DE1026739B - Process for the dehydrogenation of low molecular weight, aliphatic, secondary alcohols to the corresponding ketones - Google Patents

Description

Process for the dehydration of low molecular weight, aliphatic, secondary Alcohols to the corresponding ketones The contacts used in dehydrogenation secondary alcohols to the corresponding ketones, for example in the production from acetone from isopropanol, on the one hand zinc oxide or brass contacts, on the other hand Copper contacts.

Zinc oxide and brass contacts work at elevated temperatures, at about 400 to 500 "C. Side reactions such as olefin formation, due to the elimination of water and, above all, the decomposition of acetone on iron pipes.

The copper contact does not have these side reactions because it is at works at a lower temperature, but has a shorter lifespan. The copper contact has a dehydrating effect only in the alkaline area, and its duration of activity is with associated with maintaining alkalinity.

Attempts have therefore been made to use oxides and hydroxides of the alkali or alkaline earth metals to stabilize the contact. Under the influence of this alkali or However, alkaline earth oxides occur condensation reactions.

Contacts were also described, those made of chromites, primarily Zinc chromite, to which alkali or alkaline earth compounds are added, or which contain an additive of chromium as part of a metallic alloy.

Attempts have also been made to make one made of equal parts of copper and Use kieselguhr existing contact.

In this case, a column of mercury was created at a reduced pressure of about 150 mm worked. Although the catalyst had good activity under reduced pressure; worked but if you use normal pressure, only unsatisfactory yields were achieved.

To remedy these difficulties, a method has therefore been proposed: in which an oxygen-containing one activated with very small amounts of sodium chromate Copper contact is used, which is made of precipitated copper oxide and sodium chromate solution is made and which is reduced in the usual way before use. The procedure works under normal pressure.

The invention now represents an improvement on this method.

It consists in the fact that for the dehydration of low molecular weight, aliphatic, secondary alcohols to the corresponding ketones, in the presence of copper-containing contacts, the dehydration takes place at temperatures of 250 to 3800 C with one contact, obtained by heating copper tetramine complexes.

In order to establish contact, it is expedient to be thermally light decomposable copper tetramine complexes are used. These are made from copper compounds, at- for example copper acetate, copper formate, copper carbonate, copper nitrate or copper hydroxide obtained with ammonia and then by heating and reduction with hydrogen, which is optionally diluted by nitrogen, decomposed.

It is advantageous to use a contact that is used for activation in alkaline Solution soluble salts, such as sodium chromate, ammonium chromate, or sodium carbonate Zinc salts in amounts of 0.5 to 3%, calculated as metal oxides and based on the copper contained in the copper tetramine complex catalyst, calculated as copper oxide, are added.

The contact is expediently made by impregnating a porous carrier, such as pumice or diatomaceous earth, with the one containing the catalyst and additives aqueous solution prepared in vacuo.

The impregnation of the porous support can several times after respective drying, thermal decomposition and burning of the contact carried out will.

Thus, according to the invention, it becomes a very weakly alkaline one Dehydrogenation catalyst used, its alkalizing additives perfectly are homogeneously distributed over the entire contact material, and which is abrasion-resistant.

The dehydrogenation of the secondary alcohols is preferably carried out at Temperatures from 260 to 320 "C.

The copper tetramine complex catalyst is made up of the copper converted to copper oxide, from 97 to 99.5 01o copper, calculated as copper oxide, and 0.5 to 30/0 of the mentioned activating additives, calculated as metal oxides, where the chromates are given as chromium oxide Cd203.

The invention is based on the experimental finding that in the thermal decomposition of an easily decomposable copper ammonia on a porous carrier, the ammonia split off first occupies the inner pores of the carrier and after the subsequent cleavage of the acid component with a further increase in temperature results in a weakly alkaline reaction of the entire contact. Through the said Additives can distribute the alkalinity in the catalyst very homogeneously and adjust it precisely will. The establishment of the contact and the copper ammonia solution is then carried out described.

For example, 480 g of copper nitrate are placed in a heated vessel dissolved in 300 cm3 of water and about 750 g of concentrated ammonia (D200 = 0.91 to 0.93) was added. The copper tetramine solution obtained in this way is added with stirring as an activating additive a solution of 5.02 g sodium chromate (Na2 Cr04. 4H2 4H2O) and 1.62 g of anhydrous sodium carbonate in 25 cm3 of distilled water.

600 cm3 of pumice with a grain size of 2 to 4 mm will be after the dust has been sieved off, evacuated in a heated vessel and mixed with the one obtained above impregnated hot solution of about 70 to 80 "C. The impregnated contact is at Dried at 1000 C, thermally decomposed at 4000 C, at 600 to 8000 C for about 2 hours Fired and at 200 to 300 "C with possibly nitrogen in the ratio 1: 1 diluted hydrogen reduced. It is useful to impregnate at least to be carried out twice in the manner described.

This solution, in which the copper nitrate by the above other copper compounds can be replaced and with one or more of the additives mentioned can be used, is sufficient for a three-time impregnation the end.

Example 1 0.5 1, corresponding to 292 g, of the contact described above, which, calculated as oxides, contains 46.0% copper oxide and 0.38.010 G203 filled into a heatable pipe. This contact will be at a temperature from 260 to 310 "C for a period of 1056 hours the steam from 200 to 250 cm3 of 88% by weight technical grade isopropanol, measured in liquid state, passed and dehydrated 87.6 01o of the alcohol in each case. The yield of acetone is on average 98.7 to 99.6% of the converted Alcohol.

Yield of acetone in mol percent based on converted isopropanol Temperature operating time conversion yield after hours {| of acetone 260 40 86.7 98.9 260 320 86.6 98.7 270 560 89.6 99.6 310 1040 89.6 99.4 If, as in the previous example, technical isopropanol is used as the starting point, the alcohol must first be passed over a neutralizing, alkaline layer consisting, for example, of pumice alkalized with alkali. If pure alcohol is used, this is not necessary.

Example 2 In the apparatus given in Example 1, over 0.5 1, corresponding to 310 g, of the contact described above, which, as oxides calculated, containing 42.8% copper oxide and 0.37 01o chromium oxide Cd203, at a temperature from 270 to 320 "C for a period of 350 hours per hour 250 cm3 in the liquid State of measured, secondary butyl alcohol conducted in vapor form. Be there 88 to 9301o of the secondary butanol with a yield of 93 to 96 ob, to methyl ethyl ketone dehydrated.

If the activity of the contact wears off after a long period of time, can he can be regenerated. For this purpose it is first expedient by means of air with the addition of nitrogen in a ratio of 1: 1, at a temperature of 200 to 3000 C oxidized. Then the contact is treated with air only at 350 to 4000 C, to burn off the organic contaminants present on the contact. On that there is a reduction in contact with hydrogen, the ratio of nitrogen 1: 1 is added at temperatures from 200 to 300 ° C.

Claims (4)

PATENT CLAIMS: 1. Process for the dehydration of low molecular weight, aliphatic, secondary alcohols to the corresponding ketones in the presence of copper-containing Contacts, characterized in that the dehydration takes place at temperatures of 250 up to 380 "C with a contact made by heating copper tetramine complexes has been received. 2. The method according to claim 1, characterized in that a contact is used, the activation of which is soluble in alkaline solution salts, such as sodium chromate, Ammonium chromate, sodium carbonate or zinc salts, calculated in amounts from 0.5 to 30% as metal oxides and based on that contained in the copper tetramine complex catalyst, copper calculated as copper oxide are added. 3. The method according to claim 1 and 2, characterized in that a Contact is used, made by impregnating a porous support, such as pumice or Diatomaceous earth with the aqueous solution containing the catalyst and additives is heated in a vacuum. 4. The method according to claim 1 to 3, characterized in that the Dehydrogenation of the secondary alcohols preferably at temperatures from 260 to 320.degree he follows. ~~~~~~~~ Publications considered: USA.-Patent No. 1,895,516, 2,028,267; French patent specification No. 1 012 622.