SU575107A1 - Method of condensation of vapour mixture - Google Patents

Description

one

The invention relates to methods of condensing mixtures of vapors containing petroleum products and water vapor that are clothed, preferably from the top of vacuum columns of primary distillation units, and may be used in the petroleum refining and petrochemical industries.

The known method of condensation is that the vapor mixture from the top of the vacuum column is sent to a combined apparatus including surface shell-and-tube raw heat exchangers, water condensers, and also a barometric mixing condenser in which the pairs partially condense during their initial movement. through a group of surface shell-and-tube heat exchangers and water condensers, and then they are further condensed during subsequent movement in a barometric mixing condenser due to counter ku cooling water.

Non-condensed gases and vapors are sucked off with a steam jet ejector, and the liquid is sent to a barometric well and sumps 1.

There is also known a method of condensing a mixture of vapors, which means that water and petroleum vapor from the top of a vacuum KOLS5NHA are directed to a shell-and-tube surface condenser, in which they are condensed due to countercurrent: cooling water. This method eliminates the stage of vapor condensation due to direct contact with water 2.

One of the drawbacks of this method is the presence of bulky capacitors, which are operated at a height to create a barometric hydraulic seal.

There is also known a method of condensing vapors from the top of a vacuum column, according to which condensed oil 1h is used instead of water in the mixing condenser instead of water.

The method consists in that the vapor mixture from the top of the vacuum condensation column is directed downward to the barometric mixing condenser under the first plate. Condensed vapors from the bottom of the barometric condenser through the barometric tube are diverted to the barometric well, and from it to the settling tank, from which, after settling and separation, the oil product is taken up by the pump and pumped through the refrigerator and, as a refrigerant to condense vapors, is fed in one stream only to the upper barometric plate condenser. Non-condensed vapors in a barometric condenser and gases are sucked off with a steam jet ejector.

The disadvantage of this method is the increased output of the amount of refrigerant - oil product, which is associated with the difference in the values of the heat capacities of water and oil product.

The povygivennaya amount of oil leads to an increase in the height of the liquid on the plates of the squeeze capacitor, additional hydraulic resistance and disturbance of the stability of hydrodynamics on them, disruption in the operation of the steam ejector, which are received in pairs from a bar (1 tangent condenser) and. to bring liquid (oil product). This complicates and makes it difficult to carry out this method under proximate conditions.

In addition, a disadvantage of signaling condensation methods is boiling of water in them when passing a stream of vapors discharged from the top of a high temperature vacuum column. As a result, there is an intensive salt deposition on the inner walls of the tubes, rapid wear of the apparatus and, consequently, the chat, its replacement.

The purpose of the present invention is to improve the stability and efficiency of the process of condensing a mixture of vapors and improving the technical and economic performance of the process (an increase in the installation time between overhauls and a reduction in the time required for its repair by increasing the duration of operation of surface water shell-and-tube condensers).

For this purpose, the condensed oil is cooled and supplied as a refrigerant by two streams for mixing with vapors discharged from the top of the column, and the vapors condensed as a result of mixing with the refrigerant are also diverted by two streams and directed to irrigation of surface condensers.

The method is explained in the drawing on which the diagram is given. The scheme includes a combined apparatus 1, surface shell-and-tube oil heat exchangers 2, surface water shell-and-tube condensers 3, a barometric mixing condenser 4, a barometric well 5, a settling tank b, a pump 7, a refrigerator 8.

The method is carried out in the following way. The mixture of oil-product vapors and water from the column is fed to a combined apparatus 1, in which they pass surface shell-and-tube heat exchangers: 2, surface water shell-and-tube condensers 3, where the vapor mixture is partially condensed, a. the remaining bulk of the vapor is then sent to the barometric condenser 4 under the first plate in which the bulk of the vapor condenses and cools. The condensed stream is withdrawn from the barometric condenser from the first and second plates is fed in the form of orO (yen to surface water shell-and-tube condensers 3, and then to the barometric well 5 and for final separation and separation from the water to the sump 6, from where the pump 7 receives the oil product and is pumped through a refrigerator where it is cooled, preferably up to 30 ° C, and supplied as a refrigerant to the barometric condenser 4 in two streams, preferably in a ratio of 3: 1, to the fourth and first Separate input and output of oil in a barometric condenser are performed in order to increase the intensity of heat exchange, redistribute the load of the plates on the liquid and, thus, reduce their hydraulic resistance, stabilize the operating mode of the barometric condenser, and also reduce the steam of the ejector by reducing reception to him.

Thus, according to the proposed method, the stability and efficiency of the process of condensation of a mixture of vapors discharged from the top of the vacuum column is improved, the operation of the steam jet ejector is improved, the service life of water shell-and-tube condensers is significantly increased.

During the testing of the proposed method, the surface water shell-and-tube capacitors worked without deposition of salt in them, approximately three times longer than with the known method, which consequently reduces the time for just installations.

Claims (3)

1. Journal of Chemistry and Technology of Fuels and Oils, No. 3, 1969, p. 7, 2. Journal Refining and petrochemicals 11-12, 1958, p.41. 3. Patent SPI 2723950, cl. 208366. Gaz / g f / t eitmopy