DE1018184B - Process for the conversion of acetylene into the liquid phase for the purpose of transport and storage - Google Patents

Description

Process for converting acetylene into the liquid phase for the purpose of transport and storage When transporting highly compressed gases in pressure vessels the high tare weight means an economic burden, which one in: increasing Measures are met in that one. the gases are transported in liquefied form. Most common is this type of transportation. today with oxygen.

Because of its well-known physical and chemical. Properties, can do the acetylene. cannot be handled in this way. It can be done with little Overpressure explosion may occur by self-decay. Goes under normal conditions Acetylene as well as carbon dioxide go directly from the gaseous to the solid state and. therefore cannot be used in the same way as oxygen or nitrogen in liquid form will.

It is already known to use acetylene for the purpose of transport and Storage in solvents. to dissolve and to cool below the boiling point, whereby as solvents, simple hydrocarbons or their derivatives individually or im Serve mixture. Despite this knowledge of the properties of liquid acetylene solutions on the basis of laboratory tests, however, no way was known so far: such Solutions also on a technical scale with a good economy. opportunity and above all to be able to manufacture practically explosion-proof.

The invention now shows one such. Way that allows acetylene in a technically simple and economical manner, taking into account all necessary To transfer collateral and thus practically explosion-proof into the liquid phase.

The procedure is such that acetylene and solvent are separated pre-cooled and thus brought approximately to the boiling point of the desired solution will. At this boiling point, the two substances are then in an absorber united and then. in a cooler on the transport in question or cooled at storage temperature.

A substance is used for cooling, the boiling point of which is two different pressures. correspond to the temperatures required in the absorber and aftercooler. The liquid substance is evaporated in the absorber and aftercooler. The cold gas the vaporized substance is then used for pre-cooling = acetylene and solvents, the management of the gas is to be carried out in such a way that its inlet temperature is in the acetylene cooler is not below the sublimation point of the acetylene.

The method is particularly distinguished by the fact that it enables Acetylene, regardless of the method by which it is obtained and where it is produced, to everyone Consumption so, rt to bring and to use there .. Dar by result above all for acetylene, which is not obtained from carbide but from hydrocarbons: openly, new uses .. Furthermore, the process is more continuous Collection possible.

In. the drawing is the. Method of operation of the method in the schematic Flow diagram shown.

From storage containers 1 and 2, from. those of the former, acetylene and the second, the solvent, e.g. B. acetone, contain these two Substances are fed to the heat exchangers 5 and 6 via lines 3 and 4 and there to the boiling temperature of the desired. Solution brought. There. after stream they through the lines 7 and 8 to the absorber 9 and become the solution therein united. The. finished solution leaves the absorber 9 via line 10 and is cooled in the cooler 11 to the desired transport or storage temperature. she is discharged from the apparatus via line 12.

The substance used for cooling, e.g. B. carbon tetrafluoride is two circuits of a conventional gas liquefaction plant working under different pressures 13 removed and liquid via lines 14 and 15 to the cooler 11 and the absorber 9 supplied. In both, the. liquid used for cooling is completely evaporated.

After the refrigerant leaving the absorber 9 in gaseous form in the Throttle 16 is relaxed to the pressure of the gas leaving the cooler both combined in line 17. A. Part of the combined gas flows through the line 18, the Wärmeausta.uscher 6 and cools the solvent. The other part flows through line 19 and becomes. in line 20 with part of the heat exchanger 6 leaving gas united, so that its temperature is higher than the sublimation point of acetylene lies. This gas mixture flows through line 20 then the heat exchanger 5 and cools the acetylene. In the line 21 are then the gas leaving the heat exchanger 5 and the remainder of the gas passing through the line 22 the heat exchanger 6 leaving the gas combined and again the gas liquefaction plant 13 supplied.

By this guidance of the refrigerant is prevented that on a Place, the apparatus separates solid acetylene and the known caused by it Causes danger. In principle, the heat exchangers 5 and 6 can be dispensed with but then the cost-effectiveness of the process drops very sharply, if not the cold content of the gaseous refrigerant happens to be used elsewhere can.

Claims (2)

PATENT CLAIMS: 1. Process for converting acetylene into liquid Phase with the help of a solvent for the purpose of transport and storage, whereby acetylene and solvent are cooled, characterized in that, ß acetylene and solvent after separate pre-cooling to approximately the boiling point of the resulting liquid phase are combined at this boiling point and then the resulting liquid is cooled to the desired transport or storage temperature will, where at. there is no temperature at any point in the apparatus the. Formation of solid acetylene enables. 2. The method according to claim 1, characterized in that for cooling a material is used whose boiling temperatures correspond to the working temperatures in the absorber and condenser at two different pressures and is evaporated in the absorber and condenser, and the resultant in the absorber and condenser Gas is used to cool acetylene and solvent, the gas being conducted in such a way that its inlet temperature into the heat exchanger for cooling the acetylene is not below the suhlination point of the acetylene. Considered publications: German Patent Specifications No. 558 362, 714 552; USA. Patent no. 1774 633rd