To polyester or not to polyester

19 04 2016

Give our retail website, Two Sisters Ecotextiles, a look and let us know what you think.

We are pondering about whether to sell polyester fabrics – largely because people are insisting on it. And there is a lot of polyester being produced:

polyester production

But, when (or if) we sell polyester fabric or blends, we have determined that the fabric must be GRS Gold level certified polyester, because:

  1. GRS is to synthetics as GOTS is to natural fibers.  It is our assurance:
    1. that there is water treatment in place,
    2. that no toxic additives are used as process chemicals, and no finishes (such as fire retardants or stain repellants) are added to the fabric,
    3. and that workers have basic rights.
  2. GRS provides verified support for the amount of recycled content in a yarn. It provides a track and trace certification system that ensures that the claim a fabric is made from recycled polyester can be officially backed up. Today, the supply chains for recycled polyester are not transparent, and if we are told that the resin chips we’re using to spin fibers are made from bottles – or from industrial scrap or old fleece jackets  – we have no way to verify that.  Once the polymers are at the melt stage, it’s impossible to tell where they came from.  So the yarn/fabric could be virgin polyester or it could be recycled.   Many so called “recycled” polyester yarns may not really be from recycled sources at all because – you guessed it! – the  process of recycling is much more expensive than using virgin polyester.  Unfortunately not all companies are willing to pay the price to offer a real green product, but they sure do want to take advantage of the perception of green.   So when you see a label that says a fabric is made from 50% polyester and 50% recycled polyester – well, (until now) there was absolutely no way to tell if that was true. In addition,

The Global Recycle Standard (GRS), originated by Control Union and now administered by Textile Exchange (formerly Organic Exchange), is intended to establish independently verified claims as to the amount of recycled content in a yarn, with the important added dimension of prohibiting certain chemicals, requiring water treatment and upholding workers rights, holding the weaver to standards similar to those found in the Global Organic Textile Standard:

  • Companies must keep full records of the use of chemicals, energy, water consumption and waste water treatment including the disposal of sludge;
  • All prohibitied chemicals listed in GOTS are also prohibited in the GRS;
  • All wastewater must be treated for pH, temperature, COD and BOD before disposal (It’s widely thought that water use needed to recycle polyester is low, but who’s looking to see that this is true?  The weaving, however, uses the same amount of water (about 500 gallons to produce 25 yards of upholstery weight fabric) – so the wastewater is probably expelled without treatment, adding to our pollution burden)
  • There is an extensive section related to worker’s rights.

Polyester is much (much, much, much!) cheaper than natural fibers and it wears like iron – so you can keep your sofa looking good for 30 years. The real question is, will you actually keep that sofa for 30 years?

There is still a problem with the production of synthetics. Burgeoning evidence about the disastrous consequences of using plastic in our environment continues to mount. A new compilation of peer reviewed articles, representing over 60 scientists from around the world, aims to assess the impact of plastics on the environment and human health [1] But synthetics do not decompose: in landfills they release heavy metals, including antimony, and other additives into soil and groundwater. If they are burned for energy, the chemicals are released into the air.

Also please keep in mind, that, if you choose a synthetic, then you bypass the benefits you’d get from supporting organic agriculture, which may be one of our most potent weapons in fighting climate change, because:

    1. Organic agriculture acts as a carbon sink: new research has shown that what is IN the soil itself (microbes and other soil organisms in healthy soil) is more important in sequestering carbon that what grows ON the soil. And compared to forests, agricultural soils may be a more secure sink for atmospheric carbon, since they are not vulnerable to logging and wildfire. The Rodale Institute Farming Systems Trial (FST) soil carbon data (which covers 30 years) demonstrates that improved global terrestrial stewardship–specifically including regenerative organic agricultural practices–can be the most effective currently available strategy for mitigating CO2 emissions.
    2. It eliminates the use of synthetic fertilizers, pesticides and genetically modified organisms (GMOs) which is an improvement in human health and agrobiodiversity
    3. It conserves water (making the soil more friable so rainwater is absorbed better – lessening irrigation requirements and erosion)
    4. It ensures sustained biodiversity

We’re not great fans of synthetics: Polyester is made from crude oil, and is the terminal product in a chain of very reactive and toxic precursors.   The manufacturing process requires workers and our environment to be exposed to some or all of the chemicals produced during the manufacturing process. There is no doubt that the manufacture of polyester is an environmental and public health burden that we would be better off without.

But there is a great quantity of existing polyester on this Earth, and there is only so much farmland that is available for cotton and other fiber crops, even though we have enough land to grow all the food and fiber we like, at least in theory.[2]

The biggest drawback to polyester production is that it requires a lot of energy, which means burning fuel for power and contributing to climate change. But to put that in perspective, Linda Greer, director of the health program at the Natural Resources Defense Council, says you actually release more carbon dioxide burning a gallon of gas than producing a polyester shirt.

However factories where polyester is produced which do not have end-of-pipe wastewater treatment systems release antimony along with a host of other potentially dangerous substances like cobalt, manganese salts, sodium bromide, and titanium dioxide into the environment.

In theory, cotton is biodegradable and polyester is not. But the thing is, the way we dispose of clothing makes that irrelevant. For cotton clothes to break down, they have to be composted, which doesn’t happen in a landfill.

The bottom line is that while the rise of polyester is not good news for the planet, a big increase in cotton production wouldn’t be any better, according to many sources: Both fabrics are created in huge factory plants, both go trough multiple chemical processes to make the final product, and both will be shipped around the globe.         (https://www.sewingpartsonline.com/blog/411-cotton-vs-polyester-pros-cons/)

But we keep returning to one point: there are already polyester bottles in existence. World demand for polyester in 2014 was a bit more than 46 million tons.[3] Only a small percentage of that is used for bottles, but that’s still a lot of bottles – in the United States, more than 42 billion bottles of water (only water!) were produced in 2010.[4] Doesn’t it make sense to re-use some of these bottles?

Mulling over the possibilities. Let us know how you feel.

[1] “Plastics, the environment and human health”, Thompson, et al, Philosophical Transactions of the Royal Society, Biological Sciences, July 27, 2009

[2] Atkisson, Alan, “Food, Fuel and Fiber? The Challenge of Using the Earth to Grow Energy”, December 2008, worldchanging.com

[3] Carmichael, Alasdair “Man made Fibers Continue to Grow”, Textile World, http://www.textileworld.com/Issues/2015/_2014/Fiber_World/Man-Made_Fibers_Continue_To_Grow

[4] http://www.container-recycling.org/images/stories/BUfigures/figure-pngs-new/figure4.png





Global Recycle Standard update

1 05 2012

Textile Exchange, which administers the new Global Recycle Standard, has introduced what it says is a “minor but important” change in GRS version 2.1, according to the April/May 2012 issue of Ecotextile News.  (If you’re wondering what the Global Recycle Standard is all about, please see our blog post on the subject:  click here .)

The new change removes the allowance for the use of pre-industrial waste.  The Version 2.1 will only recognize pre-consumer and post-consumer waste.  This change was made because the Textile Exchange has determined that pre-industrial waste does not meet the Federal Trade Commission requirement for recycled input – which is that in order to be considered a recycled input, it must have been diverted from the waste stream.  An example of such pre-industrial waste that does not meet the criteria for being diverted from the waste stream is that of short cotton fibers which fall out of cotton during the spinning process;  the fibers are scooped up and re-introduced into the spinning process.  In terms of polyester, an example would be that of a manufacturer collecting plastic pellets that have spilled onto the manufacturing floor, washing them and then feeding them directly back into the same manufacturing process without reprocessing.

Both of these examples are considered an efficient manufacturing procedure and standard industry practice, not recycling.

Interpreting these pre-consumer recycled content claims can get very specific and technical.  Underwriters Laboratory has published a handy White Paper entitled  “Interpreting Pre-Consumer Recycled Content Claims: Philosophy and Guidance on Environmental Claims for Pre-Consumer Recycled Materials”.(1)

The new GRS standard becomes effective June 1, 2012.  All companies being newly certified to the GRS will be required to use the new GRS v.2.1, while companies with existing GRS v2 certification will be able to maintain their current status until the end of the validity date of their certification.

Textile Exchange is currently working on Version 3 of the GRS, and they say it will be more stringent than the current version, with further refining of definitions for inputs that can be claimed as recycled input and additional requirements for chemical inputs.

(1)  http://greenerul.com/pdf/ULE_whitepaper_July2010.pdf





Global Recycle Standard

9 09 2011

It looks like the plastic bottle is here to stay, despite publicity about bisphenol A  and other chemicals that may leach into liquids inside the bottle.   Plastic bottles (the kind that had been used for some kind of consumer product) are the feedstock for what is known as “post-consumer recycled polyester”. Even though plastic recycling appears to fall far short of its promise,  recycled polyester, also called rPET, is now accepted as a “sustainable” product in the textile market, because it’s a message that can be easily understood by consumers – and polyester is much cheaper than natural fibers.   So manufacturers, in their own best interest, have promoted “recycled polyester” as the sustainable wonder fabric, which has achieved pride of place as a green textile option in interiors.

We have already posted blogs about plastics (especially recycled plastics) last year ( to read them, click here, here or here ) so you know where we stand on the use of plastics in fabrics.  All in all, plastic recycling is not what it’s touted to be. Even if recycled under the best of conditions, a plastic bottle or margarine tub will probably have only one additional life. Since it can’t be made into another food container, your Snapple bottle will become a “durable good,” such as carpet or fiberfill for a jacket. Your milk bottle will become a plastic toy or the outer casing on a cell phone. Those things, in turn, will eventually be thrown away.  Even though the mantra has been “divert from the landfill”, what do they mean?  Divert to where?

But the reality is that polyester bottles exist,  and recycling some of them  into fiber seems to be a better use for the bottles than land filling them.

Recycled post consumer polyester is made from bottles – which have been collected, sorted by hand, and then melted down and formed into chips (sometimes called flakes).

PET resin chips


These chips or flakes are then sent to the yarn spinning mills, where they’re melted down, often mixed with virgin polyester,  and  and spun into yarn, which is why you’ll often see a fabric that claims it’s made of 30% post consumer polyester and 70% virgin polyester, for example.

Polyester yarn

But today the supply chains for recycled polyester are not transparent, and if we are told that the resin chips we’re using to spin fibers are made from bottles – or from industrial scrap or old fleece jackets  – we have no way to verify that.  Once the polymers are at the melt stage, it’s impossible to tell where they came from.  So the yarn/fabric could be virgin polyester or  it could be recycled.   Many so called “recycled” polyester yarns may not really be from recycled sources at all because – you guessed it! – the  process of recycling is much more expensive than using virgin polyester.  Unfortunately not all companies are willing to pay the price to offer a real green product, but they sure do want to take advantage of the perception of green.   So when you see a label that says a fabric is made from 50% polyester and 50% recycled polyester – well, (until now) there was absolutely no way to tell if that was true.

Along with the fact that whether what you’re buying is really made from recycled yarns – or not – most people don’t pay any attention to the processing of the fibers.  Let’s just assume, for argument’s sake, that the fabric (which is identified as being made of 100% recycled polyester) is really made from recycled polyester.  But unless they tell you specifically otherwise, it is processed conventionally.

What does that mean?    It can be assumed that the chemicals used in processing – the optical brighteners, texturizers, dyes, softeners, detergents, bleaches and all others – probably contain some of the chemicals which have been found to be harmful to living things.  In fact the chemicals used, if not optimized, may very well contain the same heavy metals, AZO dyestuffs and/or finish chemicals that have been proven to cause much human suffering.

It’s widely thought that water use needed to recycle polyester is low, but who’s looking to see that this is true?  The weaving, however, uses the same amount of water (about 500 gallons to produce 25 yards of upholstery weight fabric) – so the wastewater is probably expelled without treatment, adding to our pollution burden.

And it’s widely touted that recycling polyester uses just 30 – 50% of the energy needed to make virgin polyester – but is that true in every case?

There is no guarantee that the workers who produce the fabric are being paid a fair wage – or even that they are working in safe conditions.

And finally there are issues specific to the textile industry:

  • The base color of the recyled chips varies from white to creamy yellow.  This makes it difficult to get consistent dyelots, especially for pale shades, necessitating more dyestuffs.
  • In order to get a consistently white base, some dyers use chlorine-based bleaches.
  • Dye uptake can be inconsistent, so the dyer would need to re-dye the batch.  There are high levels of redyeing, leading to increased energy use.
  • PVC is often used in PET labels and wrappers and adhesives.  If the wrappers and labels from the bottles used in the post-consumer chips had not been properly removed and washed, PVC may be introduced into the polymer.
  • Some fabrics are forgiving in terms of appearance and lend themselves to variability in yarns,  such as fleece and carpets; fine gauge plain fabrics are much more difficult to achieve.

As the size of the recycled polyester market grows, we think the integrity of the sustainability claims for polyesters will become increasingly important.  There has not been the same level of traceability for polyesters as there is for organically labeled products.  According to Ecotextile News, this is due (at least in part) to lack of import legislation for recycled goods.

One solution, suggested by Ecotextile News, is to create a tracking system that follows the raw material through to the final product.  This would be very labor intensive and would require a lot of monitoring, all of which adds to the cost of production – and don’t forget, recycled polyester now is fashion’s darling because it’s so cheap, so those manufacturer’s wouldn’t be expected to increase costs.

There are also private standards which have begun to pop up, in an effort to differentiate their brands.  One fiber supplier which has gone the private standard route is Unifi.   Repreve™ is the name of Unifi’s recycled polyester – the company produces recycled polyester yarns, and (at least for the filament yarns) they have Scientific Certification Systems certify that Repreve™ yarns are made with 100% recycled content.  Unifi’s  “fiberprint” technology audits orders across the supply chain  to verify that if Repreve is in a product it’s present in the amounts claimed.  But there are still  many unanswered questions (because they’re  considered “proprietary information” by Unifi)  so the process is not transparent.

But now, Ecotextile News’s  suggestion has become a reality.   There is now a new, third party certification which is addressing these issues.  The Global Recycle Standard (GRS), originated by Control Union and now administered by Textile Exchange (formerly Organic Exchange),  is intended to establish independently verified claims as to the amount of recycled content in a yarn, with the important added dimension of prohibiting certain chemicals, requiring water treatment and upholding workers rights, holding the weaver to standards similar to those found in the Global Organic Textile Standard:

  • Companies must keep full records of the use of chemicals, energy, water consumption and waste water treatment including the disposal of sludge;
  • All prohibitied chemicals listed in GOTS are also prohibited in the GRS;
  • All wastewater must be treated for pH, temperature, COD and BOD before disposal;
  •  There is an extensive section related to worker’s rights.

The GRS provides a track and trace certification system that ensures that the claims you make about a product can be officially backed up. It consists of a three-tiered system:

  • Gold standard –  products contain between 95 percent to 100 percent recycled material;
  • Silver standard – products contain between 70 percent to 95 percent recycled product;
  • Bronze standard –  products  have a minimum of 30 percent recycled content.

I have long been concerned about the rampant acceptance of recycled polyester as a green choice  when no mention has been made of processing chemicals, water treatment or workers rights, so we welcome this new GRS certification, which allows us to be more aware of what we’re really buying when we try to “do good”.