24 July 2012
24 July 2012
Teijin Aramid continues to collaborate with its partners to further reduce its eco-footprint with eco-efficiency analyses and their recycling program.
The company says its ninth CSR report shows increasing efforts to become the industry leader in sustainability. They are also engaging in a collaboration project with Wageningen University & Research Centre to explore the possibilities for bio-based Twaron.
Teijin says one of its main sustainability goals for 2020 is to reduce its eco-footprint with 14 % – ‘from cradle to customer gate’. To make its eco-footprint processes transparent, eco-efficiency analyses are used. The results of these eco-efficiency analyses show the added economic and ecologic value of the products in the entire value chain. For example it explains, it is now known that the use of Twaron can result in a twenty-fold reduction in CO2 emissions in the value chain when compared to the emissions emitted during the production of Twaron. By 2016, Teijin Aramid aims for a 8% reduction in the CO2 footprint of its processes and a 4 % CO2-reduction of its raw materials.
Teijin explains that its recycling program is a large contributor to the reduction of its eco-footprint in the entire value chain. In June 2012, it was the proud winner of the Dutch VNCI Responsible Care Award 2012 for its worldwide recycling program. The company says it has proven that the production of a quality product with 50 % less CO2 footprint is possible on a global scale. In the last years, the program enabled 50.000 ton CO2 reduction.
During the next years Teijin aims to continue to invest in recycling technology and sustainable partnerships throughout the value chain. Gert Frederiks, CEO & President of Teijin Aramid said “We expect our customers to start taking more and more sustainability factors in consideration in their buying decision. Therefore, we want to act on the forefront by paying considerable attention by making our products sustainable.”
Teijin Aramid says it will continue its research project for the possibilities for bio-based Twaron. The research is in collaboration with the Wageningen University & Research Centre and will be conducted to investigate how oil-based monomers can be replaced with those from the flow of waste from animal feed and human food.