[Attention Municipalities] Adsorbent materials that remove harmful substances in water! Suitable for drainage systems.
Remove over 99% of oil and polycyclic aromatic hydrocarbons (PAHs) contained in water! Achieve significant cost reduction by using recycled regenerated carbon fibers.
Rainwater and drainage, in their untreated state, flow into public water bodies such as rivers and seas, containing not only nitrogen and phosphorus but also harmful heavy metals and PAHs (polycyclic aromatic hydrocarbons). The water quality improvement material Misty is an adsorption material that uses the properties of recycled carbon fibers to remove these harmful substances from water. 【Features】 ■ High purification capability Carbon fibers can remove over 99% of oils and polycyclic aromatic hydrocarbons (PAHs) present in water. ■ Cost-effective compared to conventional products Using Fujitekno's unique method, recycled carbon fibers made from CFRP waste have achieved significant cost reductions. ■ Environmentally friendly Overcome challenges with a unique technique, making it more environmentally considerate. ■ Sustainable technology compatible with SDGs Used adsorption materials can be incinerated to remove the adsorbed substances, allowing for semi-permanent reuse. *For more details, please refer to the PDF materials or feel free to contact us.
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【Specifications】 ■Size Φ200×200 mm ■Length (Product Length) 150 mm × 1000 mm ■Material Recycled carbon fiber, felt, VaS
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【Uses】 ■ Road bridge drainage outlets ■ Drainage outlets for chemical plants and fields ■ Manholes and fume separators ■ Fishing ports and motorboat competition venues ■ Drainage outlets for gas stations and restaurants, etc.
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As a leading material field in Japan, carbon fiber is highlighted, with the world market share of the three major PAN-based companies reaching 70% for high-performance carbon fiber. It has ultra-high strength and lightweight properties, and is used in nearly half of the airframe weight of the Boeing 787 and Airbus A350. Additionally, the mass utilization of composite materials (CFRP) using carbon fiber is about to begin for the purpose of reducing the weight of automobiles. However, the yield rate of CFRP is poor, at around 50%. The remainder becomes waste material. Furthermore, various carbon fiber manufacturers are discarding a significant amount of carbon fiber that has consumed a lot of energy, including fiber scraps, fabric edges, and expired prepregs, with estimates of 2000 tons per year in our country and 6000 tons per year globally. Moreover, the amount of discarded CFRP and carbon fiber waste continues to increase. Therefore, establishing technology to obtain and utilize carbon fiber is an urgent issue.