A fatty acid is a generic term for an aliphatic organic acid having a carboxyl group in a molecule. In the beneficiation industry, the hydroxyl-based collector used in flotation. Its general formula is R-COOH, and the R group is a linear or branched alkane group, an alkene group or a cycloalkyl group. According to its carbon chain length and nature, it can be used as a foaming agent, inhibitor and dispersant in addition to being used as a collector. Natural animal and vegetable oils and oils are the main raw materials for fatty acids. After the oil or fat is hydrolyzed or saponified, it is decomposed into a fatty acid or a fatty acid soap (sodium soap or potassium soap), and the soap is re-acidified to form a fatty acid. The naphthenic acid sodium soap by-product is obtained by washing some crude petroleum fraction with a base, and then acidified to obtain naphthenic acid. The hydrocarbon compounds such as refined kerosene and paraffin are further subjected to deep oxidation and separation to obtain a mixed fatty acid or a relatively pure single fatty acid. Fatty acids are customarily classified into lower fatty acids and higher fatty acids according to the length of their carbon chains. A molecule having less than ten carbon atoms is a lower fatty acid, and a carbon number of ten or more is a higher fatty acid. Fatty acids have unsaturated bonds (such as double bonds) in the carbon chain called unsaturated fatty acids, and unsaturated bonds are called saturated fatty acids. Natural unsaturated fatty acids are mainly oleic acid, linoleic acid, linolenic acid and ricinoleic acid. Natural saturated fatty acids are mainly stearic acid, palmitic acid, myristic acid, lauric acid, citric acid, caprylic acid and caproic acid. Higher fatty acids have higher foam stability than lower fatty acids. For example, the sodium salts of oleic acid, linoleic acid and stearic acid can form a stable foam. The concentration of the agent in the foam layer is higher than the concentration of the agent in the slurry. When the concentration of the different drug solutions reaches a certain value, the solution clearly forms a micelle, and the concentration of the agent when a single molecule or ion starts to aggregate into the ordered molecular group is called the "critical micelle concentration" of the agent. This concentration is closely related to the flotation and collection. For example, the adsorption of sodium oleate by magnetite increases with the increase of the concentration of the agent, and the floatability also increases. However, when the concentration of the agent rises to be close to the critical micelle concentration, the floatability drops significantly and even tends to zero.
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Amino compound
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Oxy-containing amino compound
Cycloalkylamines, aromatic monoamines, aromatic polyamines and derivatives and salts thereof
Acyclic monoamines, polyamines and their derivatives and salts
Amide compound
Sulfonic acid amino compound
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Alcohols, phenols, phenolic compounds and derivatives
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2-cycloalcohol
Halogenated, sulfonated, nitrated or nitrosated derivatives of alcohols
Extremely halogenated, sulfonated, nitrated or nitrosated derivatives of phenols
Phenol and its halogenated, sulfonated, nitrated or nitrosated derivatives
Acyclic alcohol
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Nitrogen-containing compound
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Nitrile compound
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Organic derivative of hydrazine or hydrazine
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Terpenoid
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Ether compounds and their derivatives
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Ether, ether alcohol
Halogenation, sulfonation, nitration or nitrosation of ethers, ether alcohols, ether phenols
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Aldehyde
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Carboxylic compounds and derivatives
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Cyclic carboxylic acid
Halogenation, sulfonation, nitration or nitrosation of carboxylic acids
Halogenation, sulfonation, nitration or nitration of carboxylic anhydrides
Carboxylic acid halide
Carboxylic esters and their derivatives
Salt of carboxylic acid ester and its derivatives
Acyclic carboxylic acid
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Hydrocarbon compounds and their derivatives
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Aromatic hydrocarbon
Cyclic hydrocarbon
Hydrocarbon sulfonate
Hydrocarbon halide
Hydrocarbon nitrite
Acyclic hydrocarbon
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Ketone compound
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Alkyl ureas and their derivatives and salts
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Inorganic acid ester
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Heterocyclic compound
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Diazo, azo or azo compound
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Organosilicon compound
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Organometallic compound
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Organic palladium
Organic germanium, cobalt, strontium, barium, gallium, germanium, germanium, germanium, germanium, etc.
Organic calcium
Zirconium
Organic potassium
Organic
Organic lithium
Organic
Organic aluminum
Organotin
Organic manganese
Organic sodium
Organic nickel
Organic titanium
Organic iron
Organic copper
Organotin
Organic zinc
Organic
Organic
Organic germanium, mercury, silver, platinum, etc.
Organic germanium, antimony, bismuth, tungsten, antimony, bismuth, lead, vanadium, molybdenum, chromium, antimony, etc.
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Organic sulfur compound
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Organic phosphine compound
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Organometallic salt
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Organic fluorine compound
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Fluorobenzoic acid series
Fluorobenzonitrile series
Fluorobenzaldehyde series
Fluorobenzyl alcohol series
Fluoroanisole series
Fluoroaniline series
Fluorophenylacetic acid series
Fluorophenol series
Fluorobenzoic acid series
Fluoronitrobenzene series
Fluoropyridine series
Potassium fluoroborate series
Fluorobenzyl alcohol series
Fluorotoluene series
Fluorine red series
Fluoroethane series
Fluoropropane series