DE657897C - Method and device for measuring the benzene content of luminous gas - Google Patents

Description

Method and device for measuring the benzene content of luminous gas The invention relates to a method for the immediate and accurate measurement of the benzene content of luminous glass. 'Next, the invention extends to devices for practical Implementation of the procedure.

This important measurement is currently carried out by analyzing gas samples. This process has, however, the serious disadvantage that the course of the benzrole formation out of the gas only cumbersome and with interruptions. testable eats and that it is therefore is not possible, on the basis of these measurements, the process of benzene elimination to regulate in time.

The present invention now overcomes these deficiencies and allows a continuous recording of the measurement result obtained immediately.

The process is based on three facts: the benzene content of the gas affects its luminosity. The new procedure essentially consists in that your part of the gas, the benzene content of which is to be measured, is from the The hydrogen sulfide and naphthalene contained therein are freed and then in the form of a purer one Flame is burned, the light intensity of which was a four-of-a-kind with three light intensities Gas is measured, the benzene content of which is known. The removal of the hydrogen sulfide takes place in order to avoid corrosion of the sensitive parts of the apparatus, a Such a measurement can be carried out in the shortest possible time and precisely because it can are simple luminous intensity measurements. The composition is already known of gases to be monitored by a light effect generated by burning the gas is measured. In these known devices, however, is not immediate the light intensity of the flame, but the light intensity .one heated by the flame Mantle, which depends on the heating power of the flame, measured. An immediate one Measurement of the luminosity of the flame for the purpose of monitoring the benzene content was previously possible not done.

For the practical implementation of this method is, for example, a connected to an electrical circuit including an ammeter photioelectric cell suitable. The knowledge of the desired measurement result of from one moment to the next a continuous recording mediates a recording apparatus known per se can be carried out.

Two embodiments. for the practical implementation of the procedure are shown schematically in the drawing; It shows: Fig. i one device for measuring the light intensity of the gas flame, Fig. a your device for running Check the benzene content of your gas quantity or your gas flow by four-of-a-kind with a normal benzene gas flame.

Brei the embodiment according to Fig. I becomes .from three gas quantities or Part of this gas is diverted from the gas flow and passed through systems a and h, which are suitable that Hydrogen sulphide and naphthalene gas to clean. The gas then goes through a filter c, a pressure regulator d and finally into a small collecting container, from which the burner tube branches off, its nozzle fy a housing with a chimney. lies. Opposite the flame f 1 is a phot @ a =: electric cell attached to an electric circuit m, which is a sensitive galvanometer or one for graphic recording Includes suitable writing galvanometer q. The photoelectric cell can. be of some well-known kind; according to the examinations carried out so far those with copper oxide have proven to be the most suitable.

The device is calibrated by burning gas known Benzene content. The information of the galvanometer can be without further information in the content of Grams of benzene are expressed in terms of cubic meters.

In the case of the AtLs implementation form according to Fig. A, with the same apparatus, as it: was described above and in which gas is burned, which is already excretion was subjected to benzene, a corresponding apparatus ai, bi, cl, dl, e1, f1, g1, ftl coupled, in which a gas is burned which still contains benzene contains, d. H. that has not yet been subjected to this treatment. The two p1 otoelectric Cells / t, ltl are opposite each other in the same circuit nt =, which is also a sensitive galvanometer2 moder also includes a writing galvan:) -meter. In this embodiment, the Galvarnometer only shows the difference in the light intensity between the two flames and gives, oh ne more that Result of the Benvol excretion process or the amount of excreted Benzene.

Claims (1)

PATENT CLAIMS: i. Procedure for measuring the benzoin content of luminous gas, characterized in that a part of the gas from the hydrogen, hydrogen sulfide contained therein and naphthalene is purified and then burned in the form of a flame, whose Luminous intensity is measured in comparison with the luminous intensity of a gas whose B; ene content is known. a. Device for carrying out the method according to claim i, marked by cleaning devices connected in series for the gas to remove Hydrogen sulfide and naphthalene as well as filters, pressure regulators, collecting tanks, a .. Burner for generating a broad flame, a photoelectric layer opposite the flame Cell as well as a. lying in a circuit with this cell, variable in Galvanometer calibrated with benzene content. 3. Apparatus according to claim i and z, characterized characterized in that two devices are provided, namely those in the .eine the gas still has its benzene content, but the benzene in the other already has is eliminated, and that the luminous intensity of the two gas flames on two photoelectric Acts on cells that are in the same circuit as a galvanometer located.