SU1578647A1 - Method of ionometric determination of fluorine in gas - Google Patents

Abstract

The invention relates to analytical chemistry, and specifically to methods for determining fluorine in gases in the production of sulfuric acid from pyrites, and can be used in industry for the analysis of fluorine-containing gases. The purpose of the invention is to increase the selectivity of the determination of fluorine with respect to sulfur dioxide. The method consists in passing the analyzed gas through alonzhi with quartz sand moistened with 1–2% at a rate of 0.3–0.8 l / min followed by ionometric determination of fluoride ion. The method allows the determination of fluorine in a gas in the presence of up to 18.1% sulfur dioxide. 1 tab.

Description

The invention relates to analytical chemistry, in particular to methods for the determination of fluorine in gases in the production of sulfuric acid from pyrites, and can be used in industry for the analysis of fluorine-containing gases.

The purpose of the invention is to increase the selectivity of the determination of fluorine with respect to sulfur dioxide.

Example 1. A gas sampling point is installed on the forward portion of the gas duct. A withdrawal tube made of metal or quartz glass is attached to the gas sampling point of the flue pipe with a rubber stopper. The intake tube is connected by a rubber hose with two series-connected corrugated tubes (alozhnymi), filled with quartz sand moistened with up to 1-2%. The installation includes a rheometer, thermometer and mercury manometer. After an alonzh, a valve is positioned to control the gas extraction rate. The installation is connected to a vacuum pump, if the sampling point is equipped in the section of gas flow under vacuum. The velocity rajs 0.3 l / min for 30 mln. It is created. Intake of gas supplied to, 30 C, pressure gauge 2S mm Hg, barometric pressure 626 mm Hg. Art. The contents of the alonges are each separately transferred into 200 ml volumetric flasks, 20 ml of solution are taken from each flask into a 50 ml flask, 2 drops of phenolphthalein are added, neutralized with 10% NaOH solution, 25 ml of pH 6 are added. , bring the volume up to the mark with water and measure the emf. Contain

sd |

00

0

th

fluorine is found on a graphing curve, which is preliminarily constructed from data of solutions with exactly known fluorine content, for which purpose a standard solution of sodium fluoride is used.

The calculation of the fluorine content (X) in the gas is calculated by the formula a-19. VK-50-1000.,. 3

X

1000 Bft-20

at MG / M

K K

B "where a is the fluorine content found

on calibration graphics

g-ion / l;

volume of working solution in IU

200 ml flask;

volume of gas sampled

Data to normal

conditions, m3; 19 - atomic mass of fluorine. Fluorine found: 43.25 mg / Nm3. . The rest of the examples performed under the conditions of example 1 are shown in the table (the gas passed through the absorber contains 11.2 - 18.1% SO)

As can be seen from the data in the tables, only when the humidity of the sand

.1-2% and at a gas transmission rate of 0.3-0.8 l / min, the correct determination of fluorine is possible.

In the prototype, when determining fluorine in the presence of any amounts of sulfur dioxide, the results of the determination of fluorine are underestimated by an order of magnitude compared with the true fluorine content.

Thus, the use of the proposed method allows the determination of fluorine in the presence of sulfur dioxide.

Claims (1)

Invention Formula The method of ionometric determination of fluorine in a gas, including the transmission of gas through an absorber, characterized in that, in order to increase the selectivity of the determination of fluorine with respect to sulfur dioxide, silica sand with a humidity of 1-2% is used as an absorber, and the transmission of gas is conducted at a rate of 0 3-0.8 l / min.