RU53770U1 - DEVICE FOR AUTOMATIC DELIVERY OF THE ODORANT TO THE GAS FLOW - Google Patents

Abstract

The utility model relates to the field of chemical, oil and gas industry and can be used to automatically supply odorant to the gas stream transported through the gas pipeline. The essence of the utility model is that in the device for automatically supplying an odorant to a gas stream, consisting of an odorant storage tank, a dosing device, controlled valves for supplying an odorant to a gas pipeline, an odorant supply control device and a gas flow meter, a flow metering and metering unit is introduced an odorant included in the pipeline between the odorant storage tank and the metering device. In addition, a variant of the device is claimed, which is equipped with a sound detector connected to the control unit. The technical result of the claimed utility model is to solve the problem of accurate dosing and accounting for the flow of odorant.

Description

The utility model relates to the field of chemical, oil and gas industry and can be used for dosed supply of odorant to the gas stream transported through the gas pipeline.

Various devices are known [SU 1132150, RU 2008619, RU 2183134, RU 2247332] automatic, proportional to the flow of fluid into the gas stream, using various dispensers of the fluid flow associated with the amount of gas flow, including gas odorizers.

These devices, as a rule, contain the following main units: a liquid storage tank, a liquid dispenser of various types, a gas flow calculator unit or a gas flow meter, and a control unit. In addition to the listed main units, there are also pipelines with shutoff valves in the form of valves and valves, both for gas and for liquid odorant. As a rule, the regulation of fluid supply is carried out by using hydropneumatic feedback. This changes the performance of the dispenser using a diaphragm, an adjustable throttle or by changing the frequency of dosing - injection of liquid into the pipeline.

The disadvantages of the above devices are reduced, mainly, to the insufficient accuracy of regulation of the known metering devices and are that high metering accuracy cannot be achieved, since:

mechanical dosing devices have a large variation in the unit dose for different instances;

during operation of the dispenser, the unit dose value constantly changes from one fluid supply cycle to another;

aging of the used materials of membranes, valve seats, as well as wear of mechanical parts leads to a change in the characteristics of the dispensers;

the dose is highly dependent on temperature;

the accuracy of dosing control with hydropneumatic feedback is unsatisfactory, and the devices themselves are difficult to manufacture and are subject to aging;

dosing is carried out in units of volume rather than mass (taking into account the dependence of the density of the liquid on temperature).

Closest to the claimed solution is the odorization device [patent RU 2183134]. It contains a container for storing liquid odorant, which is mainly used as a mixture of natural mercaptans, including mercaptan sulfur as an aromatic substance, a flow meter installed on the gas pipeline, and an odorant dispenser through which the liquid odorant storage tank is connected to the gas pipeline. The differences between the device are that it contains a unit for measuring the concentration of aromatic substances in the odorant and a unit for calculating the flow of odorant, while the first input of the unit for calculating the flow of odorant is connected to the output of the flowmeter, the second input of the unit for calculating the flow of odorant is connected to the output of the unit for measuring the concentration of aromatic substance in odorant, and the output is connected to the control input of the dispenser. In addition, the device comprises a unit for measuring the concentration of aromatic substances in non-odorized gas, connected to the third input of the odorant consumption calculation unit. The odorant density measuring unit is connected to the fourth input of the odorant flow calculating unit.

However, in this device, the odorant consumption is measured indirectly - indirectly through the measurement of the concentration, volume and temperature of the odorant. A significant drawback of this device is its orientation to the calculation of the odorant consumption, and not to the direct measurement of its quantity.

The objective of the claimed utility model is to increase the accuracy of dosing the supplied odorant to the gas stream and to increase the accuracy of accounting for the flow of the odorant and its measurement directly in units of mass.

The essence of the utility model is that in the device for automatically supplying an odorant to a gas stream, consisting of an odorant storage tank, a dosing device, controlled valves for supplying an odorant to a gas pipeline, an odorant supply control device and a gas flow meter, a flow metering and metering unit is introduced an odorant included in the pipeline between the odorant storage tank and the metering device.

In addition, a variant of the device is claimed, which is equipped with a sound detector connected to the control unit.

The technical result of the claimed utility model is to solve the problem of accurate dosing and accurate accounting of the odorant consumption directly in

mass units, which fully complies with the requirements of regulatory documents on gas use. The reason for the explosions of premises, including residential ones, is not only a gas leak, but also an insufficient degree of gas odorization, i.e. lack of information about an impending or existing emergency. Excess odorization, on the other hand, can lead to poisoning of people and animals. Existing devices and units for measuring odorant consumption at present are often impossible to recognize as relevant to the 21st century. The technical result of the claimed utility model is manifested only when the named node is introduced to a specific place in the odorant supply circuit, namely, between the storage capacity of the odorant and the dosing device. In this inclusion, any minimum, including unregistered using common measuring rulers located on the containers, the amount of odorant moving from the tank, in this design is automatically fixed.

The device for automatically supplying an odorant to the gas stream is illustrated using Fig., In which positions 1-11 indicate:

1 - capacity for storing the odorant;

2 - control unit;

3 - gas flow meter;

4 - node measuring and accounting for odorant consumption;

5 - odorant dispenser;

6 - gas pipeline;

7 - measuring tube;

8 - inlet valve;

9 - output valve;

10 - differential pressure gauge;

11 - sound detector.

The inventive device operates as follows.

From the tank for storing the odorant 1, using the control unit 2, the odorant is fed through the measuring and metering unit of the odorant 4 into the measuring tube 7 when the inlet valve 8 is opened and the outlet valve 9 is closed. At this point, the control unit 2 uses a differential pressure gauge 10 level measurement in the storage tank by measuring the hydrostatic pressure in the measuring tube 7. The inlet valve 8 closes and the outlet valve opens 9. At the command of the control unit 2, the control valve is turned on Lenia odorant dispenser 5 and a gas conduit 6 is supplied odorant dose from the metering tube 7, whereupon also occurs level measured in the measuring tube 7. The difference in

hydrostatic pressure before issuing a dose of odorant and after issuing directly determines the mass of a dose of odorant. The control unit 2 receives from the gas flow meter 3 type Supeflow, Hyperflow, SG EK, APSTM, etc. the value of the current gas flow rate in the gas pipeline 6, calculates the required flow rate of the odorant and, taking into account the value of the last dose given, determines the time at which it is necessary to supply the next dose of the odorant to the gas pipeline 6. At the same time, the specified accuracy of the odorant supply to the gas pipeline 6 is achieved, independent from destabilizing factors of the performance of dosing devices. In the event of a malfunction of the device, a control signal is sent to the sound detector 11. Information on the current gas flow rate, the current flow rate of the odorant, the accumulated value of the flow rate of the odorant and the total operating time of the device are displayed on the display screen of the control unit 2. In addition, control unit 2 has the ability to work with various systems - such as telemechanics, process control systems, etc. The device does not contain complex hydropneumatic regulators, which, as a rule, have low reliability. Therefore, the claimed device is reliable in operation, easy to maintain, but highly accurate.

Claims (2)

1. Device for automatically supplying an odorant to a gas stream, consisting of an odorant storage tank, a metering device, controlled valves for supplying an odorant to a gas pipeline, an odorant supply control device and a gas flow meter, characterized in that it has an odorant flow metering and metering unit, included in the pipeline between the odorant storage tank and the metering device. 2. The device according to claim 1, characterized in that it is equipped with a sound detector connected to the control unit.