DE2027389A1 - Boron trifluoride recovery - from conc sulphuric acid by blowing - out with air or inert gas - Google Patents

Abstract

Conc. H2SO4 is blown out with air or inert gas pref. N2 or CO2 at temp. between room temp. and 200 pref. 100-170 degrees C and BF3 is recovered from gas mixture by absorption with electron donor cpd. Besides BF3 recovery, H2SO4 obtd. in mfe of BF3 from H3BO3 and anhyd. HF in presence of oleum is purified, so that it can be used, e.g., in prodn. of HF from fluorspar.

Description

Process for reducing the boron tri-fluoride content in concentrated Sulfuric acid The invention relates to a method for reducing the Boron trifluoride content3 in concentrated sulfuric acid with recovery of the same.

3 in the production of boron trifluoride by converting boric acid with anhydrous hydrogen fluoride in the presence of oleum at temperatures between At 80 and 160 ° C, large amounts of concentrated sulfuric acid are produced as a by-product obtain. If the reaction is carried out appropriately, the content of such sulfuric acid is of boron trifluoride is relatively low, but it can still be used for some purposes have a disturbing effect. For example, sulfuric acid containing boron trifluoride is used for used the production of hydrogen fluoride by digesting fluorspar, ao this can lead to a reduction in the value of the by-product of this process Lead hexafluorosilicic acid because it is contaminated with oxyfluoroboric acids. The boron tri-fluoride comes together with silicon tetrafluoride, which is made from im Acid spar remaining silicate accompanying substances is formed in the absorption layer for the low-boiling fractions from the hydrogen fluoride distillation. Since now the formed during absorption Oxyfluoroboric acids - as opposed to silica formed at about the same time - no longer separated from hexafluorocoelic acid the removal of boron-containing impurities must be as extensive as possible happened before the exposure. -The inventive method for reduction the boron trifluoride content in concentrated sulfuric acid with recovery of the Boron trifluoride is now characterized in that the concentrated sulfuric acid with air or one opposite the concentrated sulfuric acid and boron trifluoride blowing out inert gas at a temperature between room temperature and 2000 C and the boron compound by absorption by means of an electron donor compound the purge gas mixture wins. Suitable inert gases are, for example, nitrogen or carbon dioxide. To accelerate the blowing process, the concentrated Sulfuric acid expediently at a temperature between 100 and 170? a brought. The procedure can be carried out in any way. in the simplest Embodiment brings the concentrated sulfuric acid in a heatable Container to the desired temperature and presses the purge gas by means of a Inlet pipe, which at the lower end has a brow-like shape to increase the effectiveness Device can own through the liquid. The cleaning process is carried out with caution but so by that one uses apparatus in which to increase the effectiveness the concentrated sulfuric acid with the largest possible surface development continuously one Purge gas flow is countered. This is done advantageously in heated towers charged with random packings, at the upper end of which the hot one Sulfuric acid containing boron trifluoride is introduced and that from the lower end blown gas flow counteracts.

The boron compounds withdrawn from the reactors are used to recover the boron compounds Gas mixture in suitable washing or spray towers with one for absorbing the boron compounds capable medium washed. Electron donor compounds are suitable as washing liquids, such as water, alcohols, ethers, amines, carboxylic acids and the like. The washing liquid used is preferably water, with solutions of oxyfluoroboric acid develop. These solutions can be used as starting materials for the production of Metal fluoborates are used. Using other solvents can be valuable Adducts of boron trifluoride are obtained.

For a more detailed explanation of the process and its effectiveness like the following examples are used: Example 1 Each containing 3 kg of boron trifluoride, concentrated Sulfuric acid with a boron content of 0.20 percent by weight, which is in a with a gas inlet pipe reaching close to the ground and an exhaust pipe Fitted Durang glass flasks were filled with 20 liters for one hour Blown nitrogen out, with the sulfuric acid on the ones mentioned in the table Temperatures was brought. That was to generate a uniform gas flow Inlet pipe with a shower-like device provided. The gas mixture escaping from the flasks was fed through a water-filled one Wash bottle system headed; in the process, the boron trifluoride went with the formation of oxyfluoroboric acid in solution. The amount of boron removed from the concentrated sulfuric acid became determined by analyzing the washing liquid. The boron content of the treated sulfuric acid was calculated on the basis of the analysis values: temperature (O C) boron content (% by weight) 26 0.0? 60 0.055 100 0.04 130 0.03 Example 2 II upper end of one with polytetrafluoroethylene lined steel pipe of 1500 mm length and 40 mm diameter, which a filling of corundum shards contained, were continuously 5 kg per hour concentrated sulfuric acid with a boron content of 0.5 percent by weight was introduced. A compressed air flow of 100 liters / hour was countered from the lower end of the tube. The gas mixture escaping at the head end was made of polyvinyl chloride in a circulating scrubber washed in countercurrent with water. The analysis of the washing liquid became the The residual boron content of the concentrated sulfuric acid is determined. The purification process, the at three different temperatures resulted in those in the table below Results shown: Temperature (° C) Boron content (wt. ffi) 50 0.07 100 0.05 150 0.035 The washing liquid used to absorb the boron trifluoride was mixed with potassium chloride and the sparingly soluble potassium fluorate formed in the process severed.

Claims (2)

Claims 1. Process for reducing the Bqrtrifluoridhaltes in concentrated Sulfuric acid with recovery of the boron trifluoride9, characterized in that the concentrated sulfuric acid with air or one opposite the concentrated Sulfuric acid and boron trifluoride inert gas at a temperature between room temperature and 2000 C inflates and the borear bond by absorption by means of an electron donor compound wins from the purge gas mixture. 2. The method according to claim 19, characterized in that as an inert Gas nitrogen or carbon dioxide is used. 30 Process according to Claims 1 and 2, characterized in that that the blowing process is carried out at a temperature between 100 and 1700 C. will.