Fatty Acid Product Line For Soap Production in Guinea

Fatty Acid Product Line For Soap Production in Guinea

• Use: Cooking Oil
• Type:Cooking Oil Production Line
• Production Capacity: 1%
• Motor Power: 18.5kw, 50Hz
• Dimension(L*W*H): 950*800*1000mm
• Weight (KG): 5200 kg
• Advantage of oil extraction process: Sunflower Oil seed ,Sunflower seed
• Market: Guinea

Soap, Fatty Acids, and Synthetic Detergents | SpringerLink

The boiling of fats with ashes was recorded as early as 2500 B.C. Commercial soap-making was a widespread art in the Middle Ages in Europe. The invention of the soda ash process by LeBlanc in 1791 and the discovery by Chevreul in 1811 that soap was composed of a mixture of fatty acids paved the way to modern soap-manufacturing processes [1, 2].

Alkylphenol is a common surfac-tant intermediate used to produce alkylphenol ethoxylates. Phenol reacts with an olefin ther-mally without a catalyst, but with relatively poor yields. Catalysts for the reaction include sulfuric acid p-toluene sulfonic acid (PTSA), strong acid resins, and boron trifluoride (BF3).

Soap, Fatty Acids, and Synthetic Detergents, Springer

Soap products in the United States are produced almost exclusively from tallow (beef) fat and coconut oil or their fatty acid derivatives. The utilization of palm oils, palm kernel oil, and their derivatives for soap manufacture is more commonly practiced in many other parts of the world, especially in Asia.

The average percentage of myristic acid in the favorite soap recipes of soapmakers polled rounds in at 7%. Most recipes clocked in at 4% to 7% myristic acid, but there were a few outliers with slightly higher percentages of myristic acid. My favorite formulas tend to fall in the same ranges, between 4% and 7% myristic acid.

Fatty Acids for Soap Production, Labinsights

The most popular fatty acids used for soap-making include: lauric, myristic, palmitic, stearic, ricinoleic, oleic, linoleic, and linolenic acids, each bringing unique properties to the finished product. Below are some of the best-selling soaps of fatty acids at Alfa Chemistry: Sodium caprate (CAS 1002-62-6), Sodium caproate (CAS 10051-44-2

As expected, the hardness of the soap bars from the various blends increased with increasing PK fatty acid. Total fatty matter ranged from 76–85%, free caustic content was 0.1%, and sodium

Properties of soaps derived from distilled palm stearin and palm

With the expansion of oleo chemical industry, raw materials for soap making, fatty acids of C12 – C18 hydrocarbon chain, are easily available. The sources of C16 – C18 fatty acids are tallow, palm oil and palm stearin, a fractionated product of palm oil while C12 – C14 fatty acids are palm kernel oil and coconut oil.

The fatty acids we are concerned with for soap making are: lauric, myristic, palmitic, stearic, ricinoleic, oleic, linoleic and linolenic acids. Each brings properties to the process of soapmaking and the finished product. We will discuss one fatty acid per post. The first two posts dealt with lauric and myristic acid, which make hard bars with

Saponification plants for the production of solid soap | Soaptec

Saponification is the name given to all those processes that transform raw materials into liquid soap, which is also called “neat soap”. The raw materials can be neutral fats, fatty acids or combinations of the two. The saponification of neutral fats (triglycerides) also produces glycerine. Depending on the type of product to be created

Metallic soaps are made from long-chained fatty acids and a metal oxide or hydroxide. The conversion is, chemically speaking, a typical acid-base reaction. The fatty acids used are often derived from plant-based fats or oils. The technically most significant group of metallic soaps is metallic stearates, which have various industrial applications.