CN1055916A - One one-step salt-making process for preparing naphthenic acid dedicated to paint - Google Patents
One one-step salt-making process for preparing naphthenic acid dedicated to paint Download PDFInfo
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- CN1055916A CN1055916A CN 91104018 CN91104018A CN1055916A CN 1055916 A CN1055916 A CN 1055916A CN 91104018 CN91104018 CN 91104018 CN 91104018 A CN91104018 A CN 91104018A CN 1055916 A CN1055916 A CN 1055916A
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- naphthenic acid
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- alkaline residue
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- GNLJWKVDCZBFAV-UHFFFAOYSA-N CCC(CCCC1)C1C1(CC)CCCC1 Chemical compound CCC(CCCC1)C1C1(CC)CCCC1 GNLJWKVDCZBFAV-UHFFFAOYSA-N 0.000 description 1
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Abstract
The present invention is the process for refining that directly prepares the special-purpose naphthenic acid of coatings industry from refining of petroleum by-product waste soda residue.This technology is with a step salify, and being equipped with organic solvent, it is technological core that low temperature is separated out soap, enlarges the solubleness difference of naphthenate and soap effectively, separate so as to the degree of depth that realizes naphthenic acid and lipid acid, guarantee to reach relevant indexs such as precipitate is qualified.
Description
The invention belongs to petroleum refining process and pay the process for refining that the product waste soda residue directly prepares the special-purpose naphthenic acid of coatings industry.
Domestic to naphthenic acid and fatty acid separation process, all continue to use urea complexation, the in addition pre-refining-de-oiling of still needing before separating is usually handled.The general solvent extraction process that adopts is handled in external de-oiling, de-oiling treating process as the U.S. (us02391729) report is seen accompanying drawing 1: oil-containing industry naphthenic acid and solvent flow into extraction tower 2 through mixing tank 1, extract remainder based on naphthenic acid is flowed out through vaporizer 3 in tower 2 top, vaporizer 3 tops are flowed out solvent and are entered extraction agent jar 6, vaporizer 3 underflows go out naphthenic acid through still kettle 4 distillations, and the still top steams solvent and flows into jar 6; The smart naphthenic acid of gained de-oiling flows into the smart naphthenic acid jar 5 of de-oiling at the bottom of the still.The outflow of tower 2 bottoms is removed distillation tower 7 based on the extract of solvent and oil, and tower 7 tops steam solvent and flow into jar 6, the fuel-displaced residual liquid tank 8 that deoils in 7 ends of tower.Domestic degreasing refinement process also adopts solvent extraction process to see accompanying drawing 2: from the next alkaline residue of atmospheric and vacuum distillation unit, just boiling the layering de-oiling in the de-oiling jar 9, the alkaline residue oil residual liquid tank 8 that deoils, the alkaline residue of de-oiling just removes breakdown of emulsion jar 10, add 5-40% ethanol or solvent therein and abolish, suppress emulsification, for extracting creates conditions.Containing the solvent alkaline residue mixes with extraction agent (gasoline kerosene(oil)fraction or allocate appropriate amount of addition agent into) in mixing tank 1, enter extraction tower 2, tower 2 ejects the oil-containing extract and removes distillation tower 7, tower 7 ejects extraction agent inflow extraction agent jar 6 and removes mixing tank 1,7 ends of tower oil raffinate flows into jar 8, the extract remainder at 2 ends of tower flows into distillation tower 7, and ethanol or solvent that tower 7 tops steam flow into solvent tank 11, use for breakdown of emulsion jar 10.7 ends of tower, go out the desolventizing alkaline residue, adds acid-respons and go settlement separate jar 12 in mixing tank 1, and jar 12 tops are overflowed the smart naphthenic acid of de-oiling and removed residual acid through water washing tank 13, flow into the smart naphthenic acid jar 5 of de-oiling.The sour water decontaminated water is handled the field.Above-mentioned recovery naphthenic acid method can only reach simple de-oiling effect, and the product grade is lower, and oleaginousness is more, is called crude naphthenic acid, promptly industrial naphthenic acid.And lipid acid and can use urea complexation and salt forming method separating of naphthenic acid in the smart naphthenic acid of de-oiling of de-oiling after handling and the crude naphthenic acid.Urea complexation is a kind of exploitation technology early, belong to physical and chemical process, see Fig. 3: smart naphthenic acid of de-oiling or crude naphthenic acid (still need and mend row de-oiling processing) in complex reactor 14, are made solvent with ethanol or CCl4, make urea and lipid acid 30-40 ℃ of following complexing, generate white floss.Through filter 16 centrifugations, filtrate being removes the naphthenic acid-solvent mixture of lipid acid.In distillation tower 7, reclaim the ethanol equal solvent, in water washing tank 13, remove the urea of carrying secretly, behind the drying device 17, go still kettle 4 to carry out distillation decoloration, obtain the smart naphthenic acid of finished product.Complex compound after heating (about 90 ℃) hydrolysis, through washing, drying treatment, reclaims and pays product lipid acid in hydrolyzer 18.Aqueous solution of urea can be done chemical fertilizer or part reuse.
Utilize the naphthenic acid magnesium salts to separate greater than the character of the solubleness of the corresponding salt of lipid acid with cadmium salt solubleness in water-ethanol according to Soviet Union Na Miutejin work " petroleum chemistry " introduction, other has document to introduce that lead naphthenate is dissolved in ethanol and lead stearate is insoluble to ethanol.Lead naphthenate is to be 20 at ethanol-sylvite: in the time of the 1(volume), add 20% Pb(NO
3)
2After, be heated to 80 ℃ of preparations, separate back lead salt 10%HNO
3Decompose and the recovery naphthenic acid.Above-mentioned reported in literature the former separation degree of depth when laboratory proofing is limited, and effect is undesirable, and the latter adopts lead salt to impair environment protection, is unsuitable for industrialization.
The objective of the invention is for prepare with a step salt forming method paint drier special-purpose naphthenic acid, require to reach " precipitate is qualified " technical indicator of sign fatty acid content.With the fatty acid content conventionally test data of " precipitate is qualified " contrast in 0.6%(weight) below, and common refining naphthenic acid is difficult to satisfy this requirement.So-called " precipitate is qualified " promptly checked by lead salt precipitation: extracting degreasing naphthenic acid 30 grams, make it saponification to transparent with 30%NaoH and suitable quantity of water heating, add acetic acid lead solution again and make the naphthenic acid lead salt, and slough moisture content, with dimethylbenzene dilution in 1: 3, pour the wide-necked bottle sealing into then, in-8~20 ℃ of refrigerators, deposited three days, do not have obvious lead salt and separate out, it is qualified to be.
The present invention is a kind of chemical process, and starting raw material can be used crude naphthenic acid, and naphthenic acid is made with extra care in de-oiling, but principal feature is that the alkaline residue that directly adopts the process de-oiling to handle is a raw material, and direct salify of a step prepares the special-purpose naphthenic acid of coating.Estimate the special-purpose naphthenic acid quality of coating, directly be not foundation usually, but will carry out sample survey, comprise every indexs such as precipitate detection with the fatty acid content.
The present invention utilizes the inorganic salt (for example magnesium salts etc.) of suitable kind, pass through replacement(metathesis)reaction, sodium napthionate in the alkaline residue and sodium soap are converted into the naphthenate and the soap of corresponding kind, the back adds selected BTX aromatics organic solvent and carries out low temperature crystallization, increase the solubleness difference of naphthenate and soap, separate out the soap that is dissolved in this mixed solvent hardly, the degree of depth is isolated lipid acid whereby.The selected BTX aromatics organic solvent prescription that is fit to is most important for increasing the solubleness difference further, otherwise will obviously reduce its refining depth.
The present invention is to be that raw material and M salt saturated solution [by 1: 0.25-0.35(weight) batching] are in salify convertor 15 with the desolventizing alkaline residue, stir down to make to react to become normal temperature or 50-70 ℃ and be terminal point clearly to water, remove lower layer of water, the hot wash of using 90-95 ℃ then is more than three times, back drying about 125 ℃ discharges water, add 1 to 8 times of (volume) BTX aromatics solvent cut again and obtain M salt product to dissolving fully, send crystallization kettle 19 with it, crystallization under-5~-35 ℃ of temperature under agitation, stop to stir and carry out sedimentation, send strainer 16 to filter, filter residue enters filter residue and handles still 21, by 1: 0.2~0.32(weight) add vitriol oil reduction generation lipid acid, it is washed to neutrality.Filtrate is removed distillation tower 7 through degreasing flow container 20, the heating underpressure distillation goes out mixed solvent and flows into solvent tank 11, making solvent for crystallization kettle 19 uses, tower 7 bottoms go out desolventizing liquid and remove reduction kettle 22, by 1: 0.18~0.25(weight) the adding vitriol oil, reduction generates smart naphthenic acid, delivers to decolouring still kettle 4 again, and vacuum steams the smart naphthenic acid of finished product of decolouring.Its still liquid is dark tar (accounting for the 1-5% of total amount).
The present invention is two step salt forming methods of starting raw material than with the crude naphthenic acid, saving is produced and is needed a large amount of acid that consume, the worker's raw material that alkalizes (finished product saving vitriol oil 1-1.2 ton per ton in crude naphthenic acid process and the preceding saponification process of salify, 30%NaOH0.5~0.6 ton) and energy consumption, simplify technological process, be convenient to wash and remove residual inorganic salt, help guaranteeing quality product, remarkable to guaranteeing " precipitate is qualified " effect.
The simple declaration of accompanying drawing and accompanying drawing
Fig. 1 is U.S.'s de-oiling rectification flow synoptic diagram
Fig. 2 is domestic de-oiling rectification flow synoptic diagram
Fig. 3 is a urea complexation degreasing schematic flow sheet
Fig. 4 is the present invention's one step salt forming method schematic flow sheet
1-mixing tank A-oil-containing crude naphthenic acid
2-extraction tower B-extraction agent
3-vaporizer C-extract remainder
4-still kettle D-extract
The smart naphthenic acid jar of 5-de-oiling E-still liquid
The smart naphthenic acid of 6-extraction agent jar F-de-oiling
7-distillation tower G-oil raffinate
8-oil residual liquid tank H-alkaline residue
9-is the first de-oiling alkaline residue of de-oiling jar I-just
10-breakdown of emulsion jar J-solvent
11-solvent tank K-contains the solvent alkaline residue
Settlement separate jar of M-desolventizing of 12-alkaline residue
13-water washing tank N-sour water
14-complex reactor O-water
P-acid of 15-salify convertor or acid
16-strainer Q-urea
17-moisture eliminator R-complex compound
18-hydrolyzer S-filtrate
19-crystallization kettle T-filter residue
The smart naphthenic acid of 20-degreasing flow container U-
The 21-filter residue is handled the smart naphthenic acid of still V-finished product
22-reduction kettle W-tar
The lipid acid that X-is pending
Y-pays product lipid acid
The Z-aqueous solution of urea
The a-M salts solution
B-M salt product
The c-precipitate that wets
D-desolventizing liquid
Embodiment one
10 liters of alkaline residues at the beginning of getting after the de-oiling, in vessel, add 2 liters of breakdowns of emulsion of industrial alcohol, add extraction agent (gasoline fraction) again, by extraction agent: alkaline residue is 1: 3 batching, stir extracting, back standing sedimentation 3 hours, remove oil reservoir, contain the normal pressure fractionation in distilling flask of alcoholic acid de-oiling alkaline residue and reclaim ethanol, pack in the vessel of belt stirrer sloughing the alcoholic acid alkaline residue, drip saturated solution of magnesium sulfate down at 50-70 ℃, to the device water become clear till, the magnesium salts of preparation naphthenic acid and lipid acid, the lower layer of water of draining, after anhydrating for four times with this magnesium salts of 80-90 ℃ hot wash, the about 120-130 ℃ of oven dry that slowly heats up, the dry magnesium salts of crossing add 1-8 doubly (volume) based on BTX aromatics solvent of dimethylbenzene, be diluted to dissolve fully (can suitably heat) in crystallizer with small refrigerator refrigeration,-10~-20 ℃ approximately of cold ethanol bath, low temperature is separated out the lipid acid crystallization.The timely vacuum filtration of precipitate, filter residue add acid by 1: 0.3(weight) batching reduction is washed to the neutral lipid acid that gets.Filtrate decompression adds acid by 1 after distilling the recovery BTX aromatics: 0.2(weight) batching reduction, be washed to the neutral smart naphthenic acid that gets, and smart naphthenic acid underpressure distillation is removed part neutral oil and colored substance, get smart naphthenic acid 1: the 4kg of finished product, its yield is 90%.Its sample survey, the check of made siccative and system lacquer test are all qualified.The contrast fatty acid content is 0.41%.
Embodiment two
Get crude naphthenic acid 1kg, dropping contains the alkaline residue of 2-3%NaoH, being stirred to the pH value under 90-100 ℃ ends for 9-9.5, generation contains sodium napthionate and sodium soap " alkaline residue ", then, extract de-oiling or directly send to the salify processing, process is identical with embodiment one, make the smart naphthenic acid 0.67kg of finished product, yield is 90%.Its sample survey is qualified, and the contrast fatty acid content is 0.34%.
Claims (2)
1, a step salify prepares the method for the special-purpose naphthenic acid of coating, it is characterized in that directly utilizing alkaline residue to be raw material through de-oiling and desolventizing, alkaline residue and M salt saturated solution are pressed the soap class content of naphthenic acid in the alkaline residue etc., and every part of alkaline residue adds 0.25~0.35 part of (weight) M salt saturated solution.M salt means magnesium. lead. inorganic salt such as cadmium, preferably adopt inexpensive nontoxic magnesium salts.In salify convertor (15), in normal temperature or 50-70 ℃ of stirring down, react to become and be terminal point clearly to water, remove lower layer of water, the hot wash of using 90-95 ℃ then is more than three times, back drying about 125 ℃ discharges water, add doubly (volume) BTX aromatics solvent cut dissolving extremely fully of 1-8 again, get M salt product, deliver to crystallization kettle (19) in-5 to-35 ℃ of crystallizations under agitation, stop to stir and carry out sedimentation, send strainer (16) to filter, filter residue to filter residue is handled still (21), and every part of filter residue adds the vitriol oil of 0.2~0.32 part (weight), reduction generates lipid acid, and it is neutral that washing reaches.Filtrate is removed distillation tower (7) through degreasing flow container (20), the heating underpressure distillation goes out mixed solvent and flow to solvent tank (11) and make solvent for crystallization kettle (19) and use, tower (7) bottom goes out desolventizing liquid and removes reduction kettle (22), every part of desolventizing liquid adds the vitriol oil of 0.18~0.25 part (weight), reduction generates smart naphthenic acid, again to still kettle (4), the smart naphthenic acid of the finished product of vacuum distillation bleaching.Still liquid is dark tar, accounts for the 1-5% of gross weight.
2, this law also is applicable to the degreasing purification of naphthenate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 91104018 CN1026487C (en) | 1991-06-19 | 1991-06-19 | One-step salt-making process for preparing naphthenic acid dedicated to paint |
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Application Number | Priority Date | Filing Date | Title |
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CN 91104018 CN1026487C (en) | 1991-06-19 | 1991-06-19 | One-step salt-making process for preparing naphthenic acid dedicated to paint |
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Publication Number | Publication Date |
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CN1055916A true CN1055916A (en) | 1991-11-06 |
CN1026487C CN1026487C (en) | 1994-11-09 |
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CN 91104018 Expired - Fee Related CN1026487C (en) | 1991-06-19 | 1991-06-19 | One-step salt-making process for preparing naphthenic acid dedicated to paint |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104483172A (en) * | 2014-12-16 | 2015-04-01 | 上海微谱化工技术服务有限公司 | Analysis method of fatty acid salt |
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1991
- 1991-06-19 CN CN 91104018 patent/CN1026487C/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104483172A (en) * | 2014-12-16 | 2015-04-01 | 上海微谱化工技术服务有限公司 | Analysis method of fatty acid salt |
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