Conversion of a multihydroxylated-aliphatic hydrocarbon or ester thereof to a chlorohydrin

A technology of polyhydroxylation and aliphatic hydrocarbons, applied in the preparation of organic compounds, catalysts for physical/chemical processes, catalysts for organic compounds/hydrides/coordination complexes, etc., can solve the problem of inconsistent by-products and hindered reaction rates in economic production , low conversion rate and other issues, to achieve the effect of improved conversion rate, large conversion rate, and method simplification

Inactive Publication Date: 2010-02-24
兰科知识产权有限责任公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Furthermore, these reagents can cause complete chlorination of polyhydroxylated aliphatic hydrocarbons, leading to unwanted RCl by-products, as taught in Viswanathan, et al. Current Science, 1978, 21, 802-803
[0019] In summary, there are at least five major disadvantages for all the above known schemes for the preparation of chlorohydrins from glycerol or any other vicinal-diol, triol or polyhydroxylated aliphatic hydrocarbon: (1) Hydrochlorination of glycerol or any diol The atmospheric pressure process requires a large excess of HCl, usually 7-10 times molar excess
(2) A variant of the above known process is a very slow, batch type reaction which requires 24-48 hours at a temperature in excess of 100°C and no more than 80-90% conversion to the desired chlorohydrins product
(3) Exotic hydrochlorination reagents can drive the reaction by scavenging, but often produce by-products inconsistent with commercial economic production
(5) When the reaction is run at high pressure to control the evaporation of the reactor contents, the low partial pressure of HCl leads to low conversion or hindered reaction rate
All prior art infers that there is an equilibrium limit to this transformation due to the presence of water in the reaction mixture

Method used

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  • Conversion of a multihydroxylated-aliphatic hydrocarbon or ester thereof to a chlorohydrin
  • Conversion of a multihydroxylated-aliphatic hydrocarbon or ester thereof to a chlorohydrin
  • Conversion of a multihydroxylated-aliphatic hydrocarbon or ester thereof to a chlorohydrin

Examples

Experimental program
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Effect test

Embodiment 1

[0114] Example 1 - Preparation of chlorohydrins from glycerol

[0115] to a 100 mL Hastelloy C equipped with a magnetically driven stirrer, internal cooling coil, and thermocouple TM Glycerin (30.0 g, purchased from Sigma-Aldrich Chemical Corporation) and glacial acetic acid (4.5 g, purchased from JT Baker Corporation) were added to the Parr reactor. The reactor was sealed, pressurized to 90 psig with anhydrous hydrogen chloride gas (Airgas Corporation), and heated to 93° C. for 90 minutes and maintained at 90 psig with anhydrous hydrogen chloride gas, after which the reactor was cooled and brought to room temperature (about 25° C. ) to exhaust. The reactor contents (65.9 g) were collected, analyzed by gas chromatography (GC) and found to contain the following products: 1,3-dichloropropan-2-ol and its acetate (92.6 mol% total) and 2,3 - Dichloropropan-1-ol and its acetate (total 1.7 mol%). In addition, many monochlorinated compounds (4.4 mol% in total) and unreacted glycer...

Embodiment 2

[0116] Example 2 - Preparation of Chlorohydrins from Glycerol / Glyceride Mixtures

[0117] To 200mL Hastelloy C TM A 10 mL glass measuring flask containing dry glycerol (Aldrich, pre-dried through molecular sieves, 91 mg, 0.99 mmol) and glycerol triacetate (Aldrich, triacetate of glycerol, 457 mg, 2.10 mmole) was added to the autoclave . The reactor was sealed and pressurized to 40 psig with nitrogen (three pressure cycles) and brought to 110°C with stirring after nitrogen venting. Anhydrous HCl was introduced under a constant pressure of 76 psig and the reaction was allowed to proceed for 3 hours. The reactor was vented to provide a product which was found to comprise 25.90 area % 1,3-dichloropropan-2-ol, 68.34 area % 1,3-dichloro-2-acetoxypropane, 1.57 area % 1,2-dichloro-3-acetoxypropane, 2.86 area % of 2-chloropropane-1,3-diacetoxypropane and no detectable glycerol, triacetin or 1,2 , 3-trichloropropane, as determined analytically by GC flame ionization detection.

Embodiment 3

[0118] Example 3 - Preparation of chlorohydrins from crude glycerin

[0119] To a 100 mL Hastelloy equipped with a magnetically driven stirrer, internal cooling coil, and thermocouple TM Crude glycerin (30.0 g, purchased from Interwest Corporation) and glacial acetic acid (0.6 g, purchased from JT Baker Corporation) were added to the C Parr reactor. The reactor was sealed, pressurized to 120 psig with anhydrous hydrogen chloride gas (Airgas Corporation), and heated to 120° C. for 90 minutes while maintaining the pressure at 120 psig with anhydrous hydrogen chloride gas. After this time, the reactor was cooled and vented at room temperature. The reactor contents (57.2 g) were collected as a moving liquid containing suspended white solids.

[0120] The above procedure was repeated and 58.0 g of reactor contents were collected from the second reaction. The two reaction products (57.2 g and 58.0 g) were then combined.

[0121] After filtration to remove white solids, sodium a...

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Abstract

The present invention relates to a process for converting a multihydroxylated-aliphatic hydrocarbon or ester thereof to a chlorohydrin, more specially relates to a process for producing a chlorohydrin, an ester of a chlorohydrin, or a mixture thereof, which includes steps of: contacting a multihydroxylated-aliphatic hydrocarbon, an ester of a multihydroxylated-aliphatic hydrocarbon, or a mixture thereof with a source of an atmospheric or subatmospheric partial pressure of hydrogen chloride to produce a chlorohydrin, an ester of a chlorohydrin, or a mixture thereof, in the presence of a catalyst, wherein the catalyst: (i) is a carboxylate derivative having from two to about 20 carbon atoms and containing at least one functional group selected from the group comprising an amine, an alcohol,a halogen, an sulfhydryl, an ether, an ester, or a combination thereof, wherein the functional group is attached no closer to the acid function than the alpha carbon; or a precursor thereto; (ii) is less volatile than the chlorohydrin, ester of a chlorohydrin, or a mixture thereof; and (iii) contains heteroatom substituents.

Description

[0001] This application is a divisional application of a Chinese patent application with the application number 200580022101.8, the application date being July 18, 2005, and the invention title being 'Conversion of polyhydroxylated aliphatic hydrocarbons or their esters to chlorohydrins'. technical field [0002] The present invention relates to a process for the conversion of polyhydroxylated aliphatic hydrocarbons or esters thereof to chlorohydrins. Chlorohydrins can be used to prepare epoxides such as epichlorohydrin. Background technique [0003] Epichlorohydrin is a widely used precursor of epoxy resins. Epichlorohydrin is a monomer commonly used for the alkylation of bisphenol A; the resulting diepoxide, either as a free monomer or as an oligomeric diepoxide, can progress to high molecular weight resins such as Used in electrical laminates, can coatings, automotive topcoats and clear coats. [0004] A known method of making epichlorohydrin involves the hypochlorinati...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C07C29/62C07C67/287C07C31/36C07C69/003B01J31/04B01J31/02C07D301/26C07D303/08
Inventor D·J·施雷克W·J·小克吕佩尔R·D·瓦尔言M·E·琼斯R·M·坎贝尔K·卡恩斯B·D·胡克J·R·布里格斯J·G·希普勒
Owner 兰科知识产权有限责任公司
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