MONO SODIUM PHOSPHATE

MONO SODIUM PHOSPHATE belongs to the class inorganic compounds having a chemical formula of NaH2PO4 with a molecular mass of 119.98 grams per mol. They physically appear as white crystalline powder with a density of 2.36 grams per cubic centimeters. These substances are highly soluble in water at a solubility rate of 59.9 grams per 100 milliliters. MONO SODIUM PHOSPHATE are commonly used as food additives in toothpaste, animal feed, and evaporated milk. They can also be used as a thickening agent and emulsifier. These industrial-grade substances are available in highly pure form with a purity of 99 percent. 

Anhydrous Monobasic Sodium Phosphate

Silicone Defoamer

Its common knowledge that in a variety of industrial processes, foam poses serious problems, hindering productivity and efficiency, a notable example being foam preventing containers from efficiently being filled. Keeping this in mind, we are engaged in offering superior quality Silicone Defoamers. The Silicone Defoamers offered by us are widely used in industrial processes to ensure the rapid collapse of existing foam. Ideal for use in both non-aqueous as well as aqueous systems, these have unrivaled features such as minimal reaction with process ingredients, high persistence etc. Our valuable clients can avail the defoamers from us as per their requirements in bulk at affordable rates.

A silicone defoamer, also known as an antifoaming agent or defoaming agent, is a type of chemical additive used to control or eliminate foam in various industrial processes and applications. Foam, which is a collection of small bubbles trapped in a liquid or solid, can interfere with the efficiency of industrial processes, reduce product quality, and even cause equipment damage in some cases. Silicone defoamers are specifically designed to reduce or prevent foam formation by destabilizing foam bubbles and breaking them apart.


Here are some key points about silicone defoamers:


1. Composition Silicone defoamers are typically composed of silicone-based compounds, such as polydimethylsiloxane (PDMS), which is a type of silicone oil. Other components may include silica particles, hydrophobic solids, and various surfactants or dispersants. The exact composition of a silicone defoamer can vary depending on its intended application and performance requirements.


2. Mechanism of Action Silicone defoamers work by lowering the surface tension of the liquid, which helps to destabilize foam bubbles and promote their collapse. The silicone oil in the defoamer acts as a spreading agent, forming a thin film on the surface of the foam bubbles and preventing them from coalescing or stabilizing. This disrupts the foam structure and allows the trapped air or gas to escape, leading to the elimination of foam.


3. Applications Silicone defoamers are used in a wide range of industrial processes and applications, including:

   - Food and Beverage Processing In the food and beverage industry, silicone defoamers are used to control foam during the production of various products, such as beer, wine, dairy products, and soft drinks.

   - Pulp and Paper Manufacturing Silicone defoamers are added to pulp and paper manufacturing processes to prevent foam formation during pulping, bleaching, and papermaking operations.

   - Chemical Processing They are used in chemical processing industries, such as pharmaceuticals, agrochemicals, and specialty chemicals, to control foam in reaction vessels, fermentation tanks, and mixing operations.

   - Water Treatment Silicone defoamers are used in water and wastewater treatment processes to control foam in aeration tanks, clarifiers, and settling basins.

   - Paints and Coatings They are added to paint and coating formulations to prevent foam during manufacturing, application, and storage.


4. Safety and Environmental Considerations Silicone defoamers are generally regarded as safe for their intended applications when used in accordance with recommended guidelines and dosage levels. However, like any chemical additive, they should be handled with care to minimize risks to human health and the environment. Regulatory authorities may impose restrictions on the use of silicone defoamers in certain applications, particularly in food and pharmaceutical processing, to ensure compliance with safety and quality standards.


Overall, silicone defoamers play a critical role in controlling foam in industrial processes, helping to improve operational efficiency, product quality, and safety.

Octanol Chemical

The Octanol Chemical offered by us is perfectly suited for use in perfumes and flavorings. Owing to innumerable beneficial attributes such as purity, effectiveness etc., it is the foremost choice of various renowned organizations involved in formulating perfumes and flavorings. Along with the aforementioned, the Octanol Chemical offered by us can also be used for evaluating the lipophilicity of pharmaceutical products, their ability to be dissolved in oils, lipids and various other non polar solvents. The chemical has a pungent odor and a long shelf life, ensuring it's suitability to a wide range of processes.


2-octanol, also known as sec-octyl alcohol or 1-octanol, is a chemical compound with the molecular formula C8H18O. It belongs to the family of alcohols and specifically the subgroup of octanols. 


Here are some key points about 2-octanol:


1. Chemical Structure 2-octanol has a straight-chain structure with eight carbon atoms (C8) and a hydroxyl (-OH) functional group attached to the second carbon atom in the chain. Its molecular formula can be written as CH3(CH2)6CH(OH)CH3.


2. Physical Properties At room temperature, 2-octanol is a colorless liquid with a characteristic mild, alcohol-like odor. It has a relatively low melting point and boiling point compared to larger alcohols.


3. Solubility 2-octanol is sparingly soluble in water but soluble in many organic solvents, such as ethanol, ether, and chloroform. Its solubility in water decreases with increasing carbon chain length.


4. Uses

   - Solvent 2-octanol is commonly used as a solvent in various industrial and laboratory applications, including in the production of paints, coatings, adhesives, and cleaning products.

   - Flavor and Fragrance It is sometimes used as a flavoring agent or fragrance ingredient in the cosmetic, personal care, and food industries.

   - Chemical Intermediate 2-octanol can serve as a precursor or intermediate in the synthesis of other chemicals and compounds, including plasticizers, esters, and surfactants.


5. Safety Considerations While 2-octanol is generally regarded as safe for its intended uses, proper handling and storage precautions should be followed to minimize risks associated with its use. It is important to consult safety data sheets and follow recommended guidelines when working with this compound.


Overall, 2-octanol is a versatile chemical with diverse applications in various industries, primarily due to its properties as a solvent and chemical intermediate.

X


Back to top