CZ337495A3 - Acetylene transportation and storage - Google Patents

Abstract

Acetylene is stored in a vessel (1) in which the acetylene is dissolved in a solvent and the max. acetylene partial pressure of 1.1 bar is maintained. The novelty is that the wt. ratio of acetylene to solvent is max. 0.25.

Description

(57) In the mode of transport and storage of acetylene, acetylene is dissolved in a solvent, the ratio between acetylene and solvent being a maximum of 0,25. The acetylene partial pressure is at most 0.11 MPa.

3

3274 I · <X!

i-j

Method of transport and storage of acetylene

Technical field

The invention relates to a process for the transport and storage of acetylene according to the preamble of claim 1.

BACKGROUND OF THE INVENTION

Acetylene is usually shipped and stored at a temperature to prevent spontaneous environmental disintegration in steel cylinders. For acetylene, these steel cylinders are completely filled with porous pumice stone with a substance such as diatomaceous earth or solvent to collect acetylene.

To improve the storage efficiency in general, various other methods are currently known, for example from US-PS 2,925, if it is porous deviating from the method of the invention,

385, wherein it is possible to dispense with the solvent at a lower mass temperature. In this case, the partial pressure of acetylene determined by the solvent is very small in the gas space and the decomposition of acetylene is correspondingly small.

With this method, long-term storage is a problem and considerable heat losses are incurred.

even when used that especially in insulated containers for cooling capacity, which is conditional

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION The object of the present invention is to provide a process for storing and transporting acetylene which, in comparison with the prior art, allows a higher storage temperature and thus saves cooling costs. The process according to the invention must be dispensed with costly process steps.

Further to the prior art set forth in the preamble of claim 1, the object of the invention is solved by the features set forth in the characterizing portion of claim 1.

Surprisingly, it has been found that acetylene can be stored and transported in containers, subject to a maximum partial pressure of 0.11 MPa under safe conditions, provided that the weight ratio between acetylene and solvent is not exceeded 0.25. Storage temperature needed to ensure? the required safety is only -50 ° C, so lower cooling costs are required to compensate for temperature losses.

Preferred further embodiments are set forth in the subclaims.

pop with pictures on drawings

The attached drawing shows a device with which the disintegration tests according to the following examples are carried out.

DETAILED DESCRIPTION OF THE INVENTION

In this drawing there is shown a container 1 for solution 5 of acetylene en-dimethyl forms 1d as a steel cylinder, which is equipped with a ignition valve 2 having a nickel wire 3 for ignition as electrodes. In vessel 1 there is a solution 5 of acetylene dimethylformamide.

The vessel ± is vacuum-filled, pumped with dimethylformamide, pumping is restored, and finally acetylene is fed off. The filling amount was determined by weighing. The volume fraction of the solution in vessel 1 is between 25 and 48%. During the test, acetylene decay was induced in vessel 1 by applying an alternating voltage of 50 volts. The setting of the test pressure was made with respect to the tempering of the vessel 1. Prior to ignition, the gas space in the vessel 1 has a known pressure. Ignition initiates a decay reaction that leads to a pressure increase that is measured. Because the decay reaction occurs by a pressure exothermic sensor, acetylene exits the reaction fluid from the liquid boom and causes the pressure buildup to recover as a second pressure maximum p2.

The table shows the test results. The first line shows the weight ratio of acetylene to dimethylformamide in solution 5. The second line shows the pre-ignition initial pressures. On the third and fourth rows the first pressure maximum p1 after ignition and the second pressure maximum 02, which is conditioned by the acetylene outlet from solution 5, are shown.

Columns I and III of the table show the results of the explosion test at a vessel pressure of 0.18 to 0.20 MPa and an acetylene to dimethylformamide weight ratio of 0.2 and 0.25, respectively. As can be seen from the results of the tests, at the same initial pressure after the low acetylene concentration test with a weight ratio of 0.2 for the first and second pressure peaks p1, p2 are recorded lower than for the weight ratio of 0.25. In the tests, the values of the first pressure maximum p1 are of comparable magnitude, while the values of the second pressure maximum p.2 in the test 3 have a mass ratio of 0.25 more than twice as high. Both results are acceptable from a technical safety point of view.

Column X in the table shows, compared to column 11, that with the same composition of the solution of 5 acetylenen-dimethyl forms id with a weight ratio of 0.2, both pressure peaks pi, ρξ are more than twice as great when the initial pressure po lies between 0, 38 and 0.43 MPa. As can be seen in column IV, a small increase in the weight ratio from 0.25 to 0.26 results in such a large pressure increase that only a large reduction in the initial pressure po to 0.10 to 0.12 MPa leads to acceptable pressure maximum values of p .1, p.2. Already by the first pressure maximum p1, the value is up to 20 times the initial pressure po, while the second pressure maximum p.2 is up to 50 times the initial pressure po.

is considered or mixed

Solvents such as dimethylformamide, but solvents such as acetone are preferably used also include other solvents which are generally used for the transport of acetylene. Preferably, the vessel 1, which is filled with acetone under these conditions, is provided with an overpressure corresponding to a total pressure which, when exceeded 11 MPa, allows gas to escape from the vessel such that the internal pressure exceeds 0.10 MPa. Furthermore, in the case of introducing into the gas phase of the interior space of the vessel 1 further gas, such as nitrogen.

With the method according to the invention it is possible to transport and store acetes only in comparison with the prior art at higher temperatures. The cooling capacity and associated costs can thus be reduced, especially during long storage periods.

Table

column AND II III IV acetylene / d dimethylformates; d 0.20 0.20 0.25 0, 26 po (MPa) 0.38-0.43 0,18-0,20 0,18-0,20 0,10-0,12 pi (MPa) 4.70 2.20 2.50 2.00 pa (MPa) 6.00 2.80 5.60 4.80

C.f. Se 777

Claims (4)

3374 - PATENT CLAIMS 1. Way of transport and storage acety1enu v container (1), whereas acetylene is dissolved in solvent and maintains se on maximum partial pressure 0.11 MPa, characterized by by that, that the weight ratio of acetylene to solvent is at most 0.25. Method according to claim 1, characterized in that a pressure reduction is carried out when the partial pressure exceeds 0.11 MPa. Process according to Claim 1 or 2, characterized in that dimethylformamide is used as the solvent. Method according to one of Claims 1 to 3, characterized in that it is carried out in a thermally insulated pressure tank (11).