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Photo: akiragiulia, Pixabay
05.01.2024

Research to reduce shed of microplastics during laundering

A collaboration between Deakin University researchers and Australia’s largest commercial linen supplier Simba Global is tackling a critical global issue, the spread of harmful microplastics through our laundry.

Clothing and textiles are estimated to generate up to 35 per cent of the microplastics found in the world’s oceans, making them one of the biggest contributors. But there is still a lot to be learnt about the characteristics of these microplastics and exactly how and why they are generated.

Researchers at the ARC Research Hub for Future Fibres in Deakin’s Institute for Frontier Materials (IFM) have teamed up with Simba Global, a global textile manufacturing and supply company, to better understand the extent and type of microplastics shed when their products are laundered. Simba Global wants to lead the charge to reduce the environmental impact of textiles.

Lead scientist IFM Associate Professor Maryam Naebe said working with an industry partner on the scale of Simba Global meant the research could have a huge real-world impact.

A collaboration between Deakin University researchers and Australia’s largest commercial linen supplier Simba Global is tackling a critical global issue, the spread of harmful microplastics through our laundry.

Clothing and textiles are estimated to generate up to 35 per cent of the microplastics found in the world’s oceans, making them one of the biggest contributors. But there is still a lot to be learnt about the characteristics of these microplastics and exactly how and why they are generated.

Researchers at the ARC Research Hub for Future Fibres in Deakin’s Institute for Frontier Materials (IFM) have teamed up with Simba Global, a global textile manufacturing and supply company, to better understand the extent and type of microplastics shed when their products are laundered. Simba Global wants to lead the charge to reduce the environmental impact of textiles.

Lead scientist IFM Associate Professor Maryam Naebe said working with an industry partner on the scale of Simba Global meant the research could have a huge real-world impact.

Simba Global is the major linen supplier to Australia’s hospitals, hotels and mining camps, resulting in 950,000 tonnes of textile products – including bedsheets, bath towels, scrubs and much more – going through the commercial laundering process each year. It also supplies international markets in New Zealand, Singapore and the US.

“As part of our research, we will investigate potential solutions including the pre-treatment of textiles to reduce the shedding of microplastics, or even increasing the size of the plastics that break down so they can be better captured and removed by filtration during the laundering process,” Associate Professor Naebe said.

“Microplastics are now ubiquitous in the environment, they’re in the air we breathe, the food we eat and the earth we walk on. The magnitude of the problem is bigger than previously thought.

“Of serious concern is the mounting evidence that microplastics are having a negative impact on human and animal health. There are not just physical, but chemical and biological impacts.”

Associate Professor Naebe’s team have taken the first steps in the project, analysing wastewater samples from commercial laundries with high-powered electron microscopes in their Geelong laboratory, part of the largest fibres and textiles research facility in Australia.

The team recently presented a new scientific paper at the Association of Universities for Textiles (AUTEX) Conference 2023, which started the important process of formally categorising these types of microplastics, as well as developing standard terminology and testing methods.

“Because our understanding of microplastics is still in its infancy, we needed to start right at the beginning,” Associate Professor Naebe said.

“We need to have a standard definition of what is a microplastic. Up to this point that has been lacking, which makes it difficult to compare and incorporate other studies in this area.

“We are now developing a systematic method for sampling and identifying microplastics in laundry wastewater. It has been tricky to measure the different sizes, but this is important information to have. For example, there are studies that suggest some sizes of microplastics are causing more issues in certain animals.

“The next step will be establishing an essential method to prevent the release of microplastics from textile laundering. This may involve a coating on the surface of the textile or better ways to collect the waste during the washing process.”

Simba Global Executive Chair Hiten Somaia said the company had a strong focus on sustainability, driven by the business’ purpose statement.

“We are proud to partner with Deakin University in what is the first significant research into textile microplastic pollution in Australia. What we are most excited about is sharing the results of this research with all other textile markets in Australia – including clothing – and putting an end to microplastic pollution from textiles.”

Source:

Deakin University

HeiQ Skin Care Photo HeiQ
21.11.2023

HeiQ launches a probiotics infused textile technology

HeiQ introduces a 100% biobased and long-lasting cosmetic finishing technology for textiles to the market. The newest addition to the HeiQ portfolio harnesses the power of active probiotics and selected prebiotics to enhance the skin microbiome, turning the human’s largest organ into the best-looking one.

HeiQ Skin Care is a synbiotic textile finish aimed at providing a balanced microbiome for glowing skin, even after repeated use and washing of textiles. Unlike conventional products, HeiQ Skin Care utilizes slow-release prebiotics and probiotics seamlessly integrated into a biobased textile matrix, enriching the skin's microbiome diversity, and offering long-lasting cosmetic benefits.

The synergistic combination of prebiotics and probiotics, known as synbiotics, delivers a soothing cosmetic skin treatment while relaxing, working, or sleeping. Probiotics not only restore and improve the skin's natural balance but also enhance its self-repair capabilities. Synbiotics promote skin renewal, rebalancing, and improved appearance, reducing the signs of aging and establishing a favorable environment for the skin's natural repair mechanisms.

HeiQ introduces a 100% biobased and long-lasting cosmetic finishing technology for textiles to the market. The newest addition to the HeiQ portfolio harnesses the power of active probiotics and selected prebiotics to enhance the skin microbiome, turning the human’s largest organ into the best-looking one.

HeiQ Skin Care is a synbiotic textile finish aimed at providing a balanced microbiome for glowing skin, even after repeated use and washing of textiles. Unlike conventional products, HeiQ Skin Care utilizes slow-release prebiotics and probiotics seamlessly integrated into a biobased textile matrix, enriching the skin's microbiome diversity, and offering long-lasting cosmetic benefits.

The synergistic combination of prebiotics and probiotics, known as synbiotics, delivers a soothing cosmetic skin treatment while relaxing, working, or sleeping. Probiotics not only restore and improve the skin's natural balance but also enhance its self-repair capabilities. Synbiotics promote skin renewal, rebalancing, and improved appearance, reducing the signs of aging and establishing a favorable environment for the skin's natural repair mechanisms.

A second skin that takes care of the first
The skin, the largest organ in human body, is home to a diverse community of microorganisms called the skin microbiome. It plays a crucial role in maintaining good skin condition, acting as a protective barrier against harmful agents. However, various factors, such as hormones, diet, smoking, environmental exposures, and excessive UV radiation, can disrupt its balance, leading to skin conditions like rashes, acne, psoriasis, rosacea, skin irritation, redness, eczema, and odor. Maintaining a balanced skin microbiome is essential for preserving skin integrity.

HeiQ Skin Care is suitable for all textile fibers, both natural and synthetic, and can be applied to all textile items that come in direct contact with the skin. This versatility makes it an ideal choice for daily use- at work, during sports, leisure activities, or as bedding items like bed sheets and pillows.

Intensive wear trials conducted during the development stage have proven the consistent release of synbiotics (prebiotics and probiotics) onto the skin, creating conditions to foster a well-balanced microbiome.

 

Source:

HeiQ

(c) Carbios
05.05.2023

Carbios accelerates enzyme optimization

  • Carbios has developed an ultra-high throughput microfluidic screening of PET-depolymerizing enzymes in partnership with the Paul Pascal Research Center[1], a joint research unit of the CNRS[2] and the University of Bordeaux
  • Microfluidics enables millions of enzymes to be screened in a day, compared with a few thousand a week with conventional technologies
  • Future polymers of interest will benefit from this acceleration of the R&D phase, enabling Carbios to develop its portfolio of innovations on different types of plastic more rapidly

Carbios has accelerated its enzyme screening process with a microfluidic technology developed in partnership with the Paul Pascal Research Centre (a joint research unit of the CNRS and the University of Bordeaux, which specializes in microfluidics). This technology enables the screening of millions of enzymes in just one day, speeding up the process to optimize enzymes breaking down PET.

  • Carbios has developed an ultra-high throughput microfluidic screening of PET-depolymerizing enzymes in partnership with the Paul Pascal Research Center[1], a joint research unit of the CNRS[2] and the University of Bordeaux
  • Microfluidics enables millions of enzymes to be screened in a day, compared with a few thousand a week with conventional technologies
  • Future polymers of interest will benefit from this acceleration of the R&D phase, enabling Carbios to develop its portfolio of innovations on different types of plastic more rapidly

Carbios has accelerated its enzyme screening process with a microfluidic technology developed in partnership with the Paul Pascal Research Centre (a joint research unit of the CNRS and the University of Bordeaux, which specializes in microfluidics). This technology enables the screening of millions of enzymes in just one day, speeding up the process to optimize enzymes breaking down PET. This competitive advantage enables Carbios to reduce the time between the R&D phase and the production of its proprietary enzymes, and therefore to develop concrete solutions to plastic pollution even faster.

Microfluidics
Microfluidics allows the production of devices handling very small amounts of liquid. Each droplet generated can be considered as an independent microreactor having a volume in the picoliter range (10-12 liters) and containing a particular enzyme whose PET depolymerization activity will be screened. These droplets move through analysis units the size of a microchip allowing ultra-high throughput screening of 150 enzymes per second.

Previously, conventional robotic systems allowed screening in microplate format with a volume in the milliliter range (10-3 liters) and with rates of around one enzyme per minute.

The use of microfluidics to screen for more efficient or new enzymes will become widely adopted in the coming years, therefore accelerating the development of bioprocessing. Currently used by Carbios for the development of its PET depolymerization process, microfluidics should be used to accelerate the development of new enzymes for other types of plastic such as polyamide.

Carbios researchers specialized in microfluidics
Microfluidic processes require special expertise. At present, two researchers at Carbios are dedicated to microfluidics and based in the cooperative laboratory with TBI[3] hosted by INSA[4] Toulouse.  Alexandra Tauzin, Researcher in Enzyme Engineering and Microfluidics, and Alexandre Gilles, Engineer specialized in robotics, work in partnership with the Paul Pascal Research Center.

[1] Centre de Recherche Paul Pascal (CRPP)
[2] Centre National de la Recherche Scientifique (CNRS) = National Center for Scientific Research
[3] Toulouse Biotechnology Institute
[4] National Institute of Applied Sciences

More information:
Carbios plastics Enzyme polymers
Source:

Carbios

(c) Devan Chemicals NV
03.01.2023

Devan launches new allergen control technology at Heimtextil

Belgian textile innovator Devan Chemicals will launch Purissimo® NTL, a biobased and readily biodegradable allergen control technology, at the upcoming Heimtextil trade show in Frankfurt (January 10-13, 2023). It is based on probiotic encapsulation technology and can be applied to textiles during the finishing stage of the textile manufacturing process. Purissimo® NTL cleans up pet dander, pollen and house dust mite allergens in textiles throughout the home.

Purissimo® NTL is based on Devan’s already well-established probiotics, incorporated into a new microcapsule shell. The shell is based on a natural crosslinked biobased polymer, which results in microcapsules that are up to 97% biobased and readily biodegradable (OECD 301B).

Belgian textile innovator Devan Chemicals will launch Purissimo® NTL, a biobased and readily biodegradable allergen control technology, at the upcoming Heimtextil trade show in Frankfurt (January 10-13, 2023). It is based on probiotic encapsulation technology and can be applied to textiles during the finishing stage of the textile manufacturing process. Purissimo® NTL cleans up pet dander, pollen and house dust mite allergens in textiles throughout the home.

Purissimo® NTL is based on Devan’s already well-established probiotics, incorporated into a new microcapsule shell. The shell is based on a natural crosslinked biobased polymer, which results in microcapsules that are up to 97% biobased and readily biodegradable (OECD 301B).

Firstly, dormant probiotic bacteria (spores) are encapsulated. The microcapsule product is then integrated into textiles. Friction opens the capsules and releases the spores. The spores absorb humidity, self-activate and start to multiply. The probiotic bacteria start to consume the allergens that cause allergic reactions and asthma. Due to lower allergen concentration, individuals with respiratory allergies such as house dust mite matter, pet allergens and pollen allergens will have milder to no symptoms and hence a better well-being feeling.

Purissimo® NTL can be used on a wide range of textiles such as mattresses, pillows, bedcovers, blankets but also upholstered furniture, carpets, curtains and public transportation and pet items, such as bedding. It is Oeko-tex® compliant, has a long-lasting effect and a wash durability up to 30 washes is achievable.

Source:

Devan Chemicals NV

(c) DiloGroup
18.06.2021

DiloGroup: Huafon Microfiber orders high capacity needling lines

Huafon Microfiber Co. Ltd. has placed orders for three complete, state-of-the-art high capacity needling lines with DiloGroup for its new plant in Qidong, Jiangsu Province, China. The lines will be shipped to Huafon this year.

All these lines consist of DiloTemafa high capacity blending systems, DiloSpinnbau special card feeding systems and high capacity carding machines, DiloMachines high speed crosslappers with special air-guide system for the best layering performance, as well as numerous DiloMachines needlelooms with Hyperpunch technology. The Twinflow-system provides a homogeneous flock mat while “Webguide” and 3-apron-layering system result in an excellent web quality with precise web edges. All lines are equipped with CV1 system for the best end product uniformity.

Huafon Microfiber Co. Ltd was established in 2002 and is now one of the biggest producers of artificial leather made from sea-island fibre worldwide. The main applications of these high quality artificial leathers are shoe, automotive, glove, bag, sofa etc.

Huafon Microfiber Co. Ltd. has placed orders for three complete, state-of-the-art high capacity needling lines with DiloGroup for its new plant in Qidong, Jiangsu Province, China. The lines will be shipped to Huafon this year.

All these lines consist of DiloTemafa high capacity blending systems, DiloSpinnbau special card feeding systems and high capacity carding machines, DiloMachines high speed crosslappers with special air-guide system for the best layering performance, as well as numerous DiloMachines needlelooms with Hyperpunch technology. The Twinflow-system provides a homogeneous flock mat while “Webguide” and 3-apron-layering system result in an excellent web quality with precise web edges. All lines are equipped with CV1 system for the best end product uniformity.

Huafon Microfiber Co. Ltd was established in 2002 and is now one of the biggest producers of artificial leather made from sea-island fibre worldwide. The main applications of these high quality artificial leathers are shoe, automotive, glove, bag, sofa etc.

DiloGroup supplied the first complete needling line to Huafon in Jinshan, China, in 2003 and up to now Huafon has ordered more than twenty needling lines.

Source:

DiloGroup

Montalvo (c) Montalvo
13.08.2019

Montalvo Announces All New Load Cell: N Micro

Montalvo, international specialists in web tension control, announces its latest addition to their growing load cell portfolio, the N Micro Cantilever Load Cell. N Micro Load Cells are ideal for narrow web, light tension applications requiring precise, superior tension control measurement. Montalvo’s N-Micro load cell are commonly used in applications producing labels, tapes, and more, delivering higher quality results for higher quality end product.

Director of Sales and Marketing, Bryon Williams says, “Montalvo is one of the few web tension control specialists continuously developing new products for the constantly evolving industry. The N Micro is designed for narrow web applications, often running multiple webs of material that all need to be precisely tensioned at the same amount to effectively perform as one end product. It is a cost-effective solution for these applications whether they are running web or more.

Montalvo, international specialists in web tension control, announces its latest addition to their growing load cell portfolio, the N Micro Cantilever Load Cell. N Micro Load Cells are ideal for narrow web, light tension applications requiring precise, superior tension control measurement. Montalvo’s N-Micro load cell are commonly used in applications producing labels, tapes, and more, delivering higher quality results for higher quality end product.

Director of Sales and Marketing, Bryon Williams says, “Montalvo is one of the few web tension control specialists continuously developing new products for the constantly evolving industry. The N Micro is designed for narrow web applications, often running multiple webs of material that all need to be precisely tensioned at the same amount to effectively perform as one end product. It is a cost-effective solution for these applications whether they are running web or more.

Source:

Montalvo Corporation

Hygienically Clean Certification TRSA®
Hygienically Clean Certification
19.05.2017

Hygienically Clean Healthcare Exhibit Educates Surgery Center Professionals

An exhibit at the recent Ambulatory Surgery Center Association (ASCA) annual meeting in Washington promoted the value of doing business with a Hygienically Clean Healthcare certified launderer. More than 120 attendees learned how the certification verifies laundries’ best management practices (BMPs) and quantifies laundered product cleanliness. The display marked the first such promotion of Hygienically Clean Healthcare to an outpatient medical market. Previous exhibits touted the certification to hospital audiences: the Association for the Healthcare Environment (AHE) and Association for Professionals in Infection Control and Epidemiology (APIC). Like members of those groups, most ASCA participants interviewed were industry customers, but represented a wider variety of professions, including M.D. owners and these job titles:


• Administrator • Business Manager
• CEO, President, CFO, COO
• Chief Medical Officer
• Clinical Coordinator, Director
• Nursing Director
• Regional Director, VP

An exhibit at the recent Ambulatory Surgery Center Association (ASCA) annual meeting in Washington promoted the value of doing business with a Hygienically Clean Healthcare certified launderer. More than 120 attendees learned how the certification verifies laundries’ best management practices (BMPs) and quantifies laundered product cleanliness. The display marked the first such promotion of Hygienically Clean Healthcare to an outpatient medical market. Previous exhibits touted the certification to hospital audiences: the Association for the Healthcare Environment (AHE) and Association for Professionals in Infection Control and Epidemiology (APIC). Like members of those groups, most ASCA participants interviewed were industry customers, but represented a wider variety of professions, including M.D. owners and these job titles:


• Administrator • Business Manager
• CEO, President, CFO, COO
• Chief Medical Officer
• Clinical Coordinator, Director
• Nursing Director
• Regional Director, VP


Roughly 10 percent of the visitors to the Hygienically Clean exhibit on May 3-5 expressed concern about the product and service quality of their linen, uniform and facility services providers. Using a Hygienically Clean certified launderer addresses quality concerns, they were told, as inspectors focus on a facility’s quality assurance manual as the hub of control measures (BMPs) that minimize potential for error. In addition, unlike Healthcare Laundry Accreditation Council (HLAC) certification, Hygienically Clean microbial testing measures finished product quality, enforcing a total microbial content ceiling, including yeasts, molds and bacteria.

Source:

TRSA®