UA58154A - Gas odorizer - Google Patents

Abstract

Gas odorizer is composed of a diaphragm located in head pipe and pad-dry chamber that is connected with underground capacity with odorant connected with underground and head pipe of service tank with odorant and supply nipple located in service tank of gas from pad-dry chamber. Nipple in service tank is mounted above level of odorant and turned toward it by its outlet.

Description

Description of the invention

The invention relates to gas mixing devices, in particular for gas odorization before its use.

A gas odorizer is known, which consists of an underground tank with an odorant, a consumable tank with an odorant connected to it, which is made in the form of an evaporation chamber with a gas inlet and outlet system, and a mechanism for the formation and regulation of odorant vapors located in this chamber. (Autor. certificate. USSR, Mo1468572,

Cl. VO1EZ/0 4, Bul. Mo12, 1989).

The disadvantage of this device is the complex design and unreliability of its steam-generating and regulating 70 steam mechanism.

A gas odorizer is known, which consists of a diaphragm located in the main pipe and a positive chamber formed by it, which is connected to an underground tank with an odorant, a consumable tank with an odorant connected to this chamber, with a gas inlet and outlet system and placed in consumption capacity by a mechanism with a nozzle for the formation and regulation of odorant vapors, which are fed into the main pipe. (Operator 12 gas and oil complex. Directory. Kyiv. "Rostok", 1998, p. 231, fig. 4.21).

The disadvantage of this device is that when the level of the odorant in the consumption capacity is below the top of the outlet opening of the nozzle, the gas coming out of this nozzle does not connect with the odorant itself, but only transits through its rarefied vapors in the cavity of the consumption capacity, which accumulate in it only due to natural evaporation. At the same time, as the transit gas passage volume increases, the concentration of naturally accumulated odorant vapors in the cavity of the consumable capacity drops sharply, and the gas itself is practically not odorized.

In addition, when small volumes of gas pass through the main pipe and, accordingly, small pressure differences between the plus and minus chambers, such a device cannot withstand the required degree of odorization of the gas, which is either not odorized at all, or is overdosed by the odorant due to its forced introduction into the gas .

Along with this, the device itself requires constant adjustment during operation, which makes it difficult to use it on low-power and remote GROs.

The invention is based on the task of improving the process and increasing the degree of reliability of gas odorization, especially when it is delivered in small volumes, while simultaneously simplifying the design of the device itself.

The task is solved by the fact that the nozzle, which is connected to the plus chamber and is located in the M consumption capacity of the odorizer, is arranged above the level of the odorant in the consumption capacity and is turned towards it (due to the odorant with its outlet.

Fig. 1 - schematically shows the proposed odorizer, in the flow capacity of which the nozzle is located above the odorant and its outlet is turned towards it; Ge) in Fig. 2 - the same, with a nozzle equipped with a nozzle; 3o in Fig. 3 - the same, with the nozzle of the nozzle made movable; o in Fig. 4 - the same, with a gas splitter located in the middle of the nozzle outlet; Fig. 5 shows the consumption capacity with the gas separator during the operation of the odorizer.

The gas odorizer consists of a diaphragm 2 located in the main pipe 1 and a positive "chamber Z" formed by it, which is connected to an underground tank 4 with an odorant 5, connected to an underground tank 4 and with a main pipe 1 of a consumption tank 6 with an odorant 7 and located in consumption capacity b with a nozzle 8 for supplying gas to it, which is arranged above the level of the odorant 7 and is surrounded by its outlet 9. z» The gas odorizer works in the following way:

The flow of gas from the plus chamber From the main pipe 1 through the bypass 10 enters the underground tank 4 with odorant 5, which under the pressure of this gas through the bypass 11 is fed into the consumption tank 6, where it accumulates in the volume 49 7 to the level regulated by the device 12. At the same time, through the bypass 13 from the positive chamber Z, the i-th gas is freely supplied through the nozzle 8, which is located above the level of the odorant 7, into the consumption capacity 6, where it is directed to this odorant through the opening 9 of the nozzle 8 turned towards it. directed at the odorant 7, the concentrated flow of gas jets intensifies the process of vaporization of the odorant, due to its surface "fluffing" with gas, which leads to the "boiling" of the odorant in the near-surface layers, with the removal of 20 layers of saturated vapors 14 of the gas-odorized mixture through the bypass 15 into the minus chamber 16 main pipe 1, fig.1.

Since the intensity of the surface "fluffing" of the odorant and its evaporation depends only on

T" of the pressure difference between the positive and negative chambers in the main pipe and, accordingly, of the amount of gas supplied through it, such a process is self-regulating and ensures uniform and synchronous odorization.

With very small volumes of gas supply through the main pipe and correspondingly small pressure differences between its 22 plus and minus chambers, the gas coming out of the nozzle in the consumption capacity practically does not "fluff" the odorant, v. but only carries out its vapors, which accumulate due to their natural evaporation. As the volume of gas supply in the main pipe increases and, accordingly, the pressure difference between its positive and negative chambers increases, the speed and concentration of gas jets coming out of the opening of the nozzle increases, the intensity of the process of forced "fluffing" of the odorant and, accordingly, its evaporation increases, with an increase in by removing these 60 pairs from the consumption capacity into the main pipe and increasing the degree of odorization of the gas passing through it.

Along with this, additional distribution valves 17 can be installed on the bypasses 10, 11, 13 and 15, which allow additional regulation or optimization of the odorization process by internal, within the device, regulation of both the supply volumes of the odorant and the volume supply tanks for the consumption capacity of gas or vapors coming out of it.

In order to increase the intensity of the formation of vapors 14 of the odorant 7 in the consumption capacity b, the nozzle 8 is equipped with an outlet nozzle 18, which is made in the form of a nozzle, Fig. 2.

With this design, the gas that passes through the nozzle nozzle 18, at the exit to the surface of the odorant 7, is formed into a high-speed and concentrated jet flow, which penetrates more deeply into the surface layers of the odorant and provides them with more "fluffing", which leads to an increase in the intensity of the formation of odorant vapors and more concentrated odorization, first of the gas mixture in the consumption capacity 6, and then of the gas in the main tube 1.

At the same time, the equipment of the outlet opening of the nozzle with a nozzle allows for a more qualitative redistribution of the pressure ratio in bypasses 11 and 13, which in turn allows to optimize the supply volumes between them - odorant from the underground to the consumption capacity and gas to the consumption capacity from the positive chamber 7/o main pipe.

To improve the operation of the gas odorizer when the temperature conditions in the environment change, the nozzle nozzle 18 of the nozzle 8 is made with the ability to change its position above the level of the odorant 7 in the consumption capacity b, fig.3.

When performing the nozzle nozzle 18 with a change in its position above the level of the odorant 7, for example with the help of /5 Screw gear 19, the gap between the outlet of the nozzle and the odorant can be adjusted, which allows you to increase or decrease the intensity of "fluffing" of the floor layers of the odorant and increase or decrease accordingly the intensity of vapor saturation of the gas odorant in the consumption capacity b, at a constant pressure regime both in the main pipe and in the internal system of the odorizer.

Such a feature allows at low ambient temperatures, for example in the winter period, when the temperature of the odorant itself is reduced and, accordingly, its vapor-forming capacity is reduced, the approximate outlet of the nozzle nozzle to the odorant and to increase its turbulence and evaporation, and at high ambient temperatures and, accordingly, the odorant , for example in the summer time, move the outlet of the nozzle nozzle away from the odorant and at the same time reduce the intensity of mixing /"fluffing"/ of the near-floor layers of the odorant and the intensity of its vaporization.

In order to improve and optimize the process of odorant 7 vapor formation, a gas separator 20 would be installed in the waste container, which is placed in the middle of the outlet opening 9 of the nozzle 8 and is made in the form of a mesh cone immersed in the odorant 7, Fig. 4, 5.

With this arrangement, the gas that comes out through the opening 9 of the nozzle 8 and falls on the splitter 20, due to its more complete plane dispersion in the near-floor layers of the odorant 7, more qualitatively "fluffs up" and "gas tUurbulizes" the odorant in these layers, which increases the volume mutual saturation of the gas with the odorant and optimizes the evaporation process over its entire surface in the consumption capacity 6. o

Making the gas separator 20 mesh provides more swirling and turbulence of the gas itself when it passes through the mesh, which in turn allows intensifying the process of mixing the odorant and its "boiling" directly under the separator itself. co

IC c)

Claims (4)

The formula of the invention 1. Gas odorizer, which consists of a diaphragm located in the main pipe and a "positive chamber" formed by it, which is connected to an underground tank with an odorant, connected to an underground tank and to a main pipe of a consumption tank with an odorant and a supply nozzle located in the consumption tank it has gas from a positive chamber, which differs in that the nozzle in the consumption container is arranged above the level of the odorant and its outlet is turned towards it. 2. The gas odorizer according to claim 1, which is characterized by the fact that the nozzle is equipped with an outlet nozzle made, for example, in the form of a nozzle. c Z. The gas odorizer according to claim 2, which differs in that the nozzle nozzle of the nozzle is made movable, with the possibility of changing its position above the level of the odorant. co 4. The gas odorizer according to claim 1, which differs in that a gas splitter is installed in the consumption container - which is placed in the middle of the outlet opening of the nozzle and is made, for example, in the form of a mesh cone immersed in the odorant. 1 s» R 60 b5