, and sugarcane. These utensils will biodegrade within 100 days, compared with traditional plastic utensils that take hundred or even thousands of years to decompose, taking up space in ever crowding landfills. These plant-based utensils usually conform to DIN CERTCO, ASTM, and ISO standards, assuring that they actually decompose in a timely manner as claimed.

Lastly, EcoSet has helped Target donate construction materials that are no longer needed on the set to various art and education organizations. Materials have been used for a variety of projects. Cindy Saucedo Smith, program coordinator for the organization ArtStart, has seen kids use materials such as silver cooling tubes as part of robot costumes. Says Smith, “The kids can go crazy when they see stuff like that, so we’ll hold on to it for the fall and see if there are suggestions for eco-costumes.”

As retailers may launch TV ads that claim how environmentally responsible they are, it is even better if producing these ads are green as well.

Better labeling for Bio plastics

This article discusses an array of trending concerns in the plastics  market, give it a read!

Waste Management World

Report Calls for Better Labeling of Bioplastics

 

The European Commission’s DG Environment’s news service, Science for Environment Policy, has published a new report which outlines a roadmap for environmentally-friendly plastic design and the development of biodegradable plastics, as well as policy options to maximise benefits.

With such an enormous volume of plastic product sold on the world’s markets, an inevitable knock on consequence is an equally huge volume of plastics entering the waste stream, or in some cases escaping the waste stream and entering the environment, said the report.

One particular concern raised was ‘plastic soup’, which exists in the world’s oceans and seas, containing everything from large abandoned fishing nets to plastic bottles, to miniscule particles.

However, according to the report, the redesign of plastic products, both at the scale of the individual polymer and in terms of the finished product’s design, could help alleviate some of the problems associated with plastic waste. The authors claimed that thoughtful development and redesign could have an impact at all levels of the hierarchy established by the European Waste Framework Directive: prevention, re-use, recycle, recovery and disposal.

 

U.S. Government Launches Waste Electronics Strategy

The U.S. government has launched its National Strategy for Electronics Stewardship, which provides recommendations on steps the Federal government, businesses and citizens can take toward tackling the problem of used electronics. It is to target the goals identified by President Obama, of protecting human health and the environment from the potentially harmful effects of the improper handling and disposal the almost 2.5 million tons (2.27 million tonnes) of used electronics that is discarded in the U.S each year.

The announcement also included the first voluntary commitments made by Dell, Sprint and Sony to the U.S. Environmental Protection Agency’s (EPA) industry partnership, aimed at promoting the environmentally sound management of used electronics.

According to the administration, the strategy will:

  • Promote the development of more efficient and sustainable electronic products
  • Direct Federal agencies to buy, use, reuse and recycle their electronics responsibly
  • Support recycling options and systems for American consumers
  • Strengthen America’s role in the international electronics stewardship arena.

Under the strategy, the EPA and the General Services Administration (GSA) will remove products that do not comply with energy efficiency or environmental performance standards – from the information technology purchase contracts used by Federal agencies, and will ensure that all electronics used by the Federal government are reused or recycled properly.

Standards

In addition, the GSA said that it will promote the development of new environmental performance standards for categories of electronic products not covered by current standards. Several Federal agencies will work together to identify methods for tracking used electronics in Federal agencies to move toward reuse and recycling.

Key components of this strategy include the use of certified recyclers, increasing safe and effective management and handling of used electronics in the United States and working with industry in a collaborative manner to achieve that goal. As a first step in this effort, EPA Administrator Lisa P. Jackson has signed a voluntary commitment with Dell Inc. CEO Michael Dell and Sprint CEO Dan Hesse to promote a U.S. based electronics recycling market. Representatives of Sony Electronics also committed to improving the safe management of used electronics.

According to the EPA, the collaboration with industry is aimed at encouraging businesses and consumers to recycle their electronics with certified recyclers, and for electronic recyclers to become certified. There are two existing domestic third-party certification recycling entities, R2 and E-Stewards, and the electronics recycling industry is increasingly embracing these programs.

“A robust electronics recycling industry in America would create new opportunities to efficiently and profitably address a growing pollution threat,” said Jackson.

Reaction

John Shegerian, co-founder, chairman and CEO of Electronic Recyclers International (ERI) welcomed the announcement, and was encouraged to see the Federal government leading the way by establishing a policy to utilise only certified recyclers for its electronics processing, increase U.S. jobs, and reduce harm from U.S. exports of e-waste.

“As an R2 and e-Stewards certified company, ERI supports the safe handling and recycling of electronics here in the U.S. and abroad and looks forward to working with the Federal government in promoting scientific and technological developments to improve the electronics recycling process and maximise the recovery of valuable materials from discarded electronics,” he explained.

Meanwhile, Willie Cade, CEO, PC Rebuilders & Recyclers was also optimistic about the strategy’s potential to create jobs in the U.S.: “This will prove to be a very successful jobs creation and sustainability or ‘Green’ program…This is the first comprehensive sustainability strategy in our nation’s history,” he added.

Robin Wiener, president of the Institute of Scrap Recycling Industries (ISRI) commented on the Federal government’s position as the largest source of used and end-of-life electronics, and its commitment to lead by example in ensuring that it is the nation’s “most responsible” consumer of electronics.

“We are encouraged by the Obama Administration’s flat dismissal of burdensome and overreaching legislation that would ban exports and pull the rug out from under an industry that continues to create jobs and contribute to both the U.S. and global economy,” he said.

in brief

U.S. Study to convert landfill gas to hydrogen

BMW has launched the first phase of a program to validate the economic and technical feasibility of converting landfill gas into hydrogen.

BMW’s manufacturing plant in South Carolina is using hydrogen fuel cells to power nearly 100 material handling vehicles. If this is successful, follow-up phases of the project will provide infrastructure to use hydrogen to fuel the company’s entire fleet of material handling equipment.

UK: Waste to Energy Facility Given Go-Ahead

A 269,000 tonne capacity waste to energy facility has been granted planning permission near Ipswich, UK. The Environment Agency has issued the necessary draft permit for the site – effectively giving SITA UK the green light to proceed. Building work is due to start later this year and the plant is expected to be operational by December 2014.

The 25-year contract will be awarded by Suffolk County Council.

GM and ABB Demonstrate Battery Re-Use

General Motors and ABB Group have offered a potential solution to the problem of what to do with the lithium-ion battery packs used in a growing number of electric and hybrid vehicles, as those vehicles reach the end of their lives.

According to GM, the battery packs used in its Chevrolet Volt will have up to 70% of life remaining after their automotive use is exhausted. Earlier this year, GM signed a definitive agreement with ABB Group, a power and automation specialist, to identify joint research and development projects that would reuse the Volt’s battery systems.

The partners claim to have demonstrated an energy storage system that combines electric vehicle battery technology and a grid-tied electric power inverter. The companies are building a prototype that could lead to battery packs storing energy, including wind and solar energy, and feeding it back to the grid.

The system could store electricity from the grid during times of low usage to be used during periods of peak demand, saving customers and utilities money. The battery packs could also be used as back-up power sources during outages and brownouts.

– Turn to page 41 to read a summary of the report ‘Recycling of Li-ion Batteries: Trends and Challenges of the Future.

Scrap Industry Worth $90 Billion to U.S. Economy

The economic and environmental impact of the scrap recycling industry in the U.S. has been highlighted in a report from the Institute of Scrap Recycling Industries (ISRI).

The study, undertaken by John Dunham and Associates and commissioned by ISRI looks at different kinds of economic activity such as jobs and exports, at the national, state and congressional district levels. According to ISRI, the economic analysis shows that the industry creates over 137,000 direct jobs, rising to more than 459,000 jobs when the wider economic impacts are taken into account. In addition, the industry generates $10.3 billion in tax revenues for governments across the U.S. as well as delivering environmental benefits.

The industry also generates significant export revenue for the U.S. The report claimed that approximately 34% of the scrap materials processed in the United States are exported to over 155 other countries for manufacture into new products. This generates nearly $30 billion in export sales, significantly helping the U.S. balance of trade.

The total economic activity generated by scrap recycling in the U.S. exceeds $90.6 billion, according to ISRI, making the industry similar in size to the nation’s forestry and fishing industries combined.

in brief

U.S. Investment in New E-Waste Facilities

Garb Oil & Power Corporation has formed a joint venture with ACG Consulting to build seven e-waste recycling facilities within the next three years, with the first planned to break ground in South Florida in March of 2012. Garb said that it intends to start work on a new e-waste recycling facility every four months thereafter, at various sites in the U.S.

Haiti: Recycling Enterprise Initiative Launched

A ‘cash for recyclables’ program has been launched in Port-au-Prince, Haiti. The social enterprise project – Ramase Lajan – which means ‘picking up money,’ will expand the collection of plastics to create permanent jobs through a network of independently owned and operated neighbourhood collection centres. The initiative has been launched by Executives Without Borders, in partnership with CSS International Holdings and Haiti Recycling.

UK Wood Waste Down as Demand Rises

Largely due to reduced activity in the construction industry, wood waste arisings in the UK have fallen by 10% since 2007, according to the Waste & Resources Action Programme’s (WRAP) recently published Wood Market Situation Report.

Arisings from the construction industry showed a 13% decrease, while arisings from the furniture and joinery sectors fell by 23% and total arising fell from 4.5 million tonnes to 4.1 million tonnes between 2007 and 2010.

However, WRAP said that an increase in the amount of wood waste being used in the biomass sector has more than doubled over the same period to 500,000 tonnes in 2010. The total amount of wood waste recycled or used in energy recovery in the UK increased to 2.3 million tonnes in 2010 – more than half of all wood waste arisings. Exported wood waste has also increased, rising to almost 200,000 tonnes in 2010.

A combination of these factors has been reflected in lower gate fees for wood recyclers since early 2009. The report claimed that while recovered wood arisings are likely to grow gradually as the economy recovers, rising demand may put further downward pressure on gate fees.

Growing demand and falling supply have led to lower gate fees Credit: WRAP

Marcus Gover, director of the Closed Loop Economy at WRAP, said: “It’s easy to put the decrease in wood waste arising down to a reduction in construction activity during the recent economic downturn, but it’s also important to note that the construction industry – one of the biggest contributors to wood waste arising – has also taken proactive steps to reduce the amount of wood they send to landfill.”

According to WRAP, the introduction of site waste management plans in April 2008 requires construction companies to plan, monitor and measure the waste generated on site, as well as industry commitments such as Halving Waste to Landfill, launched by WRAP in 2008, have also had an impact.

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