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Potassium Monopersulfate Compound, has the synonyms as Potassium Peroxymonosulfate, is a Chlorine-free and versatile oxidant developed and manufactured by Kylin Chemicals Co Ltd. Potassium Monopersulfate Compound provides powerful non-chlorine oxidation and microbiological effectiveness for a wide variety of industrial and consumer uses. Kylin Chemicals' Potassium Peroxymonosulfate has been successfully used in the applications of swimming pools disinfection, aquaculture disinfectant, bleaching agent for laundry detergents and household cleaners, municipal sewage and industrial waste water treatment, etc. Advangates & Benefits Use Less Chlorine in Your Pool In a traditional pool care system, chlorine is used as a sanitizer, to kill bacteria, and as an oxidizer, to eliminate organic waste from bathers and the environment. Up to 90% of the chlorine sanitizer is used in oxidizing the organic material-leaving only 10% to control the disease-causing germs and nuisance algae. Products that contain PMPS provide the oxidation necessary to keep water sparkling clear, so the chlorine is free to sanitize the pool. As a result the chlorine sanitizer lasts longer, so you can use less chlorine throughout the season. Reduce Eye, Nose, and Skin Irritation That irritated, burning feeling is likely caused by combined chlorine, a byproduct of disinfection. Combined chlorine, also called chloramine, is formed when large doses of chlorine are used to eliminate organic matter from pool water (chlorine shocking). Routine use of PMPS removes the organic compounds before they can react with chlorine to form chloramine. That means more fun for you and the family, and fewer red burning eyes and no irritated skin.

  Hydrogen peroxide H₂O₂ plays a critical roles as a stabilizer and decolorizer in the production of Acrylic - Maleic Copolymer Na salt (counterpart for Sokalan CP 5), a high performance Acrylic Dispersant Polymers and widely used Water Treatment Chemicals. By eliminating reactive residues and chromophores, it extends shelf life (>12 months) and enhances product aesthetics. This green approach aligns with sustainable manufacturing trends, positioning H₂O₂ as an indispensable component in high-quality copolymer synthesis.   1.Stability Enhancement Mechanisms   1.1 Termination of Free Radical Chains   Residual free radicals (e.g., OH, SO₄⁻) from initiators like Persulfates can trigger unintended side reactions during storage. H₂O₂ acts as a radical scavenger, terminating chain reactions via:   H2O2​+ OH → HO2 + H2O   This prevents over-polymerization or degradation, ensuring consistent molecular weight distribution and viscosity.   1.2 Decomposition of Residual Initiators   Persulfate initiators may persist post-reaction, risking delayed decomposition. H₂O₂ accelerates their breakdown into inert sulfates (SO₄²⁻), eliminating long-term instability risks.   1.3 Metal Ion Oxidation   Trace metal ions (Fe²⁺/Cu²⁺) catalyze oxidative degradation. H₂O₂ oxidizes Fe²⁺ to Fe³⁺, which is easier to remove, thereby reducing metal-induced instability.   2.Color Optimization Mechanisms   2.1 Oxidation of Chromophores   Quinoid compounds formed during copolymerization impart a yellowish tint. H₂O₂ cleaves conjugated double bonds in quinones via oxidative ring-opening, converting them to colorless aliphatic acids (e.g., adipic acid derivatives). This increases solution transparency, with light transmittance (425 nm) improving from ~75% to >95%.   2.2 Inhibition of Maillard Reactions   Unreacted acrylic acid may react with amine impurities under heat, generating brown pigments. H₂O₂ oxidizes amine intermediates, blocking melanoidin formation.   3. Environmental and Economic Benefits   H₂O₂ decomposes into H₂O and O₂, avoiding toxic byproducts (e.g., Cl⁻ from NaClO). Its cost-effectiveness reduces purification demands, while improved color meets premium market standards.  

Kylin Chemicals, a leading innovator in specialty polymer chemistry, specializes in the development and production of high-performance water soluble acrylic dispersant polymers tailored for detergent and industrial cleaning applications. With over 20 years of expertise in acrylic dispersant polymers synthesis, we deliver cutting-edge solutions that optimize cleaning efficiency, enhance sustainability, and address evolving industry demands. Our commitment to technological advancement, rigorous quality control, and customer-centric R&D has positioned us as a trusted partner for global enterprises across diverse sectors.   Advanced Production & Technical Expertise   At the core of our operations lies a vertically integrated manufacturing ecosystem equipped with state-of-the-art polymerization reactors, precision control systems, and automated quality assurance protocols. We utilize advanced controlled polymerization and graft copolymerization techniques to engineer acrylic dispersant polymers with customizable molecular weights, and functional group distributions. This capability ensures precise control over product performance metrics such as calcium ion sequestration, anti-redeposition efficacy, and dispersion stability in high-salinity environments.   Strategic Partnerships with Industry Leaders   We have established long-term collaborations with industry leaders in the field of detergents and textile auxiliaries. Our production facilities adhere to ISO 9001 standards, integrating green chemistry principles to minimize waste and energy consumption. By employing solvent-free processes and bio-based raw materials where feasible, we align with global sustainability initiatives without compromising product reliability.   Diverse Application Portfolio Our acrylic dispersant polymers deliver exceptional value across multiple industries:   1.Household & Commercial Detergents:    - Enables phosphate-free formulations with superior hardness tolerance.      - Reduces enzyme deactivation by 40% in heavy-duty laundry powders.   2. Textile Auxiliaries:      - Prevents dye agglomeration in reactive dyeing processes.      - Improves washing fastness ratings by 1-2 grades.   3. Electroplating:      - Enhances bath stability and metal distribution in acid copper plating.   4. Coatings & Construction:      - Acts as highly effective dispersant for inorganic solids. Kylin Chemicals remains dedicated to redefining the boundaries of polymer science for cleaning applications. Through relentless innovation and strategic alliances, we continue to empower manufacturers worldwide to create safer, more effective, and environmentally responsible products.     Related Products KylinCP-5, granules (Acrylic acid - Maleic acid Copolymer, fully neutralized. Counterpart for Sokalan CP 5, granules.) KylinCP-5, liquid (Acrylic acid - Maleic acid Copolymer, fully neutralized. Counterpart for Sokalan CP 5, 40% liquid.) KylinPA 30 (Acrylic homopolymer, partially neutralized. Counterpart for Sokalan PA 30 CL PN, 48% liquid.) KylinPA 30N (Acrylic homopolymer, partially neutralized. Counterpart for Sokalan PA 30 CL, 45% liquid.) KylinPA 445, liquid (Acrylic homopolymer, partially neutralized. Counterpart for Sokalan PA 25 CL PN, 48% liquid.) KylinPA 445N, granules (Acrylic homopolymer, fully neutralized. Counterpart for Sokalan PA 25 CL, granules.) KylinPA 445N, liquid (Acrylic homopolymer, fully neutralized. Counterpart for Sokalan PA 25 CL, 45% liquid.)

Palm oil has a wide range of applications, but is under scrutiny because its production is damaging to rainforests. Indonesia, the world's largest palm oil producer, has recently cracked down on the illegal export of palm oil and restricted the export of waste cooking oil and palm oil scrap, aiming to regulate the market and safeguard domestic supply and industry development. After Indonesia restricted the export of waste cooking oil and palm oil waste products, palm oil prices fell from a 30-month high of more than 5,150 ringgit per ton in December last year to less than 4,200 ringgit per ton in January this year, triggering concerns about the oversupply of crude palm oil in the market.   In addition, the EU's push four years ago to ban the use of palm oil from deforested land, a policy aimed at companies that consume large quantities of biofuels, and the provision of incentives for large consumers to buy used cooking oil in an effort to curb demand for palm oil, continues to affect EU purchasing demand for palm oil.   The United States was planning to introduce tax incentives to encourage the production of cleaner fuels for transportation (which was proposed to provide tax credits to companies producing low-carbon fuels, including palm oil waste), but the Trump administration has delayed the program and is considering excluding used cooking oil from the incentives, affecting the market prospects for palm oil in the biofuels sector, which could force U.S. refiners to look for alternatives, exacerbating the palm oil glut and depress prices.   To summarize, on the one hand, Indonesia's recent policies have directly led to palm oil overcapacity, and on the other hand, policy adjustments in some countries have led to more barriers to palm oil exports, prompting the demand side to look for new substitutes, which may lead to a continued low demand for palm oil in the market. It is well known that the production of palm oil and fatty alcohols are closely linked, the former is a key raw material for the manufacture of the latter, while fatty alcohols and surfactant products C12-C16 Alkyldimethylbenzylammonium Chloride (ADBAC), Benzalkonium Chloride (BKC), Fattyalcohols,ethoxylated (AEO), N, N-ethylene bis steara mide (EBS) and so on in the supply of raw materials, production and processing, product performance, as well as the market and application of a number of dimensions exist inextricably linked.   according to the above, the palm oil overcapacity, the contraction of the market demand, and other factors may trigger the palm oil ,According to the above, factors such as palm oil overcapacity and shrinking market demand may trigger palm oil prices to go down, and the price drop will reduce the cost of fatty alcohols from natural oils and fats, and the related downstream surfactant products C12-C16 Alkyldimethylbenzylammonium Chloride (ADBAC), Benzalkonium Chloride (BKC), Fattyalcohols, ethyl alcohols, etc. are inextricably linked. Fattyalcohols,ethoxylated (AEO), N, N-ethylene bis steara mide (EBS), etc. The cost will be improved. At the same time, the lower price of fatty alcohols from natural oils and fats will also be indirectly transmitted to the market of fatty alcohols from petrochemical sources, and the cost of downstream surfactant products such as Isotridecyl alcohol, ethoxylated will also be improved. It is worthwhile to keep our attention on this aspect of the message.   The main information of this article originated from “Indonesia restricts exports, palm oil producers worry”, Oriental Wealth Net, Oriental Fortune, https://finance.eastmoney.com/a/202502253329153894.html  

We are delighted to extend a warm invitation to all customers and partners to visit Kylin Chemicals at ICIF China 2025 exhibition! This premier event offers an excellent opportunity to explore our innovations and discuss how our solutions can support your business goals.       Exhibition Details: Date: September 17–19, 2025 Booth No.: E6K13, Hall E6, Shanghai New International Expo Centre Event: ICIF China 2025    We’d be honored to welcome you and share strategic insights that could benefit your operations. To ensure dedicated time together, kindly let us know your preferred visit date/time by sending email to sales@kylinchemicals.com