RU127167U1 - BOTTLE FOR DISSOLVED ACETYLENE - Google Patents

Abstract

1. A cylinder for dissolved acetylene, containing a steel cylindrical body, tapering to the neck, a steel shut-off valve on the neck, and also a porous mass filled with a volume above the gas cushion above it, which is dried active crushed charcoal, compacted to a density of 300 ÷ 370 g / l of the body capacity into which acetone impregnating the porous mass is introduced at the rate of 275 ± 10 g / l of the body capacity of the cylinder with the formation of a gas cushion, the volume of which is 16-20% of the volume of the ball body ona.2. A cylinder according to claim 1, characterized in that the residual moisture content in the coal filled in the cylinder body does not exceed 1%. The cylinder according to claim 2, characterized in that the porosity of the coal packed in the cylinder body is 76 ÷ 80%. 4. A cylinder according to claim 3, characterized in that the strength of the coal packed in the cylinder body is at least 60% .5. A cylinder according to claim 4, characterized in that the mass fraction of ash in the coal packed in the cylinder body is not more than 7% .6. A cylinder according to claim 5, characterized in that the particle size of the coal packed in the cylinder body is 1.0-3.6 mm. A cylinder according to claim 6, characterized in that it is made with a gas pick-up of at least 125 g of acetylene per 1 liter of the cylinder body capacity. A cylinder according to any one of claims 1 to 7, characterized in that it is equipped with a removable safety cap made of carbon steel and a neck ring made with internal and external threads, respectively, for installation in assembly on the neck. A cylinder according to any one of claims 1 to 7, characterized in that the casing is equipped with a removable support shoe made of carbon steel. Cylinder according to any one of claims 1 to 7, characterized in that the housing is made �

Description

The utility model relates to the gas industry, namely, vessels for placing or storing gases in a compressed state. Cylinders filled with a porous mass and acetylene solvent - acetone, are intended for storage and transportation of dissolved acetylene obtained from calcium carbide and pyrolysis acetylene.

Various designs of cylinders for storing and transporting gases, including combustibles, are known. These include metal vessels of various capacities, designed for high pressure. They consist of a cylindrical shell, upper and lower bottoms, and a nozzle with a valve. For gases prone to explosive decay, cylinders are filled with a porous nozzle. Cylinders with porous nozzles are used for the following gases: acetylene, methylacetylene, propadiene and propylene (PA Dolin, “Safety Guide”. M. Energoizdat, 1982).

Known balloon for dissolved acetylene. The cylinder consists of a cylindrical body, two bottoms, a support shoe and a valve. Activated carbon is placed inside the container as a porous flame-retardant nozzle. To dissolve acetylene, acetone was pumped into the balloon (II Strizhevsky, "Safety in the production of acetylene." M. Chemistry, 1978).

The disadvantage of such a cylinder is the insufficient gas selectivity of the cylinder for acetylene, as well as the possibility of complete burnout of acetylene with the simultaneous destruction of the porous structure of activated carbon during the so-called reverse flame impact, i.e., when the flame enters the cylinder from the side of the acetylene consumer or when it is filled at the acetylene station.

A known container for dissolved combustible gas, comprising a cylindrical body with a neck filled with acetone impregnated with a porous mass, the cylinder has a safety nozzle in the upper adjoining volume of the neck, characterized in that the safety nozzle is made in the form of a hydrophilic fusible substance placed between two grids. As a hydrophilic fusible substance, phosphorus pentoxide (RU 2082913) was used.

The disadvantage of this balloon is its high cost, large losses of acetylene and insufficient gas recovery, insufficient number of charge / discharge cycles of the balloon.

A known cylinder for dissolved acetylene, containing a steel cylindrical body, tapering to the neck, a steel shut-off valve on the neck, as well as a porous mass packed up to the neck, which is dried active crushed charcoal with a density of 240 grams per liter, into which an impregnating porous mass is introduced technical acetone (http://electrowelder.ru/index.php/19-2/gazosvarschik/105-manometers.html, prototype).

The disadvantage of this cylinder is the lack of gas recovery and the possibility of increasing the pressure in the body and pouring out crushed coal, the insufficient number of charge / discharge cycles of the cylinder.

The technical task of the utility model is to create an effective cylinder for dissolved acetylene and expand the arsenal of cylinders for dissolved acetylene.

The technical result, which provides a solution to the problem, is to increase the gas recovery (to at least 125 grams of acetylene per 1 liter of the capacity of the cylinder body), provided in connection with the increased density of the porous mass, reduced losses (the ablation of acetone during discharge of the cylinder does not exceed 50 ml / m ³ acetylene), and eliminating the possibility of excessive pressure increase in the cylinder body due to the fact that part of the cylinder body volume (16-20%) is not filled with acetone. The increased density of the porous mass allows you to increase the number of allowable cycles of charging / discharging the cylinder.

The essence of the utility model is that the cylinder for dissolved acetylene contains a steel cylindrical body, tapering to the neck, a steel shut-off valve on the neck, and also a porous mass stuffed in the body with the formation of the volume for the gas cushion above it, which is dried active crushed charcoal compacted to a density of 300 ÷ 370 grams per liter of housing capacity, into which acetone impregnating the porous mass is introduced at the rate of 275 ± 10 grams per 1 liter of cylinder body capacity with the formation gas cushion, the volume of which is 16-20% of the volume of the cylinder body.

Preferably, the residual moisture content in the coal filled in the cylinder body does not exceed 1%, the porosity of the coal packed in the cylinder body is 76 ÷ 80%, the strength of the coal packed in the cylinder body is at least 60%, the mass fraction of ash in coal filled in the cylinder body, is not more than 7%, the particle size of coal packed in the cylinder body is 1.0-3.6 mm

In this case, the cylinder is made with a gas pick-up of at least 125 grams of acetylene per 1 liter of the cylinder body capacity, and is equipped with a removable safety cap made of carbon steel and a neck ring made with internal and external threads, respectively, for installation in assembly on the neck, the body is equipped with made of carbon steel with a removable support shoe and made of carbon steel with a strength designed for a working pressure of 9.8 MPa (100 kgf / cm ² ).

In the drawing of figure 1 shows a cylinder for dissolved acetylene with a local cut, figure 2 is a support shoe, figure 3 is a top view of figure 2, figure 4 is a safety cap, figure 5 is a top view of figure 4, figure 6 - ring neck.

The drawings indicate the cylinder body 1, shut-off valve 2, throat ring 3, safety cap 4, gas cushion 5, porous mass 6 with acetone, support shoe 7.

The bottle for dissolved acetylene contains a steel cylindrical body 1, tapering in the upper spherical part to the neck (not indicated), a steel shut-off valve 2 on the neck, and also stuffed in the body 1 with the formation of a volume for the gas cushion 5 of a porous mass 6, which is dried activated wood crushed coal, compulsorily compacted to a density of 300 ÷ 370 grams per liter of capacity of the housing 1, into which technical acetone impregnating the porous mass is introduced at the rate of 275 ± 10 grams per 1 liter of capacity of barrel 1 cylinder with the formation in the upper part of the housing 1 under the neck of the gas cushion, the volume of which is 16-20% of the volume of the housing 1 of the cylinder.

In this case, the residual moisture content in the coal packed in the container 1 of the container does not exceed 1%, which positively affects the gas recovery of the container, especially at the indicated increased coal density.

The porosity of the coal packed in the housing of 1 cylinder is 76 ÷ 80%.

The strength of coal packed in the body of 1 cylinder is at least 60%.

The mass fraction of ash in the coal filled in the body of 1 cylinder is not more than 7%, the adsorption activity for iodine is not less than 60%.

The particle size of the coal packed in the body of the 1 cylinder is 1.0-3.6 mm.

Active crushed charcoal is a combustible substance with a smoldering temperature in the layer of at least 240 ° C.

The cylinder has a gas pick-up of at least 125 grams of acetylene per 1 liter of the body capacity of 1 cylinder.

The cylinder is equipped with a removable safety cap 4 made of carbon steel and a throat ring 3 made with internal and external threads, respectively, for installation in assembly on the neck of the housing 1.

The housing 1 is equipped with a removable support shoe 7 made of carbon steel.

Case 1 is made of carbon steel with a strength designed for a working pressure of 9.8 MPa (100 kgf / cm ² ) and painted with white enamel.

Ring 3 of the neck of carbon steel of ordinary quality is installed on the housing 1 of the cylinder by crimping. A safety cap 4 is screwed onto the ring 3. Gas cushion 5 is the space in the upper spherical part of the cylinder body 1 (between the porous mass 6 with acetone and valve 2) filled with acetylene. The support shoe 7 made of carbon steel of ordinary quality can be mounted on the cylinder body 1 by crimping or screwed onto the thread (depending on the design of the cylinder).

The manufacture and operation of cylinders should be in accordance with the requirements of the "Rules for the design and safe operation of pressure vessels" (ПБ 03-576-03). The cylinder with a screwed-in valve must be tight at a pressure of 3.5 MPa (35 kgf / cm ^2. A cylinder manufactured in an export version for delivery to countries with a temperate or tropical climate must comply with the "Conditions for the supply of goods for export" and the requirements of GOST 15151- 69.

The main parameters and dimensions of the cylinder body, its design, mechanical properties of the material, as well as coloring and marking must comply with GOST 949-73, for carbon steel cylinders of ordinary accuracy

The dissolved acetylene cylinder is operated as follows.

Acetone impregnating the porous mass 6 is poured into the container body 1 of the container. The amount of acetone is taken taking into account the possibility of increasing its volume when acetylene is dissolved. Porous mass 6 performs the following functions:

- improves safety when working with a cylinder - due to the porous mass, the total volume of acetylene is divided into separate cells; thus, the probability of the spread of the common front of combustion and explosion is significantly reduced, and increasing the density of coal to a density of 300 ÷ 370 grams per liter of capacity significantly increases the number of these cells;

- it allows to increase the amount of acetylene in the cylinder, to accelerate the process of its dissolution when filling the cylinder and evolving when taking gas - because when using a porous mass impregnated with acetone, a large surface area of mutual contact between gas and acetone is provided, and the coal density increases to a density of 300 ÷ 370 grams per liter of capacity significantly increases this area.

Gas cushion 5 - the volume unfilled with coal and acetone (16-20%) in the upper part of the cylinder body, filled with compressed gaseous acetylene saturated with acetone vapor.

For charging (filling) acetylene is injected into the balloon and dissolved in acetone under a pressure of 15-18 atm. Cylinders are filled at special filling stations with special acetylene piston compressors. The supply of acetylene to the cylinders and its dissolution occur within several hours, until the pressure in the cylinder reaches 15-18 atm at 15 ° C. A normal 40-liter acetylene cylinder holds about 6 m ^{3 of} acetylene.

Before filling the cylinders, acetylene is subjected to thorough cleaning and drying, passing dehumidifiers with chemical moisture absorbers. Drying is necessary because water entering the acetone greatly reduces the solubility of acetylene.

Acetylene is a gas produced from calcium carbide. Acetylene (C ₂ H ₃ ) is a chemical gaseous compound of carbon with hydrogen, without color, with a slight ethereal odor and a sweetish taste. Acetylene is the only gas widely used in industry, which is one of the few compounds whose combustion and explosion are possible in the absence of oxygen or other oxidizing agents. Acetylene should not be filled under high pressure, as is the case with other gases, due to the possibility of explosive self-decay.

Acetylene dissolves well in acetone: at normal temperature and pressure. The dissolution of acetylene in acetone allows you to place a large amount of acetylene in a small volume, and in this respect is equivalent to compressing the gas to very high pressures. A solution of acetylene in acetone is significantly less explosive than gaseous acetylene. The safety of dissolved acetylene is further enhanced if the solution impregnates a solid porous mass with microscopic pore sizes. In this form, dissolved acetylene is practically safe against explosion.

The safety cap 4 serves to protect the valve 2 from mechanical damage and contamination. Shoe 7 provides stability of the container during operation and transportation.

Distribution of acetylene from the cylinder to consumers is carried out by opening valve 2. Opening and closing valve 2 is performed with a socket wrench, worn on a square head. Valve 2 does not have a fitting. The gas in the gas cushion enters the consumer through a valve and gearbox (not shown).

The gearbox is connected using a special clamp with a clamping bolt. When valve 2 of an acetylene cylinder is opened, the pressure in it drops, acetylene dissolved in acetone begins to be released in gaseous form and through valve 2 and the reducer is directed to the place of consumption. With acetylene, a certain amount of acetone is carried away; in order to avoid excessive entrainment, do not take more than 2 m3 / h of acetylene from the cylinder and stop gas extraction when the pressure in the cylinder drops to 2 atm. Before each filling of the balloon with acetylene, acetone is added to the balloon.

The heat generation during the combustion of acetylene is due to the following processes:

acetylene decomposition: С ₂ Н ₂ = 2С + Н ₂

carbon combustion: 2C + O ₂ = 2CO, 2CO + O ₂ = 2CO ₂

hydrogen combustion: H ₂ + 1 / 2O ₂ = H ₂ O

The maximum allowable loss of acetylene in the cylinder during filling is 0.00061 m ³ / h, during discharge - 0.00061 m ³ / h.

The increased gas recovery of the cylinder (at least 125 grams of acetylene per 1 liter of the cylinder body capacity) is ensured due to the increased density of the porous mass of 300 ÷ 370 grams per liter of capacity and the introduction of acetone at the rate of 275 ± 10 grams per 1 liter of the cylinder body capacity, reduction losses (the loss of acetone during balloon discharge does not exceed 50 ml / m ^{3 of} acetylene), and the exclusion of the possibility of an excessive increase in pressure in the cylinder body due to the fact that part of the cylinder body volume (16-20%) is not filled with acetone. The increased density of the porous mass allows you to increase the number of allowable charge / discharge cycles of the container, i.e. the term of its operation.

Claims (10)

1. A cylinder for dissolved acetylene, containing a steel cylindrical body, tapering to the neck, a steel shut-off valve on the neck, and also a porous mass filled with a volume above the gas cushion above it, which is dried active crushed charcoal, compacted to a density of 300 ÷ 370 g / l of the body capacity into which acetone impregnating the porous mass is introduced at the rate of 275 ± 10 g / l of the body capacity of the cylinder with the formation of a gas cushion, the volume of which is 16-20% of the volume of the ball body it. 2. The cylinder according to claim 1, characterized in that the residual moisture in the coal stuffed in the cylinder body does not exceed 1%. 3. The cylinder according to claim 2, characterized in that the porosity of the coal packed in the cylinder body is 76 ÷ 80%. 4. The cylinder according to claim 3, characterized in that the strength of the coal packed in the cylinder body is at least 60%. 5. The cylinder according to claim 4, characterized in that the mass fraction of ash in the coal packed in the cylinder body is not more than 7%. 6. The cylinder according to claim 5, characterized in that the particle size of the coal packed in the cylinder body is 1.0-3.6 mm. 7. The cylinder according to claim 6, characterized in that it is made with a gas pick-up of at least 125 g of acetylene per 1 liter of capacity of the cylinder body. 8. Cylinder according to any one of claims 1 to 7, characterized in that it is equipped with a removable safety cap made of carbon steel and a neck ring made with internal and external threads, respectively, for installation in assembly on the neck. 9. Cylinder according to any one of claims 1 to 7, characterized in that the housing is equipped with a removable support shoe made of carbon steel. 10. A cylinder according to any one of claims 1 to 7, characterized in that the casing is made of carbon steel with a strength designed for an operating pressure of 9.8 MPa (100 kgf / cm ² ).

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