Carulite 200 Too Expensive? What Solutions Can Reduce Ozone Pollution Control Costs?

In the field of industrial ozone treatment, Carulite 200, as a classic ozone decomposition catalyst, holds an important position due to its superior performance. Its core applications cover ozone disinfection and exhaust gas treatment in water treatment, exhaust purification in corona treatment machines, ozone treatment in digital printing presses, exhaust gas treatment in laboratory fume hoods, and exhaust gas purification in non-thermal plasma equipment, making it a common choice in the municipal, electronics, and chemical industries.

Carulite 200 boasts significant advantages. Utilizing a MnO₂-CuO composite active component, it achieves over 99% ozone decomposition rate at room temperature, requiring no additional heating, producing no secondary harmful byproducts, exhibiting high mechanical strength and excellent moisture resistance, making it suitable for most industrial conditions, and demonstrating strong long-term operational stability. However, with increasing environmental investment pressures on enterprises, the high procurement and maintenance costs of Carulite 200 have become a major obstacle for many companies in reducing ozone treatment costs.

To address this pain point, choosing a cost-effective alternative has become the optimal solution for enterprises to achieve "efficient treatment + controllable costs." The MINSLITE-B series ozone decomposition catalyst developed by Minstong is a superior alternative to Carulite 200, perfectly matching its core performance while significantly reducing treatment costs.

In terms of price, the MINSLITE-B series is 30%-50% cheaper than Carulite 200, and requires no modification to existing equipment; it can be directly replaced and put into use, saving on equipment modification costs. In terms of application scenarios, it completely overlaps with Carulite 200, covering industrial ozone exhaust gas treatment, water treatment ozone residue removal, and ozone purification in electronics factories. It also uses a MnO₂-CuO composite formula, with the same 4×8 mesh/8×14 mesh particle size as Carulite 200, a specific surface area ≥200m²/g, a room temperature decomposition efficiency of over 99%, and moisture and poisoning resistance approaching original equipment manufacturer (OEM) levels.

Practical application cases show that after replacing its product with the MINSLITE-B series, a municipal wastewater treatment plant saw a 40% annual reduction in overall ozone treatment costs, with no deactivation observed after 18 months of operation, and effluent ozone residue fully meeting standards. An electronics factory used it to replace Carulite 200 for treating corona discharge machine exhaust gas, not only halving the procurement cost but also maintaining stable equipment pressure drop and treatment efficiency.

For companies seeking cost-effective ozone treatment, the MINSLITE-B series addresses the high price of Carulite 200 while ensuring effective treatment. It represents a superior choice for cost reduction and efficiency improvement in ozone decomposition catalyst selection, helping companies control operating costs while achieving environmental compliance.

Author: Hazel
Date: 2026-03-06