Shandong IRO Water Treatment Co., Ltd is a global leader in the production of water treatment chemicals. IRO specializes in the products that water treatment professionals utilize such as phosphonates, polymers, biocides, and other related chemistries.
Established in 2002, IRO has rapidly grown in size and has achieved an annual production capacity of 45,000 MT. Although IRO has a large scale capability our customers are more satisfied with our single container focus on quality.
Water treatment chemicals are those chemicals used in industrial water treatment. Such as scale inhibitors, corrosion inhibitors, dispersants, bactericidal algaecides, defoamers, flocculants, oxygen scavengers, chelating agents, etc. These chemicals are mainly used for cooling water, boiler water, sewage, oil field water produced during industrial water treatment.
Water treatment chemicals have a positive impact on industrial production and environmental protection. The water treatment products mentioned above can ensure the high efficiency of industrial production and reduce the consumption of resources. In 2020, IRO will still provide high-quality water treatment chemicals and professional services.
As a water treatment chemical supplier, IRO’s products almost covered the whole industrial fields. You can read the details about IRO water treatment chemicals. And you can also download the latest water treatment chemicals list here.
The chemicals in the table below are part of all IRO water treatment products. These products are very popular among customers.
|Chemicals Name||CAS No.||Category||SDS|
|ATMP||6419-19-8||Organophosphonic Antiscale, Chelant|
|DDBAC||15827-60-8||Bactericide and Algicide|
|1-3-5 Triazine||4719-04-4||Bactericide and Algicide|
|TTPC||81741-28-8||Bactericide and Algicide|
|CMIT MIT||2682-20-4||Bactericide and Algicide|
|Polyacrylic Acid||26099-09-2||Polycarboxylic Antiscalant, Dispersant|
|Polyacrylic Acid Sodium Salt||9003-04-7||Polycarboxylic Antiscalant, Dispersant|
|Hydrolyzed Polymaleic Anhydride||26099-09-2||Polycarboxylic Antiscalant, Dispersant|
|AA AMPS||40623-75-4||Polycarboxylic Antiscalant, Dispersant|
|Polyepoxysuccinic Acid Sodium Salt||51274-37-4||Polycarboxylic Antiscalant, Dispersant|
|Polyaspartic Acid Sodium Salt||181828-06-8, 35608-40-6||Polycarboxylic Antiscalant, Dispersant|
Abstract: Computational chemists have actually produced a unique, synthetic, three-stranded particle that operates just like a natural metalloenzyme, or an enzyme which contains metal ions. Enzymes are nature’s powerhouses. Discovered in the cells of all animals, plants, as well as every other living microorganism, they accelerate the chain reactions that activate countless organic functions– from […]
Abstract: Maleic anhydride is used as raw material, sodium tungstate is used as catalyst, hydrogen peroxide is used as a cyclizing agent and Ca(OH)2 is used as an initiator. Polyepoxysuccinic acid (PESA) water treatment chemical was prepared by aqueous solution polymerization. PESA is a green, highly effective scale inhibitor. The optimal synthesis conditions were determined […]
Benzotriazole Corrosion Inhibitor Analysis in the Action Mechanism Abstract: This post introduces the properties and mechanism of benzotriazole corrosion inhibitors. The synergistic action of benzotriazole and imidazole better illustrates the progress of the sustained release. Combined with the corrosion example of copper in sodium chloride solution to illustrate the corrosion inhibition of triazole compounds. Keywords: […]
Abstract: A water-soluble copolymer scale inhibitor was synthesized from acrylic acid (AA) and 2-acryloyl-2-methyl propane sulfonic acid (AMPS). The scale inhibition and dispersion properties of the copolymer were determined. The effects of monomer ratio, reaction temperature and molecular weight modifier on the scale inhibition performance of the copolymer were investigated. Keywords: sulfonic acid, copolymer, scale […]
This article describes the commonly used experimental methods for assessing the biodegradability of polyacrylic acid polymers. It is recommended to use the carbon dioxide (PCD), oxygen consumption (COD) and infrared spectroscopy images of biodegradation to comprehensively analyze the biodegradability of polyacrylic acid polymers. The volume of the bioreactor is 2L, the concentration of the tested […]