RU2742075C2 - Device for automatic dosing of liquid reagents (versions) - Google Patents

Abstract

FIELD: batchers.

SUBSTANCE: group of inventions relates to devices for automatic dosing of non-volatile liquid reagents. Disclosed is device (1), metering device (2) and control system (7). As metering device (2) measuring tank (3) equipped with strain gage (4) and line (16) for supply of liquid reagent with metering pump (5) and nozzle (6) is used. Flow rate vessel (1) and measuring tank (3) are connected by pressure equalization line (17) and liquid reagent feed line (11).

EFFECT: dosing of non-volatile liquid reagents.

3 cl, 3 dwg

Description

The invention relates to the design of devices for dosed introduction of liquid reagents into a fluid flow (gas, liquid or multiphase medium) and can be used in various industries.

Known methods and devices for gas odorization based on dosing odorant vapors into a gas stream [RU 2242725, publ. 20.12.2004, IPC G01F 13/00, G05D 11/03, RU 2467293, publ. 20.11.2012, IPC G01F 13/00], including units for continuous or batch evaporation of liquid odorant and introduction of odorant vapors into the gas stream.

The main disadvantage of these devices is the low dosing accuracy due to the difficulty of obtaining a volumetric flow of vapors with a known mass concentration of the odorant.

Known gas odorizer based on volumetric metering of portions of liquid odorant, periodically introduced into the gas stream [RU 2247332, publ. 02/27/2005, IPC G01F 13/00, G05D 11/02], containing the main and control containers with an odorant, dosing, flow measuring and calculating devices, while the dosing device is made in the form of an electromagnetic pulsator with a check valve and a siphon-type dosing device, located above the maximum level of odorant in the main and control containers.

The disadvantages of the known odorizer are the complexity and low dosing accuracy associated with volumetric dosing of the odorant without taking into account the change in its density with a change in temperature.

Closest to the claimed invention is a gas odorization method [RU 2561977, publ. 19.09.20015, IPC B01F 3/02], carried out using a device that includes an evaporation unit, consisting of a supply tank, an evaporation unit and a weighing device (strain gauge), as well as a control system and dosing and measuring devices for the number of gas flows.

The disadvantage of the known device is the presence of an evaporation unit, which does not allow the device to be used for dispensing non-volatile liquids.

The object of the invention is to dispense non-volatile liquid reagents.

The technical result is the dosing of non-volatile liquid reagents due to the use of a weight dosing unit as a dosing device.

Three variants of the device with different units of weight dosing are proposed for dosing liquid reagents into at least one fluid flow.

The specified technical result in the first embodiment is achieved by the fact that in the known device, including a supply container, a strain gauge, a dosing device and a control system, the feature is that at least one measuring container is installed as a dosing device, equipped with a strain gauge and a liquid supply line. reagent, on which the metering pump and nozzle are located, and the supply and metering containers are connected by pressure equalization lines and periodic supply of liquid reagent.

The second version of the device differs from the first in that each measuring container is equipped with a liquid supply line with a booster pump, which is connected to at least one line of liquid supply with a dosing nozzle.

The third version of the device differs from the first in that each line for supplying a liquid reagent is connected to at least one line for dispensing a liquid reagent with a dosing nozzle, and the supply container is equipped with a high-pressure gas supply line.

All used components and assemblies are known from the prior art. A positive displacement pump can be installed as a metering pump, a centrifugal pump or a positive displacement pump with a bypass valve as a booster pump, and an electromagnetic pulse nozzle as a metering nozzle. The volatility of the liquid reagent does not significantly affect the dosing process.

Installing a measuring container equipped with a strain gauge and a liquid reagent supply line as a dosing device allows dosing non-volatile liquid reagents. The location of a metering pump with a nozzle (option 1) or a booster pump (option 2) on the liquid reagent supply line, or equipping the supply tank with a high pressure gas supply line (option 3), as well as the placement of metering nozzles on the liquid reagent dispensing lines, allows high accuracy (1-2 orders of magnitude higher than with volumetric dosing) to dose a liquid reagent into at least one fluid flow by continuously weighing a measuring container with a liquid reagent, calculating the derivative of its weight in time and adjusting this value by changing the speed of the dosing pump (option 1 ) or the number of pulses of the dosing nozzle (options 2 and 3).

The proposed device according to option 1 (Fig. 1) consists of a supply container 1, a dosing device 2 (highlighted by a dash-dotted line) with a measuring container 3 and a strain gauge 4, a dosing pump 5, a nozzle 6 and a control unit 7. A device according to option 2 (Fig. 2) includes a booster pump 8 and metering nozzles 9, which are also part of the device according to option 3 (Fig. 3).

When the device operates according to option 1, the liquid reagent from container 1, replenished through line 10 as needed, is periodically fed through line 11 into a measuring container 3 (one measuring container is conventionally shown), which is continuously weighed using a strain gauge 4. The signal from the latter is received by channel 12 to the control unit 7, where it is processed together with the signal coming from the fluid volumetric flow sensor in the pipeline 13 (one pipeline is conventionally shown, the sensor is not shown) through channel 14, and the generated signal through channel 15 controls the speed of the metering pump 5 supplying liquid the reagent through line 16 into pipeline 13 through nozzle 6. Tanks 1 and 3 are connected by gas equalization line 17. The operation of the device according to option 2 differs in that the signal from the load cell 4 in the control unit 7 is processed together with the signals coming from the volumetric flow sensors in the pipelines 13 (conventionally shown three pipelines) through channels 14, respectively, and the generated signals channels 15 control the number of discrete impulses of the dosing nozzles 9, supplying liquid reagent through lines 18 to pipelines 13 due to the pressure created by the booster pump 8. The operation of the device according to option 3 differs in that the dosing nozzles 9 supply liquid reagent due to the pressure created by the gas high pressure, which is fed through line 19 into the container 1. The shut-off and control valves are not shown conventionally.

Thus, the proposed device allows metering of a non-volatile liquid reagent into a fluid flow and can be used in industry.

Claims (3)

1. A device for automatic dosing of liquid reagents, including a supply container, a strain gauge, a dosing device and a control system, characterized in that at least one measuring container is installed as a dosing device, equipped with a strain gauge and a liquid reagent supply line, on which the dosing pump is located and a nozzle, and the supply and metering containers are connected by pressure equalization lines and a periodic supply of a liquid reagent. 2. A device for automatic dosing of liquid reagents, including a supply container, a strain gauge, a dosing device and a control system, characterized in that at least one measuring container is installed as a dosing device, equipped with a strain gauge and a liquid reagent supply line with a booster pump, which is connected with at least one line for dispensing a liquid reagent with a dosing nozzle, and the supply and measuring containers are connected by lines for equalizing the pressure and periodic supply of the liquid reagent. 3. A device for automatic dosing of liquid reagents, including a supply container, a strain gauge, a dosing device and a control system, characterized in that at least one measuring container is installed as a dosing device, equipped with a strain gauge and a liquid reagent supply line, which is connected to at least at least one line for dispensing a liquid reagent with a dosing nozzle, and the supply container is equipped with a high-pressure gas supply line and is connected to the measuring container by lines for equalizing the pressure and intermittent supply of the liquid reagent.

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