DE285920C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 285920 CLASS 42 /. GROUP

JOSEF HEINRICH REINEKE in BOCHUM.

Device for determining the benzene content in gases.

Patented in the German Empire on June 28, 1914.

The determination of the benzene content in gases, namely in coke oven and coal gas, causes great difficulties inasmuch as the benzene in the gases is extraordinarily high large dilution is contained, usually only a few grams per cubic meter. Particularly if it is, the procedure used to wash out the benzene Checking the scrubber and the scrubbed end gas only show very low percentages of benzene in question. Accordingly, the ones that have hitherto been used in practice are also used Procedure for determining the benzene content extraordinarily complicated And take in any case quite a considerable amount of time, so that it is a constant timely Make operational checks almost impossible, especially if there are frequent operational fluctuations.

The invention relates to a device for determining benzene, which is extremely simple and takes little time characterized by the benzene content according to the luminosity of a fed with the benzene-containing gas to be measured Flame is determined. This way of working is based on the realization that an extraordinarily good law, especially with a low content of benzene in the gas between the benzene content and the luminosity that just allows that make necessary fine measurements, while with the higher benzene contents these Law is more or less lost.

On the basis of detailed tests, the approximate figure shown in FIG Curve with the benzene content in grams per cubic meter on the abscissa Gas and on the ordinate axis in a manner to be described later the respective Luminosity is applied. It can be seen from this that the curve is proportionate at the beginning increases sharply, in other words: that for every increase in benzene content one noticeable increase in luminosity, while then the curve becomes more and more runs parallel to the abscissa axis. Since now the area of the curve in which this rises sharply, comes into question for the practical measurements, so there is the possibility given the application of the designated procedure.

A second finding is necessary for the feasibility of the measurement method described really important. Of course, depending on the nature of the one to use arriving fuels the nature of the accompanying gases different and it was the It is feared that due to this circumstance, the measurements will not be accurate enough because each time the luminosity of the gas that forms the carrier of the benzene is involved is measured. But it has now been found that this luminosity of the gas flame both in absolute terms and in relative terms is so small that it is not only in individual cases, but in general can be neglected. So you need to take no account of the variable nature of the benzene-bearing gases

and if necessary only has to carry out a zero point shift or a corresponding conversion in borderline cases.
. The determination of the luminosity of the flame could be made by any of the known photometric methods. Due to the above-mentioned excellent regularity, especially within the practical measuring range in question, it is now possible to carry out the measurement directly by means of photoelectric cells, such as selenium cells, which have the advantage of recognizing the light intensity acting on them directly from the pointer deflection of a galvanoscope permit. It can be here then; A very convenient calibration can be carried out by using a scale that indicates the relative benzene content in the gas in place of or in addition to the usual scale of the galvanoscope.

In Fig. 2 of the accompanying drawing is one for performing the marked Measurement method suitable device shown schematically.

The benzene-containing gas flows through a pressure regulator α to the burner b , which is in the light-tight box c in front of a cutout in the wall d , behind which the selenium cell e is attached, which is in a circuit with the battery / 'and the galvanoscope g ; the precisely regulated flame now acts on the selenium cell. On the basis of the above-mentioned conditions, a conclusion can be made on the benzene content of the gas feeding the flame on the galvanoscope g. This extremely simple and convenient method of measurement also has a further advantage that, depending on the inertia of the selenium cell, a number of measurements, such as those required to determine the mode of operation of the various washers of a benzene wash, can be carried out in relatively short pauses in succession. In this way, in the event of operational fluctuations and malfunctions, the required re-checking can be carried out quickly at any time, and the measuring device can also be easily converted to a self-recording one if necessary. .

Claims (1)

Patent claim: Device for determining the benzene content in gases, characterized in that that the benzene content from the luminosity of a gas containing benzene Regulated flame with the help of photoelectric cells (selenium cells or the like) and a current display device is determined. 1 sheet of drawings.