- Free Fatty Acid : 69.29% - Iodine Value (Wijs) : 10.10 - Moisture and Impurity : 0.98% - Saponification Value : 250.60 - Total Fatty Matter : 95 .83 Packing New drum 180kg/drums
A by-product of refining, the free fatty acid distillates of crude coconut oil are perfect raw materials for soap making. Coconut fatty acid distillate is liquid at room temperature and this product which has a high demand is exported in bulk by SMR.
Coconut Fatty Acid Distillate is the by-product collected from coconut oil refineries which takes the form of reddish brown liquid at room temperature. Our CFAD contains a high percentage of lauric fatty acid, making it perfect to be used in soap manufacturing, cosmetics and biodiesel industries.
Fully liquid at above 26C, Brown until reddish Melting point, C : 24 - 26 pecific gravity (40C/20C) : 0.908 - 0.921 Color : 1 inch cell Lovibond Red : 12 maximum Taste : Brand neutral taste. free from rancid or sour taste Odor : Odorless. Free from rancid odour Free Fatty Acid (as Lauric Acid). % : 60 Minimum Iodine Value (Wijs) : 15 Maximum Moisture & Impurities : 0.5% max
One of the most well-known and sought-after byproducts of the refining process of vegetable (mostly sunflower) oil are fatty acids. Fatty acids, an industrial product with a GMP+ certification, are mostly used in the animal formula and feed sector. This is because adding fatty acids or fatty acid-based compounds to an animal feed ration can reduce feed costs. Fatty acids are crushed and processed through a whole cycle. In addition, they are utilized in the manufacturing of soap, glycerin, and stearin, as well as in the food processing industry as a direct formula component. Tocopherols.
1. What is PFAD PFAD stands for Palm Fatty Acid Distillate. It is a processing residue resulting from physical refining of crude palm oil products. At room temperature it is a light brow semi-solid, melting to a brown liquid on heating. Up to 80 percent of PFAD is free fatty acid (FFA), with palmitic acid and oleic acid being the major components. The remaining 20 percent is made up of components including triglycerides, partial glycerides, and vitamin E, sterols and squalene's. 2.How is PFAD used? PFAD is used as a renewable raw material in biofuels production as well as to produce candles, soaps, other oleochemical products, and animal feed. Specific to biofuel production in Europe, the EU allows Member States to account PFAD consumption towards greenhouse gas emissions reductions under its Renewable Energy Directive. The amount of emissions reductions depends on the PFAD technical classification, a residue or co-product, which is up to the individual Member State. To verify the emissions reductions, the EU relies on voluntary certification schemes, such as the International Sustainability and Carbon Certification system. 3.What are the benefits6 of using PFAD Producing renewable fuels using PFAD is good for the climate. It is an efficient way to use waste generated through the palm oil refining process, preventing PFAD from going to literal waste. A by-product that is undesirable from the food industry perspective can be very desirable for other sectors. Neste MY Renewable Diesel7 which is refined from PFAD and other waste and residue materials, such as Used Cooking Oil (UCO), helps to replace crude oil-based diesel in transportation. Using Neste MY Renewable Diesel can reduce greenhouse gas emissions by 90 percent on average compared to a diesel-powered vehicle using conventional fossil fuel-based diesel.
Coconut Fatty Acid Distillate is the side product obtained during the refining process of crude coconut oil. Packing : Flexi container /20', @ 22MT Shelf life : 24 months, if stored in a clean, cool and dry place Origin : Indonesia
DCO Fatty Acid is used in the manufacture of alkyd resins for paint, surface coating, printing inks & polyamides. Packing : Bulk Tankers, Stainless Steel Drums, ISO Tank, Flexi tank, HDPE Closed Head Drums 190 Kgs Net. It is used Fast Drying Alkyde Resin.
CAS Number: 67701-08-0 It is obtained by splitting and the subsequent vacuum distillation of rapeseed oil. The product obtained has a melting point above 15 C. When in liquid form, it is bright yellow and with a characteristic odour. Rich in oleic acid. Fatty acids are used, inter alia, in the following sectors: Amines, betaines, esters, fatty alcohols, lubricants, surface finishes, detergents, cosmetics and personal care, and solid liquid soaps, textile finishing, leather finishing, finishing fibers, coatings, resins and surfactants.
CAS Number: 67701-08-0 It is obtained by splitting and the subsequent vacuum distillation of rapeseed oil. The product obtained has a melting point above 15 C. When in liquid form, it is bright yellow and with a characteristic odour. Rich in oleic acid. Fatty acids are used, inter alia, in the following sectors: Amines, betaines, esters, fatty alcohols, lubricants, surface finishes, detergents, cosmetics and personal care, and solid liquid soaps, textile finishing, leather finishing, finishing fibers, coatings, resins and surfactants.
CAS Number: 84625-38-7 Is obtained by splitting and the subsequent vacuum distillation of sunflower oil. The product obtained has a melting point above 20 C. When in liquid it is pale yellow. Sunflower Fatty acids are used among others applications: Amines, betaines, esters, fatty alcohols, lubricants, surface finishes, cosmetics and personal care, and solid liquid soaps, textile finishing, leather finishing, finishing fibers, coatings, resins, detergents and surfactants.
CAS Number: 67701-05-7 Is obtained by splitting and the subsequent vacuum distillation of coconut oil. The product obtained has a melting point above 25 C. It is solid at room temperature, opaque white and with a pungent smell. Unlike other fatty acids, it is characterized by the presence of caprylic acid (up to 10%). Rich in lauric acid. Coconut Fatty acids are used among others applications: Amines, betaines, esters, fatty alcohols, detergents, cosmetics and personal care, soaps and liquid, textile finishing, leather finishing, finishing fibers, coatings, resins and surfactants.
CAS Number: 68424-45-3 It is obtained by splitting and the subsequent vacuum distillation of linseed oil. The product obtained has a melting point above 19 C. When in its liquid state it is pale yellow. Linolenic acid-richLinseed. Fatty acids are used among others aplications: Amines, betaines, esters, fatty alcohols, lubricants, surface finishes, technical detergents, liquid soaps and solids, textile finishing, leather finishing, finishing fibers, coatings, resins, surfactants.
CAS Number: 68308-53-2 Obtained by splitting and the subsequent vacuum distillation of soybean oil. The product obtained has a melting point above 25 C. Solid yellow or clear fluid at room temperature. Rich in linoleic acid and less in oleic acid. Soya Fatty acids are used among others application's: Amines, betaines, esters, fatty alcohols, lubricants, surface finishes, detergents, cosmetics and personal care, and solid liquid soaps, textile finishing, leather finishing, finishing fibers, coatings, resins, and surfactants.
Palm Fatty Acid Distillate is manufactured from Crude Palm Oil refining. Good for Soap manufacturing and many other industrial uses. Contact us for technical specifications
Fatty Acid C8-C10(CAS:68937-75-7)
Fatty acids, C5-9, tetraesters with pentaerythritol(CAS:67762-53-2) Fatty acids, C5-9, tetraesters with pentaerythritol 67762-53-2 Einecs 267-022-2
Fatty acids, C5-9, tetraesters with pentaerythritol(CAS:67762-53-2) Fatty acids, C5-9, tetraesters with pentaerythritol 67762-53-2 Einecs 267-022-2
TOFA is separated and distilled off from various natural oil stocks and often blended with other fats to provide a better fat profile to be used for several industrial chemical manufacturing processes. Especially for amide and bis-amide synthesis, combination of saturated and unsaturated fatty acid imparts low Tg and favors less crystallization. It can also be used for chain termination additive for various polymerization processes. Provides structural support between casing and wellbore. Acts as a barrier to prevent steel corrosion. Blocks oil, gas, or water from traveling through the annulus. Protects fresh water aquifers. Prevents the inflow of undesirable hydrocarbons. Mixed with retarders to slow down the setting process
Urja Shakti
