Innovative Paper Recycling Technology
Our ultrasonic technology dislodges ink particles from paper fibers, revolutionizing the paper recycling industry. We are dedicated to providing sustainable and efficient solutions for paper waste.
Paper de-Inking is the process of removing ink, dyes, and contaminants from used paper to make it suitable for
recycling. De-inking is essential for ensuring clean, high-quality paper fibers for the production of new paper
products.
Traditional de-Inking methods include chemical de-inking and enzyme de-inking. Chemical de-inking uses chemicals to break ink bonds with paper fibers. In the process of enzyme de-inking, enzymes target and break down ink particles. Both methods require a significant amount of water and chemicals.
The Problem
The process of chemical de-inking involves the separation of toxic solvents from paper fibers. The harmful chemicals involved include sodium hydroxide, sodiumsilicate, chemical surfactants, or chlorine dioxide. The use and emission of these chemicals is harmful for the environment. Enzyme de-inking includes the removal of ink from paper fibers.Although this method is more environmentally friendly, enzymes are difficult to manage and expensive. For example, enzyme de-inking typically costs 15-30% more per ton of recycled paperthan chemical de-inking.
The Solution: Ultrasonic De-inking
Ultrasonic de-inking is the system in which paper is recycled through a process that separates ink particles from papers’ cellulose fibers by exposing it to controlled ultrasonic frequencies.
Ultrasonic de-inking provides our consumers with high-quality paper at a lower, affordable price compared to our competitors. Because the process relies on ultrasonic waves as its primary de-inking component, this reduces chemical use by up to 70% compared to the traditional chemical de-inking process. Not only is this an environmental benefit that impacts humankind, but this reduction in chemical reliance lowers manufacturing costs significantly, as there is much less spending on costly chemical surfactants. This reduction in chemical use can translate to an estimated 10-30% lower costs for consumers.