DE1022021B - Method and device for measuring the amount of solids in flowing gases - Google Patents

Description

Method and device for measuring the amount of solids in flowing Gases addendum to patent 1 002 959 The main patent relates to a method and a Device for measuring the amount of solids in flowing gases or liquids. According to the main patent, the measurement is carried out in such a way that the well-laden gas stream is passed through a two-stage measuring nozzle, whose cross-sections and lengths are so dimensioned and are designed that practically only one in the measuring section of the first stage Acceleration of the gas and n the measuring section of the second stage practically only one acceleration of the goods takes place and that the acceleration of the goods and the gas necessary pressure gradient can be determined by measurement. These measured values become then the quantity of goods and the quantities of gas are determined.

In the main patent, there is a measuring section to accelerate the Gases from a blinding-like constriction with an enlarged, cylindrically shaped piece of pipe of a certain length before the narrowing, the cross-sections and lengths being so one on top of the other are coordinated so that no additional pressure loss occurs when the material is fed in.

The measuring section for the acceleration of the goods was approved by the main patent from a cylindrical or slightly conical bore of a certain length, where the cross-section of the bore in relation to the cross-section of the diaphragm is chosen so is that the pressure drop in the flow of pure gas is zero.

Investigations into the development of the device according to the main patent have now shown that the method and apparatus are significantly improved as a result can that instead of an acceleration of the gas, a delay is brought about and the pressure increase caused by the delay in the gas is used for determination the amount of gas used. Accordingly, the method according to the main patent in US Pat Modified way that the well-laden gas stream passed through a two-stage measuring nozzle will. whose cross-sections and lengths are dimensioned and divided so that in the measuring range the first stage practically only an acceleration of the goods and in the meßstrekce the second stage practically only a delay of the gas takes place and that the to accelerate the good pressure gradient and to delay the gas can be determined by measurement in order to then use the measured values to determine the quantities of material and the quantities of gas to issue.

This method is also particularly suitable for only the gas quantities to be determined in the case of material-carrying or dust-carrying gas flows. ur implementation According to the invention, this method is used by a device in which the measuring section to determine the amount of gas from diner conical enlargement, which is so formed is, that there is no additional pressure loss caused by lead material conveyance. after a Another feature of the invention is the measuring section for determining the gas quantities directly Arranged behind the measuring section for the quantity of rubber.

In the drawing, a measuring arrangement according to the invention is for example and shown purely schematically.

The measuring nozzle is installed between the pipe sections 1 and 6. she consists from the measuring section 5 and the measuring section 2 with the measuring points b, c and d. For determination the differential pressures # p II between the measuring point are used for the quantities of material or gas quantities b and c and # p III between measuring point c and d. The differential pressure # p II is only depends on the quantity and the speed of the product. So that the differential pressure # p II becomes zero when pure air is conveyed, the cylindrical nozzle may have to can be widened or narrowed to a certain length, as shown in the illustration was hinted at.

The differential pressure # p III only depends on the amount of gas. In order to If this is the case, the length and the taper of the enlargement must match the rest of the Parts be coordinated that the additional pressure loss due to the acceleration of the Good things in the nozzle through the additional pressure gain. the delay of the property is canceled.

The new Äfeßdüse differs from the measuring nozzle according to the main patent application in that the differential pressure pI is replaced by the differential pressure # p III and that the new test section after the test section, in which it can be accelerated well is to be arranged. The main advantages of the new arrangement are: that it is simpler and less sensitive than the old arrangement. While at the old measuring nozzle generally two constrictions and two widenings are necessary, The new nozzle can usually be narrowed and widened get along. In addition, the influence of the purge air on the pressure indicators can be significant can be corrected more easily than with the old arrangement.

The proposed method can in particular also be used for determination the amount of gas used in dust-carrying gas streams. It is known that the display of nozzles and orifices in dusty gases due to the influence of the solid particles be falsified. This influence can be present through a measuring nozzle after the Invention off: to be switched.

Claims (3)

PATENT CLAIMS: 1. Method for measuring solid quantities in flowing gases or liquids and / or for measuring gas quantities in material or dust-carrying gas flows according to Pten 1 009 959. marked thereby. that the well-covered gas flow is passed through the two-stage measuring nozzle. their cross-sections and lengths are dimensioned and divided so that in the measuring section (5) of the first Stage practically only an acceleration of the material and in the measuring section (2) of the second stage practically only a deceleration of the gas takes place nd that the acceleration of the goods and the pressure gradient necessary to delay the gas determined by measurement will. 2. Vorichtng for performing the method according to claim 1. thereby gkeennzichnet that the measuring section (2) to determine the amount of gas from a conical Extension exists, which is designed so that no additional material is promoted Pressure loss occurs. 3. Device according to claim 2, characterized. that the test section (2) to determine the gas quantities immediately behind the measuring section (5) for determination the amount of material is arranged.