Wise Guy Reports
Wise Guy Reports press releases
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Sapienic acid is an important fine Chemical. Fatty acids can be produced by hydrolysis of the fats or oils (triglycerides) or the fractional distillation of tall oil. The hydrolysis can be carried out with sulphuric acid at low temperature or in the presence of a catalyst. Glycerin is obtained as a by-product. These fatty acids can be further refined by fractional distillation. The ester is then formed over a solid catalyst. The chain length of the acid depends very much on the origin of the oil and fat...
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Palmitoleic acid is an important fine Chemical. Fatty acids can be produced by hydrolysis of the fats or oils (triglycerides) or the fractional distillation of tall oil. The hydrolysis can be carried out with sulphuric acid at low temperature or in the presence of a catalyst. Glycerin is obtained as a by-product. These fatty acids can be further refined by fractional distillation. The ester is then formed over a solid catalyst. The chain length of the acid depends very much on the origin of the oil and...
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Stearic acid is an important fine Chemical. Fatty acids can be produced by hydrolysis of the fats or oils (triglycerides) or the fractional distillation of tall oil. The hydrolysis can be carried out with sulphuric acid at low temperature or in the presence of a catalyst. Glycerin is obtained as a by-product. These fatty acids can be further refined by fractional distillation. The ester is then formed over a solid catalyst. The chain length of the acid depends very much on the origin of the oil and fat...
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Palmitic acid is an important fine Chemical. Fatty acids can be produced by hydrolysis of the fats or oils (triglycerides) or the fractional distillation of tall oil. The hydrolysis can be carried out with sulphuric acid at low temperature or in the presence of a catalyst. Glycerin is obtained as a by-product. These fatty acids can be further refined by fractional distillation. The ester is then formed over a solid catalyst. The chain length of the acid depends very much on the origin of the oil and fat...
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Pentadecylic acid is an important fine Chemical. Fatty acids can be produced by hydrolysis of the fats or oils (triglycerides) or the fractional distillation of tall oil. The hydrolysis can be carried out with sulphuric acid at low temperature or in the presence of a catalyst. Glycerin is obtained as a by-product. These fatty acids can be further refined by fractional distillation. The ester is then formed over a solid catalyst. The chain length of the acid depends very much on the origin of the oil and...
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Myristic acid is an important fine Chemical. Fatty acids can be produced by hydrolysis of the fats or oils (triglycerides) or the fractional distillation of tall oil. The hydrolysis can be carried out with sulphuric acid at low temperature or in the presence of a catalyst. Glycerin is obtained as a by-product. These fatty acids can be further refined by fractional distillation. The ester is then formed over a solid catalyst. The chain length of the acid depends very much on the origin of the oil and fat...
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Lauric acid is an important fine Chemical. Fatty acids can be produced by hydrolysis of the fats or oils (triglycerides) or the fractional distillation of tall oil. The hydrolysis can be carried out with sulphuric acid at low temperature or in the presence of a catalyst. Glycerin is obtained as a by-product. These fatty acids can be further refined by fractional distillation. The ester is then formed over a solid catalyst. The chain length of the acid depends very much on the origin of the oil and fat...
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Capric acid is an important fine Chemical. Fatty acids can be produced by hydrolysis of the fats or oils (triglycerides) or the fractional distillation of tall oil. The hydrolysis can be carried out with sulphuric acid at low temperature or in the presence of a catalyst. Glycerin is obtained as a by-product. These fatty acids can be further refined by fractional distillation. The ester is then formed over a solid catalyst. The chain length of the acid depends very much on the origin of the oil and fat...
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Pelargonic acid is an important fine Chemical. Fatty acids can be produced by hydrolysis of the fats or oils (triglycerides) or the fractional distillation of tall oil. The hydrolysis can be carried out with sulphuric acid at low temperature or in the presence of a catalyst. Glycerin is obtained as a by-product. These fatty acids can be further refined by fractional distillation. The ester is then formed over a solid catalyst. The chain length of the acid depends very much on the origin of the oil and...
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Caprylic acid is an important fine Chemical. Fatty acids can be produced by hydrolysis of the fats or oils (triglycerides) or the fractional distillation of tall oil. The hydrolysis can be carried out with sulphuric acid at low temperature or in the presence of a catalyst. Glycerin is obtained as a by-product. These fatty acids can be further refined by fractional distillation. The ester is then formed over a solid catalyst. The chain length of the acid depends very much on the origin of the oil and fat...
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Enanthic acid is an important fine Chemical. Fatty acids can be produced by hydrolysis of the fats or oils (triglycerides) or the fractional distillation of tall oil. The hydrolysis can be carried out with sulphuric acid at low temperature or in the presence of a catalyst. Glycerin is obtained as a by-product. These fatty acids can be further refined by fractional distillation. The ester is then formed over a solid catalyst. The chain length of the acid depends very much on the origin of the oil and fat...
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Caproic acid is an important fine Chemical. Fatty acids can be produced by hydrolysis of the fats or oils (triglycerides) or the fractional distillation of tall oil. The hydrolysis can be carried out with sulphuric acid at low temperature or in the presence of a catalyst. Glycerin is obtained as a by-product. These fatty acids can be further refined by fractional distillation. The ester is then formed over a solid catalyst. The chain length of the acid depends very much on the origin of the oil and fat...
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Valeric acid is an important fine Chemical. Fatty acids can be produced by hydrolysis of the fats or oils (triglycerides) or the fractional distillation of tall oil. The hydrolysis can be carried out with sulphuric acid at low temperature or in the presence of a catalyst. Glycerin is obtained as a by-product. These fatty acids can be further refined by fractional distillation. The ester is then formed over a solid catalyst. The chain length of the acid depends very much on the origin of the oil and fat...
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Butyric acid is an important fine Chemical. Fatty acids can be produced by hydrolysis of the fats or oils (triglycerides) or the fractional distillation of tall oil. The hydrolysis can be carried out with sulphuric acid at low temperature or in the presence of a catalyst. Glycerin is obtained as a by-product. These fatty acids can be further refined by fractional distillation. The ester is then formed over a solid catalyst. The chain length of the acid depends very much on the origin of the oil and fat...
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Propionic acid is an important food preservative. Chemical preservation is used to delay spoilage, enhance color and flavor, and maintain consistency and texture of foods. Propionic acid can use either singly or in combination2014with other preservatives, the total not to exceed the maximum.The global food spreads market witnessed sales increase in value terms through 2010 to 2014 with an average annual growth of about 7 percent, while Propionic acid preservative market is growing at the rate of 4...
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Ceto-Stearyl Alcohol is a fatty alcohol. Fatty alcohols are oleochemicals derived from vegetable feedstocks. The raw materials include coconut and palm kernel oils. Fatty Alcohols are widely used in surfactant, in the form of fatty alcohol ethoxylates, fatty alcohol sulfates and fatty alcohol ethoxy sulfates. They are commonly found in personal care, oral care, laundry detergents, dish washing liquid, surface cleaners, cosmetics creams and lotions. Other industrial application includes anti...
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Lauryl-Stearyl Alcohol is a fatty alcohol. Fatty alcohols are oleochemicals derived from vegetable feedstocks. The raw materials include coconut and palm kernel oils. Fatty Alcohols are widely used in surfactant, in the form of fatty alcohol ethoxylates, fatty alcohol sulfates and fatty alcohol ethoxy sulfates. They are commonly found in personal care, oral care, laundry detergents, dish washing liquid, surface cleaners, cosmetics creams and lotions. Other industrial application includes anti...
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Lauryl-Stearyl Alcohol is a fatty alcohol. Fatty alcohols are oleochemicals derived from vegetable feedstocks. The raw materials include coconut and palm kernel oils. Fatty Alcohols are widely used in surfactant, in the form of fatty alcohol ethoxylates, fatty alcohol sulfates and fatty alcohol ethoxy sulfates. They are commonly found in personal care, oral care, laundry detergents, dish washing liquid, surface cleaners, cosmetics creams and lotions. Other industrial application includes anti...
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Lauryl-Myristyl Alcohol is a fatty alcohol. Fatty alcohols are oleochemicals derived from vegetable feedstocks. The raw materials include coconut and palm kernel oils. Fatty Alcohols are widely used in surfactant, in the form of fatty alcohol ethoxylates, fatty alcohol sulfates and fatty alcohol ethoxy sulfates. They are commonly found in personal care, oral care, laundry detergents, dish washing liquid, surface cleaners, cosmetics creams and lotions. Other industrial application includes anti...
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Cetyl Alcohol is a fatty alcohol. Fatty alcohols are oleochemicals derived from vegetable feedstocks. The raw materials include coconut and palm kernel oils. Fatty Alcohols are widely used in surfactant, in the form of fatty alcohol ethoxylates, fatty alcohol sulfates and fatty alcohol ethoxy sulfates. They are commonly found in personal care, oral care, laundry detergents, dish washing liquid, surface cleaners, cosmetics creams and lotions. Other industrial application includes anti oxidant, falvour...
