RU2082913C1 - Bottle for dissolved combustible gas - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: bottle consists of cylindrical shell with heads and neck. Porous mass impregnated with acetone is contained in bottle. Hydrophilic fusible agent is contained in volume adjoining the neck. EFFECT: enhanced reliability. 2 cl, 1 dwg

Description

 The invention relates to the gas industry, and in particular to means for storing and transporting combustible gases prone to explosive decay.

 There are various designs of devices for storing and transporting gases, including combustible ones (P. A. Dolin. Safety Guide. M. Energoizdat, 1982). These include tanks, vessels, gas tanks and cylinders. Cylinders are 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.

 Known balloon for dissolved acetylene (Strizhevsky II. Safety in the production of acetylene. M. Chemistry, 1978). 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.

 The disadvantage of such a cylinder is the complete burnout of acetylene with the simultaneous destruction of the porous structure of activated carbon during the so-called reverse impact of the flame, that is, when the flame enters the balloon from the side of the consumer of acetylene or when it is filled at the acetylene station. In addition to the impossibility of using such a cylinder in the future in the national economy, there is also a danger of fire and explosion.

 Another disadvantage of the prototype can be noted: the availability of moisture inside the balloon and its dissolution in acetone, which very sharply reduces the gas absorption of the balloon by acetylene.

 The purpose of the invention is the increase of explosion safety during operation and the prevention of moisture in the cylinder.

To achieve this goal, it is proposed to introduce two grids or gratings located horizontally and parallel to each other, between which a finely dispersed substance, for example phosphorus pentoxide P ₂ O ₅ , is able to exhibit hydrophilic properties under normal conditions, and when the combustible gas ignites, it melts in the cylinder and block the exit of acetylene from the acetone-impregnated porous mass.

 The drawing shows the proposed cylinder for dissolved combustible gas.

 The cylinder consists of a cylindrical body 1 with a support shoe 2 impregnated with acetone of the porous mass 3 and located between the nets 5 of the hydrophilic substance 4.

 Under normal conditions, the operation of the cylinder is carried out in the usual way, that is, the filling, storage, transportation and selection of gas from the cylinder is carried out in accordance with current regulations and using conventional gas equipment.

In the event of an emergency, when the flame from the gas consumer side enters the upper part of the cylinder, phosphorus pentoxide melts (melting point P ₂ O ₅ equal to 569 ^o C) and clogs the upper part of the porous mass in the cylinder under the action of the released heat of combustion or decay of combustible gas. In this case, the evolution of combustible gas from acetone ceases and the flame goes out. After cooling the cylinder, it is disconnected from the rest of the gas equipment and sent for regeneration.

When the cylinder is repeatedly filled with combustible gas, for example acetylene, it is dried with the hydrophilic substance P ₂ O ₅ . In this case, moisture does not get into acetone and into the porous mass of the container, but concentrates only in the upper part of the container, which significantly reduces energy consumption during the regeneration of the porous mass of the container.

 The positive effects when using the proposed container relate to operation and are as follows: blockage of the porous mass of the container with molten phosphorus pentoxide localizes the flame in the container; when filling a cylinder with gas, moisture is adsorbed by phosphorus pentoxide; cylinder regeneration is carried out with low energy costs.

Claims (2)

 1. A cylinder for dissolved combustible gas, comprising a cylindrical body with a neck filled with acetone impregnated with a porous mass, the cylinder having a safety nozzle in the upper volume adjacent to the neck, characterized in that the safety nozzle is made in the form of a hydrophilic fusible substance placed between two grids.  2. The cylinder according to claim 1, characterized in that phosphorus pentoxide is used as the hydrophilic fusible substance.