PRODUCT
Discover the Future of Water Treatment
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At FibCleanse, we offer cutting-edge solutions for water treatment, leveraging our innovative fibre cellulose technology. Our products are designed to effectively remove organic matter, inorganic matter, and suspended solid particulates from water sources. With a focus on efficiency and performance, we harness the power of nano-sized cellulose to revolutionize the water treatment industry.
Leading the Way in Sustainability
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At FibCleanse, we are committed to sustainability. Our chemical-free processes and environmentally friendly materials contribute to our efforts in providing a greener alternative for water treatment. By incorporating nano cellulose fibers into our solutions, we achieve unparalleled advancements in pollutant removal while minimizing environmental impact.
​Advanced Technology for Superior Performance
Our cellulose fibres, derived from natural materials such as woods and plants, undergo advanced modification processes to enhance their adsorption, flocculation, and membrane separation properties. By utilizing carboxylation, sulfonation, graft copolymerization, and other innovative approaches, we ensure optimal performance in cleaning water polluted by spilled oil, heavy metals, and organic matter.
Explore the Possibilities
Join us in embracing the future of water treatment. Our products offer unprecedented levels of purity, efficiency, and sustainability. From removing contaminants in wastewater to constructing innovative water purification membranes, FibCleanse is leading the way in revolutionizing the industry.
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Prototype Development Capture (Version 1.0)
Our goal is to innovate a cost-effective and sustainable carton paper recycling process, converting old carton paper into high-quality finished pulp. By meticulously designing steps and employing specific chemicals and tools, our experiment aims to achieve essential procedures.
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Collect old paper
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02
Classification
using old cardboard, etc.
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03
Shredding
shredding recycled cardboard into smaller fragments, optimizing the material for subsequent stages and minimizing waste
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04
Remove impurities
shredded paper undergoes a prolonged water immersion (an extended period of 12-14 hours)
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05
Bleaching
use hydrogen peroxide solution to clean → Rinse the pulp with clean water (filter and wash several times) → Drain the pulp after bleaching → Obtain recycled pulp
06
Drying
After being drained, the pulp will be dried at a temperature of about 100 - 105oC. (4
hours)
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07
Grinding
After drying, recycled paper pulp will be ground with a blender to obtain the finished product.
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The benefits include reduced capital investment compared to traditional processes, utilization of existing equipment and facilities, a simple and scalable process adaptable to various pulp sources, and the production of high-quality cellulose fiber suitable for diverse applications.
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For additional inquiries