Chemtex Speciality Limited

  Water is one of the important resources, and ensuring its purity and availability is crucial for both industrial and domestic use. Reverse Osmosis Technology plays a vital role in the removal of impurities such as salts, minerals, and other contaminants from water for various applications, including drinking water, industrial processes, and boiler water treatment. The RO membrane is the heart of the RO System designed with a dense, thin, and semi-permeable layer that allows water molecules to pass through while rejecting dissolved solids and other contaminants. The RO Membrane operates under high pressure and requires continuous cleaning and maintenance to prevent fouling and scaling. What Causes the formation of scales in RO membranes? The level of hardness salts present in the feed water is the foremost reason. When such feed water passes through the RO Membrane, the concentration of these salts gets precipitated over the surface of the membrane. Overtime deposition of such s

  Effluent Treatment or Industrial wastewater treatment consists of mechanisms and processes which are used to treat water that have been contaminated by anthropogenic, industrial or commercial activities prior to its release into the environment. Industrial wastewater serves as one of the important pollution sources that add up in polluting the water environment. The sewage sludge produced is subjected to sludge treatment. Many problems are associated with wastewater collection and treatment such as foaming, solid accumulation, high BOD, sludge de-watering, heavy metals and offensive odour.   But such treatments are no more complicated processes, since there are chemicals that are applicable for the treatment. These chemicals follow various treatment mechanisms in various different standards, which include from chemically treating raw wastewater before discharging it into the environment, to recovering valuable resources from sludge treatment and wastewater. Conventional treatment c

 In modern drilling operations, the use of drilling polymers and polymer additives has revolutionized the way drilling fluids are formulated and employed. Drilling Polymers effectively flocculate drill cutting, high and low-quality clay, driving them out of the well, and inhibiting their dispersion. Its usage in drilling operations is proven the remove fluid loss, increase drilling mud viscosity, and remove colloidal from deep drilling foundations. Drilling Polymers serve multiple purposes in drilling operations, commonly used as additives in drilling fluids, or as drilling mud. The main purpose of using this is to control viscosity, also suitable for plumb shafts, horizontal wells, deep shafts, etc. The absorbency and retention capacity help to minimize waste disposal costs, treatment time, and environmental impact . Advantages of Using PHPA-Based Drilling Polymer PHPA (partially hydrolysed polyacrylamide) are indispensable polymer in various industries. These water-soluble comp

  E DTA or Ethylenediaminetetraacetic acid is a weak acid used as a chelating agent. Ethylenediamine tetra acetic acid contains an amino carboxylic group with the formula C10H16N2O8. It is a versatile chemical compound with a wide range of applications across various industries. EDTA is considered an anthropogenic compound with the ability to sequester various polyvalent cations, use to minimize metal contaminants, and facilitate enzymatic reactions that could be inhibited by heavy metal traces.   How Does EDTA Work? EDTA is a versatile compound with strong chelating properties that grabs metallic cations such as lead or calcium from the process. Its chemical structure contains four carboxylic acid groups and two amine groups, which allow it to form strong bonds with metal ions, preventing them from reacting with other substances, If the bond is weak, other chemicals can break this bond to form their own compounds. EDTA is the most widely used chelating agent for the removal of

  Water is the driving force of all nature.   “When the well's dry, we know the worth of water.” Therefore, its finite source demands our utmost care and attention. The growing demand has led to innovative solutions in the form of water treatment chemicals. In the world of water treatment chemicals for boilers, cooling towers, closed circuit systems, wastewater, and effluents, RO Systems are collectively regarded as processes that aid in making water more acceptable and provide clear, safe water for drinking, industrial processes, and more. Water impurities such as Chloride, Sulphates, Silicate of Sodium, Potassium, Calcium, Magnesium, Barium, and impurities that get accumulated over the surfaces, leading to formation scales.   RO Chemicals, Cooling Tower Chemicals, and Boiler Water Treatment Chemicals play a crucial role in enhancing water quality and sustainability. Polyelectrolytes – Polyelectrolytes unleash the power of precipitation in water treatment. These polymers with

  Agriculture industry plays an essential role in enhancing productivity, sustainability, and overall crop health.   It manages food security for an increasing population and a number of rural people rely on it for hand-to-mouth income. As traditional methods faced some hurdles by climate change, pests, and diseases which resulted in damage to crops as well as destroying the hard work of farmers. It can be controlled by soil disinfection that includes various harsh chemicals or high-temperature treatments that give a bad impact on soil health and the environment. Nano Silver Hydrogen Peroxide is a game-changing technology that seamlessly combines the power of silver nanoparticles and hydrogen peroxide and can be used as a nematicide in agriculture fields, protecting crops and plantations from serious diseases. Compared to other forms of disinfectant such as glutaraldehyde, QAC, Formaldehyde, Chlorine ion, the disinfecting efficacy of Nano Silver Stabilized Hydrogen Peroxide finds it

  Heavy engineering industries like Iron & Steel, Alloy Manufacturing, Thermal Power, etc face one common issue i.e., formation of scales and deposits over metal surfaces in their boilers, condensers and heat exchangers. These industries undergo descaling process using acids. Why? Because, acids are cheap and easily available. And the most common acids available this process are Hydrochloric Acid, Nitric Acid and Sulfuric Acid. But these acids are highly corrosive and causes adverse effect on metal surfaces. Sulfamic Acid, also known as amido sulfuric acid (H 3 NSO 3 ), commercially available in white crystalline solids, is produced from urea and fuming sulphuric acid and finds extensive application in industrial maintenance and cleaning solutions and can be thought of as a replacement to the use of commonly used cheap acids for enhanced efficacy and results. Let us understand some of the unique properties. Highly Acidic: Highly effective at dissolving and removing mineral de

  The chemical industry is a key contributor to social and economic development. Over the past couple of years, the Indian economy has been resilient. As the country continues its growth, the chemical industry stands ready to contribute to this growth by improving the ease of doing business, increasing self-sufficiency, and boosting incremental manufacturing output. However, as global environmental concerns escalate, the importance of sustainable manufacturing practices for these chemical suppliers cannot be overstated. Sustainability is high in every industry, The focus has grown significantly, and the chemical industry is not an exception. Various Industries are changing their ways of using resources as a result of global warming and climate change.   How sustainability creates value? The Pressure is also on for the manufacturing and chemical industry because chemicals are embedded in more than 96% of manufactured goods. Specialty chemical manufacturers play a crucial role in va

  Recently, materials science has made significant advances, with numerous applications across various industries. One such innovation that has gained enormous attention is polyacrylate-based superabsorbent polymers. They are extraordinary substances that possess the remarkable capacity to absorb and retain large quantities of liquids, which can prove vital in a variety of different sectors, right from personal care products, agriculture to medical applications and beyond. Polyacrylate based Super Absorbent Polymer is composed up of acrylic acid blended with sodium hydroxide to form a three-dimensional network structure that can absorb 300 – 400 times water and retain large amounts of liquid relative to its own weight. The ability of water retention polymer depends upon the ionic concentration of an aqueous solution.   These polymers, also known as SAP, play a crucial role in water management, moisture retention, and enhancing the efficiency of various industries. Let us understa