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GoodTextiles Foundation: Improving drinking water supply in Uganda (c) Aid by Trade Foundation
Bio-Sand-Waterfilters
18.03.2024

GoodTextiles Foundation: Improving drinking water supply in Uganda

Together with Cotton made in Africa (CmiA) and the cotton company MMP Agro, the GoodTextiles Foundation is realising a project to improve the drinking water supply in Uganda, Africa. Bio-sand-waterfilters are being installed to gently purify the water from existing sources. In addition, the partners are training the community's farmers and craftsmen in how to operate the water filters. They then learn how to build new water filters.

In 2016, the textile company Dibella established the GoodTextiles Foundation with the aim of making textile value chains more sustainable. It raises donations and implements its own funding projects to benefit people at all stages of the textile industry.

As part of a joint project between the GoodTextiles Foundation, the Aid by Trade Foundation (AbTF) (owner of the CmiA standard) and MMP Agro, farmers who grow CmiA cotton in the districts of Abim, Kaplebyong, Dokolo and Kaberamaido in north-east Uganda are now receiving a total of around 1,000 bio-sand-waterfilters. Around 1,000 CmiA farmers, mainly women and the members of their households (an estimated 10,000 community members) benefit from this.

Together with Cotton made in Africa (CmiA) and the cotton company MMP Agro, the GoodTextiles Foundation is realising a project to improve the drinking water supply in Uganda, Africa. Bio-sand-waterfilters are being installed to gently purify the water from existing sources. In addition, the partners are training the community's farmers and craftsmen in how to operate the water filters. They then learn how to build new water filters.

In 2016, the textile company Dibella established the GoodTextiles Foundation with the aim of making textile value chains more sustainable. It raises donations and implements its own funding projects to benefit people at all stages of the textile industry.

As part of a joint project between the GoodTextiles Foundation, the Aid by Trade Foundation (AbTF) (owner of the CmiA standard) and MMP Agro, farmers who grow CmiA cotton in the districts of Abim, Kaplebyong, Dokolo and Kaberamaido in north-east Uganda are now receiving a total of around 1,000 bio-sand-waterfilters. Around 1,000 CmiA farmers, mainly women and the members of their households (an estimated 10,000 community members) benefit from this.

Source:

GoodTextiles Foundation

The research group Water Engineering Innovation Photo: Aarhus University
The research group Water Engineering Innovation, led by Associate Professor Zongsu Wei, works to develop water purification technologies, especially in connection with PFAS. The group collaborates in this project with the research group Robotics from the Department of Mechanical and Production Engineering.
24.01.2024

Artificial intelligence to help remove PFAS

A new research project links some of Denmark's leading researchers in PFAS remediation with artificial intelligence. The goal is to develop and optimise a new form of wastewater and drinking water treatment technology using artificial intelligence for zero-pollution goals.

In a new research and development project, researchers from Aarhus University aim to develop a new technology that can collect and break down perpetual chemicals (PFAS) in one step in a purification process that can be connected directly to drinking water wells and treatment plants.

The project has received funding from the Villum Foundation of DKK 3 million, and it will combine newly developed treatment technology from some of Denmark's leading PFAS remediation researchers with artificial intelligence that can ensure optimal remediation.

A new research project links some of Denmark's leading researchers in PFAS remediation with artificial intelligence. The goal is to develop and optimise a new form of wastewater and drinking water treatment technology using artificial intelligence for zero-pollution goals.

In a new research and development project, researchers from Aarhus University aim to develop a new technology that can collect and break down perpetual chemicals (PFAS) in one step in a purification process that can be connected directly to drinking water wells and treatment plants.

The project has received funding from the Villum Foundation of DKK 3 million, and it will combine newly developed treatment technology from some of Denmark's leading PFAS remediation researchers with artificial intelligence that can ensure optimal remediation.

"In the project, we will design, construct and test a new, automated degradation technology for continuous PFAS degradation. We’re also going to set up an open database to identify significant and limiting factors for degradation reactions with PFAS molecules in the reactor," says Associate Professor Xuping Zhang from the Department of Mechanical and Production Engineering at Aarhus University, who is co-heading the project in collaboration with Associate Professor Zongsu Wei from the Department of Biological and Chemical Engineering.

Ever since the 1940s, PFAS (per- and polyfluoroalkyl substances) have been used in a myriad of products, ranging from raincoats and building materials to furniture, fire extinguishers, solar panels, saucepans, packaging and paints.

However, PFAS have proven to have a number of harmful effects on humans and the environment, and unfortunately the substances are very difficult to break down in nature. As a result, the substances continuously accumulate in humans, animals, and elsewhere in nature.

In Denmark, PFAS have been found in drinking water wells, in surface foam on the sea, in the soil at sites for fire-fighting drills, and in many places elsewhere, for example in organic eggs. It is not possible to remove PFAS from everything, but work is underway to remove PFAS from the groundwater in drinking water wells that have been contaminated with the substances.

Currently, the most common method to filter drinking water for PFAS is via an active carbon filter, an ion-exchange filter, or by using a specially designed membrane. All of these possibilities filter PFAS from the water, but they do not destroy the PFAS. The filters are therefore all temporary, as they have to be sent for incineration to destroy the accumulated PFAS, or they end in landfills.

The project is called 'Machine Learning to Enhance PFAS Degradation in Flow Reactor', and it aims to design and develop an optimal and permanent solution for drinking water wells and treatment plants in Denmark that constantly captures and breaks down PFAS, while also monitoring itself.

"We need to be creative and think outside the box. I see many advantages in linking artificial intelligence with several different water treatment technologies, but integrating intelligence-based optimisation is no easy task. It requires strong synergy between machine learning and chemical engineering, but the perspectives are huge," says Associate Professor Zongsu Wei from the Department of Biological and Chemical Engineering at Aarhus University.

More information:
PFAS Aarhuis University
Source:

Aarhus University
Department of Biological and Chemical Engineering
Department of Mechanical and Production Engineering

© Aid by Trade Foundation
16.03.2023

The GoodTextiles Foundation and Cotton made in Africa join forces again

  • Precious water for villages that are running on dry land

The GoodTextiles Foundation has worked to improve drinking water supplies in sub-Saharan Africa in another joint project with Cotton made in Africa (CmiA). In three villages in Togo particularly affected by climate change, the partners built wells and trained people in the use of water. The curriculum included the topics of disease prevention, hygiene and health care.

In 2016, the textile company Dibella (Bocholt) established the GoodTextiles Foundation with the aim of making textile value chains more sustainable. It raises funds and implements its own support projects to benefit people at all stages of the textile industry. Now the foundation has once again supported a project in sub-Saharan Africa initiated by Cotton made in Africa (Hamburg). Funding is being provided for three villages in Togo that, according to a needs assessment by CmiA's local partner, the cotton company Nouvelle Société Cotonnière du Togo (NSCT), have no direct access to drinking water.

  • Precious water for villages that are running on dry land

The GoodTextiles Foundation has worked to improve drinking water supplies in sub-Saharan Africa in another joint project with Cotton made in Africa (CmiA). In three villages in Togo particularly affected by climate change, the partners built wells and trained people in the use of water. The curriculum included the topics of disease prevention, hygiene and health care.

In 2016, the textile company Dibella (Bocholt) established the GoodTextiles Foundation with the aim of making textile value chains more sustainable. It raises funds and implements its own support projects to benefit people at all stages of the textile industry. Now the foundation has once again supported a project in sub-Saharan Africa initiated by Cotton made in Africa (Hamburg). Funding is being provided for three villages in Togo that, according to a needs assessment by CmiA's local partner, the cotton company Nouvelle Société Cotonnière du Togo (NSCT), have no direct access to drinking water.

Difficult water procurement
The areas where CmiA's drought-resistant cotton is grown include the north and interior of Togo, where cotton farmers are particularly affected by the effects of climate change due to prolonged periods of drought. Many village communities lack access to clean drinking water, and people draw contaminated water from more distant rivers or waterholes and carry the heavy load back with difficulty.

Guide to clean water
As part of a joint project between the GoodTextiles Foundation, Aid by Trade Foundation (holder of the CmiA standard) and NSCT, three drought-affected villages - Namare/Puob-n-kpaad, Tchokoroko and Aloba - will now receive their own water supply.

The funds - 11,756 euros will be provided by the GoodTextiles Foundation, and 4,419 euros will come from the Cotton Society - will be used to construct a well operated by hand pumps in each village. The construction work is to be completed by March 2023 and the 2,300 inhabitants will be taught the basics of water handling, disease prevention and hygiene measures in so-called WASH training courses.

Driving force: UN SDGs
For years, we have aligned our company with the UN's 17 Sustainable Development Goals (Global Goals for Sustainable Development). Through the sponsorship project, we are not only contributing to SDG 6 "Clean water and sanitation", but also to gender equality (SDG 5). In the African countries from which we source CmiA cotton, the physically strenuous task of procuring water is still the responsibility of women. The construction of the wells now leads to a significant improvement of their living situation," reports Ralf Hellmann, managing director of Dibella and chairman of the foundation.

Continued under their own responsibility
Once the wells have been handed over to the village communities, "water committees" will take over their management and maintenance, as well as responsibility for further hygiene training for the residents. The operation of the wells will be financed on the basis of a fund made up of small contributions from the beneficiary communities.

Source:

The GoodTextiles Foundation

14.09.2021

Kornit Digital: 2020 Impact and Environmental, Social, and Governance Report released

Kornit Digital Ltd., a worldwide market leader in digital textile production technologies, released its 2020 Impact and Environmental, Social, and Governance (“ESG”) Report. This inaugural report affirms Kornit’s commitment to achieving specific ESG goals. This includes the way Kornit conducts business, creates meaningful impact in local communities, and achieves environmental sustainability, in addition to how Kornit will continue to build a diverse and inclusive company culture, foster employee growth and development, and empower fair and safe labor practices globally.
 

Kornit Digital Ltd., a worldwide market leader in digital textile production technologies, released its 2020 Impact and Environmental, Social, and Governance (“ESG”) Report. This inaugural report affirms Kornit’s commitment to achieving specific ESG goals. This includes the way Kornit conducts business, creates meaningful impact in local communities, and achieves environmental sustainability, in addition to how Kornit will continue to build a diverse and inclusive company culture, foster employee growth and development, and empower fair and safe labor practices globally.
 
In addition to enabling eco-friendly production processes with technology and consumables that use less water, reduce waste, and minimize the carbon footprint, Kornit technology solutions enable sustainable production on demand, which eliminates overproduction of apparel and other textile goods. A 2021 Life Cycle Assessment conducted on two flagship products, the Kornit Atlas MAX and Kornit Presto S, demonstrated that relative to traditional analog processes, Kornit’s digital production systems used up to 95% less water and 94% less energy, and produced up to 83% less greenhouse gas (GHG) emissions for the Presto S system and up to 93% less water and 66% less energy, and produced up to 82% less greenhouse gas (GHG) emissions for the Atlas MAX system.


Based on this study, in addition to past sustainability performance results and strategic projections for business growth and market expansion, by 2026 Kornit Digital’s sustainable on-demand solutions are expected to enable the production of approximately 2.5 billion apparel items in a responsible manner to deliver:

  • Zero overproduction: By moving the industry to on-demand manufacturing, Kornit will help eliminate the estimated 1.1 billion apparel items overproduced using traditional production methods, based on an industry average of 30% overproduction. This is about 1 apparel item for each and every person living in Europe and North America – saved.
  • Zero water waste: In addition to eliminating overstocks, Kornit-enabled production on demand will support saving an estimated 4.3 trillion liters (1.1 trillion gallons) of water. This is the estimated amount of drinking water needed for the entire U.S. population for 11 years.
  • Reduced CO2 emissions: By enabling sustainable on-demand production, consuming less energy, and generating less waste, Kornit will prevent an estimated 17.2 billion kilograms (37.9 billion pounds) of greenhouse gas emissions, compared to traditional manufacturing methods. This is equivalent to the estimated amount of carbon dioxide emitted from circumnavigating the entire planet with a car nearly 2,400 times.

Furthermore, the report outlines Kornit’s commitment to achieving KPIs that address waste, chemicals, GHG emissions, energy, product development, employee training, diversity and inclusion, and the company’s supply chain.

Source:

pr4u

vombaur: Filtration textiles (c) vombaur
22.01.2021

vombaur: Filtration textiles

From the drinking water and food industries through water management and mining to the automotive and aviation sectors, mechanical filtration processes are used in almost every industry. As different as the methods, dimensions and special requirements of the filtration process are in each case – technical textiles and often tubular filters are almost always used. This means that tubular filters and narrow textiles by vombaur contribute to the safe and reliable separation or treatment of substances in the widest variety of filtration processes.

Individual solutions
The requirements placed on the textile, the material, the flow rate and the loading capacity of the filters depend on the respective use: a tubular for dewatering soil needs to withstand different forces than a tubular filter for the beverages industry. On the other hand, the latter needs to meet the highest hygiene standards. Because the requirements are so individual, vombaur develops customised filtration textiles for its customers all over the world.

From the drinking water and food industries through water management and mining to the automotive and aviation sectors, mechanical filtration processes are used in almost every industry. As different as the methods, dimensions and special requirements of the filtration process are in each case – technical textiles and often tubular filters are almost always used. This means that tubular filters and narrow textiles by vombaur contribute to the safe and reliable separation or treatment of substances in the widest variety of filtration processes.

Individual solutions
The requirements placed on the textile, the material, the flow rate and the loading capacity of the filters depend on the respective use: a tubular for dewatering soil needs to withstand different forces than a tubular filter for the beverages industry. On the other hand, the latter needs to meet the highest hygiene standards. Because the requirements are so individual, vombaur develops customised filtration textiles for its customers all over the world.

Seamless tubular filters
At vombaur, filter media are round woven seamlessly on unique looms. As a result, they have identical surface properties all around and over the entire length, such as flow rate, loading capacity, shrinkage behaviour or material thickness

Narrow textiles for fabricating filter media
"We manufacture our narrow textiles from a wide variety of high-tech yarns. Sometimes monofilament yarn is used, sometimes multifilament, sometimes spun yarn. Like the type of weave, we select the raw materials depending on the function they need to fulfil," emphasises Gert Laarakker, Sales Manager at vombaur. "So that our filtration textiles reliably perform the job they are supposed to perform. Clean. Safe. Sturdy."

Source:

stotz-design.com GmbH & Co. KG