DE3316854A1 - Method and device for determining the mean composition of a gas by sampling - Google Patents

Abstract

To determine the mean composition of a gas, gas samples are collected from a gas-carrying pipe (1) and stored in a collecting vessel (6) so that analysis of the collected gas can be carried out at fairly long time intervals. To simplify the sample collection and determination, a gas pressure regulator (4) upstream of the collecting vessel (6) is used so as always to admit to the collecting vessel (6) just enough gas to establish a precisely determined pressure rise set in accordance with a setpoint by an external sequence of trigger signals, for example as a function of the continuously measured gas flow rate in the supply pipe (1). <IMAGE>

Description

Method and device zer-determination of the mean

Composition of a gas by gas sampling The invention relates to a method and a device for determining the mean composition of a gas in which gas samples are taken one after the other from a gas-carrying line and these in a collecting container for the determination analysis which takes place at a larger time interval collected, especially for the determination of the average calorific value from heating gas flowing through a larger supply line.

This enables gas supply companies, for example offset, in the case of strongly fluctuating gas qualities and quantities the average To be able to determine the calorific value of the gas flowing through a main supply line. L. A method and an apparatus of the above type are e.g. B. by the DE-OS 24 52 264 known. In principle, the procedure here is such that the gas pressure in the collecting container must never be greater than 0. S times the gas pressure in the supply line, in this way to ensure that the sample is taken into the collecting container incoming gas always flows in under a supercritical pressure ratio. If there still a constant before the three-way valve located to the collecting tank Maintaining the pre-pressure and also the temperature of the gas is kept constant, this ensures that the same valve opening time is always the same Amount of gas enters the collecting container. However, the maintenance is disadvantageous a constant pre-pressure and the additional control device required for this. .Farther the collecting container can only be filled so far that its maximum filling pressure is no more than 0.5 times the lowest gas pressure in the supply line, so that this procedure is only meaningful to use where with relatively high admission pressures can be expected.

In another method known from US Pat. No. 3,429,186 for taking gas samples from a gas-carrying pipe and collecting them assumed that all gas samples have the same mass when they are Flow into the collecting tank cause the same increase in pressure. But that is not the case with real gases, since the pressure jumps depend on the temperature and depend on the real gas factor, which in turn is pressure and temperature dependent.

Finally, it has already been suggested for gas sampling Detector tubes with different defined volumes under the supply pressure fill and that gas contained in them then to the respective to expand the pressure prevailing in the collecting tank, the differential pressure between Collecting container and supply line measured and the respective measured value to a small computer which controls the filling process.

This procedure requires numerous solenoid valves with appropriate Susceptibility to failure and also an otherwise complex construction, including of the necessary microcomputer.

The invention is therefore based on the object to determine the mean composition of a gas necessary to take gas samples and to simplify their collection considerably while ensuring that with the least possible Construction and expense of a controlled filling process of the collecting container comes about, whereby exclusively devices of conventional gas pressure control technology should be used. This task is performed in a method of the initially mentioned genus according to the invention essentially solved in that a Gas pressure regulator always just enough gas is admitted into the collecting container that It is a very specific setpoint based on an external trigger signal sequence preset pressure increase. The pressure in the collecting tank is then directly applied used as a measure of the filled volume and controlled accordingly.

The gas pressure in the collecting container is advantageously continuously in Dependence on the continuously measured gas flow rate in the supply line elevated. In this case, the collecting container contains at the end of its filling process a gas sample with flow-weighted composition.

In principle, the increase in gas pressure in the collecting tank can also be caused by a timer or the like. Controlled in a predetermined manner, for example to such as statements about the gas composition at regularly recurring times of the day or the like -to win.

For device-like implementation of the method according to the invention can be connected to a supply line flowing from the gas shower to be measured, assumed refillable gas sample collection container, according to the invention between Supply line and collecting tank a pressure regulator with setpoint adjustment and a stepper motor is available, which is triggered by a trigger signal generator in the sense increasing increase in the gas pressure setpoint in the collecting tank is to be controlled. By the conventional pressure regulator with an electric motor upstream of the collecting tank The setpoint adjustment can continuously increase the pressure in the collecting tank and so that a corresponding continuous gas sampling can also be carried out, the discretization errors that necessarily occur with discontinuous sampling can be avoided.

It is advantageous to have one between the trigger signal generator and the stepper motor the latter with readjusting controller available.

This is advantageous depending on the respective position controlled by the adjusting shaft of the stepper motor. However, the controller can also be dependent on by a pressure / current converter controlled by the respective gas pressure in the collecting tank being controlled.

It has proven to be particularly advantageous when used as a trigger signal generator one more responsive to the gas flow rate per unit of time in the supply line Pulse generator with downstream summing device and current generator used becomes, the one 'der in the power line leading to the stepper motor and controller Sum of the pulses supplies proportional control current. This ensures that the continuous filling of the collecting container with the gas samples both of the nature as well as the flow rate of the gas in the supply line strictly proportional takes place, thus a correspondingly exact determination analysis of the gas can be achieved can.

In the drawing is'ein an advantageous exemplary embodiment according to the invention designed device largely shown schematically.

From the supply line through which the gas to be analyzed flows 1, for example of a-larger gas supply company, branches off for gas sampling serving line 2 from, via the shut-off valve 3, the pressure regulator 4 and the shut-off valve 5 leads to the sample collection container 6.

The pressure regulator 4 is of conventional nature.

It is equipped with a stepper motor 7, which is driven by the adjusting shaft 8 an electromotive setpoint adjustment of the gas pressure in the downstream line section 2 'and in the sample collection container 6 allows.

The pressure regulator 4 or its stepper motor 7 is controlled by a trigger signal generator, generally designated T, via the control line 9. For fine resp.

Adjustment is used between the trigger signal generator T and the stepper motor 7 existing controller 10, for example, depending on the respective position the adjusting shaft 8 of the stepping motor 7 the latter in the sense of the arrow direction able to readjust. The controlled variable here is therefore the position of the setpoint screw on the pressure regulator.

This readjustment can also, as shown in dashed lines, -in Depending on a controlled by the respective gas pressure in the collecting container 6 Pressure-current converter 11 take place. In this case, the external trigger signal is used compared with the output signal of the transducer 11, the control variable being the container pressure is itself.

In the illustrated embodiment, it serves as a trigger signal generator T advantageous on the gas flow rate per unit of time in the supply line 1 more appealing, for example driven by a corresponding impeller 1.2 Pulse generator 13, which is followed by the summing device 14 with current generator 15.

As a result, the corresponding to the gas flow rate per unit of time The pulses emitted by the encoder 13 are added in the buzzer device -14 and thus in the current encoder 15 a corresponding increasing control current of z. B. 0 to 20 mA generated, which via the line 9 and the controller 10 the stepper motor 7 and thus ultimately adjusts the outlet gas pressure in the pressure regulator 4 accordingly. This allows the advantageously provided with an adjustable compression spring Pressure regulator 4 only so much gas flow into the collecting container 6 that the desired predetermined pressure increase occurs there, which in turn is proportional to the gas flow rate.

It goes without saying that as a trigger signal generator, for example a timer can be used to fill up the collecting container at certain time intervals 6 with the gas samples obtained at the respective time intervals. However, other measured variables could just as well be used as trigger signals, for example, the outside temperatures measured over a certain period of time and the like

more.

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Claims (9)

Patetans-test: procedure for the determination of the mean composition of a gas in which gas samples are taken one after the other from a gas-carrying line and these in a collecting container for the determination analysis which takes place at a larger time interval collected, especially for the determination of the average calorific value from heating gas flowing through a larger supply line, d a d u r c h g e k It is noted that with a gas pressure regulator there is always just enough gas in the collecting container is admitted that it contains a very specific, -by an external trigger signal sequence sets a setpoint-based pressure increase. 2. The method according to claim 1, d a d u r c h g ek e n n z e i c h n e t that the gas pressure in the collecting container is continuously depending on the continuous measured gas flow rate in the supply line is increased. 3. The method of claim 1, d a d u r c h g ek e n n z e i c h n e t that the predetermined increase in gas pressure in the collecting container is controlled by a timer will. 4. Apparatus for performing the method according to claim 1, with one that can be connected to a supply line through which the gas to be measured flows, refillable gas sample collection container, d u r c h g e k e n n z e i c h n e t that between supply line (1) and collecting container t6) a Pressure regulator (4) with setpoint adjustment and a stepper motor (7) available is triggered by a trigger signal generator (T) in the sense of increasing the gas pressure setpoint value is to be controlled in the collecting container (6). 5. Apparatus according to claim 4, d a d u r c h g e -k e n n z'e i c h n e t that between the trigger signal generator (T) and stepper motor (7) there is a latter readjusting controller (10) is available. 6. Apparatus according to claim 5, d a d u r c h g ek e n n z e i c h n e t that the controller (10) as a function of the respective position of the control shaft (8) of the stepper motor (7) readjusts. 7. Apparatus according to claim 5, d a d u r c h g ek e n n z e i c h n e t that the controller (10) as a function of a by the respective gas pressure readjusts the pressure / current converter (11) controlled in the collecting container (6). 8. Device according to one of claims 4 to 7, d a d u r c h g e It is not possible to indicate that the trigger signal generator (T) acts on the gas flow rate per unit of time in the supply line (1) responding pulse generator (13) with downstream summing device (14) and current generator (15), which is used in the stepping motor (7) and controller (10) leading control line (9) one of the sum of the pulses proportional Control current supplies. 9. Device according to one of claims 4 to 7, d a d u r c h g e k e n n n z e i c h n e t that as a trigger signal generator (T) a timer or the like. serves.