SU1229580A1 - Method of metering flow rate of protective gas in bell-type furnaces - Google Patents

Abstract

The invention relates to measurement instrumentation and allows to expand the field of application by measuring the flow rate of protective gas supplied to the blued-out space of a bell furnace. The measured gas is mixed with the indicator gas, which is the oxygen of the air displaced from the furnace at the beginning of the preparation of the metal annealing operation. From the moment the furnace is purged with shielding gas, the volume concentration of oxygen is measured at appropriate intervals during its displacement. Dp of gas flow determination it is necessary to carry out at least two measurements in the process of preparing the annealing operation. The formula for gas flow is given.

Description

The invention relates to instrumentation engineering and can be used to determine the gas flow rate in a metallurgical, chemical, and gas production.

The aim of the invention is to expand the field of application by measuring the flow rate of protective gas supplied to the blued-in space of the bell furnace.

Oxygen, which is under the muffle in the momeite assembly of the stand and covering it with the muffle, is displaced from the furnace with a protective gas that does not contain oxygen, to exclude oxidized g of the metal during its annealing. The presence of forced circulation of gas in kolpakov furnaces provides a uniform oxygen content throughout the volume and thus does not limit the place of gas extraction from the furnace.

The intensity of the decrease in oxygen concentration depends on the flow rate of protective gas Q, the volume of gas under the muffle V, and the time of displacement (purge). The relationship between the flow of protective gas and the oxygen concentration at any time can be expressed analytically from the following reasoning.

Let, by the time t, after the start of the purge of the furnace with protective gas, the oxygen concentration is C, vol.%. During the purge time, jt, i.e. By the time 2, + OL, the concentration will decrease by Jc vol.% of oxygen and amount to C C - 5c vol.%. The volume of oxygen displaced from the under-muffled space is equal to the difference in the volume of oxygen at these moments in the under-tub space of the furnace and will be:

SL 1

Too Too Too

The same volume of displaced kcslogen can be related to the flow of protective gas.

During time c1, the volume under the muffle gas Q 5t is displaced with the oxygen concentration C C - C (due to the infinitely small time interval St}. Consequently, the volume of the displaced oxygen will also be equal to

 . 100

Thus, we obtain the differential equation

-vJC C-Q-Jt.

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Reproduction of this differential equation under constant V and Q and HK4HbDC conditions: time f corresponds to an oxygen concentration of 3 C a, 2 gives the expression dp of determining the flow rate of protective gas by measuring C to C

ten

at times t and t

Q A-in-gi.

 o-l

To determine the gas flow rate using the above formula, at least two measurements must be made during the preparation of the annealing operation.

An example of the method.

The furnace is prepared for annealing, the volume of the empty space that is free from the metal of the submu (1), which is 4.0 m, is taken into account and protective gas is fed under the muffle. When the protective gas is introduced into the furnace, the oxygen of the air under the muffle is displaced and its concentration decreases. From the moment the furnace is purged with a gas shielding, the volumetric concentration of oxygen is measured. Gas analysis is carried out by a gas analyzer. The following oxygen concentrations were obtained at appropriate intervals:

min 6 11.2 16.2 OBD 18.0 15.2 12.9 The value of the protective gas flow rate is as follows:

p. 60 4 18 -, o b Q, ----- in 572

. 60 4

  yr ° ".

The average flow rate, equal to 8.0 m / h, deviates from the flow rates measured at different time intervals by 4-2.5%.

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Claims (1)

Invention Formula A method of measuring the flow rate of protective gas in bell-type furnaces, which includes mixing operations of the measured. gas with gas indicator, measuring   volume: the concentration of the gas indicator at certain points in time and the determination of the gas flow rate by the known formula 1 1 from the change in the volume concentration of the gas indicator, 55 characterized in that, in order to expand the scope of application by measuring the flow rate of protective gas from 7 3,12995804 space of the bell furnace, in ca-o and t As a gas indicator, the acid of the Kd-Dr. Cj air hydrogen is displaced from the furnace. shielding gas in the preparation process metal annealing operation, and bulk furnace; the oxygen concentration is measured with in-C, and C is the volume concentration over the time interval during its degeneration. at the same time, the flow rate of the gas, op-4, is measured in terms of formulas.