SU1263284A1 - Apparatus for dehydration of petroleum products - Google Patents

Abstract

THE DEVICE FOR VANIA PLANT OF PETROLEUM PRODUCTS, contained a vertical cylindrical body by cutting the input of the original oil refill of the output of dehydrated oil products and steam, divided by two partitions into communicating with each other through the holes the input, middle and output chambers, it is equipped with a heater placed in the middle chamber and a heat exchanger placed in the inlet chamber, and the partition between c) and outlet chambers is made in in the form of a paraboloid of rotation, installed apex downwards, in the center of which a tube is installed to communicate the outlet chamber with the heat exchanger, and the holes connecting the middle chamber with the outlet are made in the upper part of the paraboloid in the form of tangentially located throttling slots.

Description

The invention relates to devices for the purification of oil and oil products from water and can be used in the oil refining industry, in water, rail, air and road transport and other sectors of the national economy.

The purpose of the invention is to increase the efficiency and quality of dehydration of petroleum products.

FIG. 1 shows the device, general view; in fig. 2 is a section A-A in FIG. one.

The device consists of a vertical cylindrical body 1, covered with a heat insulating material 2 and closed with a lid 3, on which a nozzle 4 is installed for outputting steam. The housing 1 is divided by partitions 5 and 6 into the inlet chamber 7, the middle chamber 8 and the outlet chamber 9. The inlet chamber 7 is equipped with a nozzle 10 for introducing raw non-refined petroleum products connected to the pump 11. Inside the inlet chamber 7 to provide preheating of the crude oil () products a heat exchanger 12 is installed, connected to the nozzle 13 for the withdrawal of the dried oil products. In the partition 5, holes 14 are made for the passage of petroleum products into the middle chamber 8, in which a heater 15 is installed. The partition 6 separating the middle chamber from the exit chamber is made in the form of a paraboloid of rotation, which is installed with its top down. A tube 16 is installed in the center of the top of the paraboloid, connecting the output chamber 9 with the heat exchanger 12 inlet. The upper part of the partition 6 adjoins the lid 3. To communicate the middle chamber 8 with the output chamber 9 in the partition 6, there are holes in the upper part 6 tangentially located along the perimeter of the paraboloid throttling slots. The partition 6 is made of insulating material.

A device for dewatering petroleum products operates as follows.

The hydrated oil product is pumped through pump 11 through the nozzle 10 into the inlet chamber 7, from where the oil product flows through the holes 14 in the partition 5 into the middle chamber 8. At the same time,

through the slotted openings 17 in the partition 6, the middle chamber enters the outlet chamber 9 and then through the outlet 4 to the atmosphere. After the middle chamber 8 has been made, the dehydrated oil product passes through the tangential throttling holes 17 in the partition 6 and enters the output chamber 9.

The pump 11 and the tangential throttling slit openings 17 provide a constant overpressure of 0.6 ± 0.05 MPa in the inlet and middle chambers, and through the heater 15 a constant temperature of 125 ± 5 ° C of oil in the middle chamber achieves the translation of the in the original oil product water in a superheated state.

The source of the heated oil from the middle chamber with excess pressure through the tangential throttling slotted holes 17 enters the form of flat tangential jets in the output chamber with atmospheric pressure. As a result of a sharp decrease in pressure to atmospheric, the overheated water in the flat streams of the dehydrated oil product passes into steam, which is vigorously released from the oil product stream and is discharged from the outlet chamber through the outlet 4.

The heated dehydrated oil product spreads over the heated surface of the partition 6, forming a flat circular flow, which under the action of centrifugal and gravitational forces moves to the opening of the tube 16, through which it flows into the heat exchanger 12, from where it is removed through the nozzle 13.

The partition 6 is made in the form of a paraboloid of rotation corresponding to the shape of the free surface of the rotating fluid. Thus, they ensure that a rotating flow of equal thickness is obtained over the entire heated to 125- (5 ° C surface of the partition 6, which increases the degree of dehydration of the oil product due to additional drainage.

The hot, dehydrated oil product, which flows through the heat exchanger 12, transfers some of its heat to the original kefteproduct, which is located in the inlet chamber, thereby reducing the energy intensity of the process.

Claims (1)

DEVICE FOR DEWATING OIL PRODUCTS, containing a vertical cylindrical body with nozzles for inputting initial oil products, for outputting dehydrated oil products and steam, separated by two partitions into inlet, middle and outlet chambers communicating through openings, characterized in that, in order to increase the efficiency and quality of oil dehydration , it is equipped with a heater located in the middle chamber and a heat exchanger located in the inlet chamber, and a partition between the middle and the outlet chamber s is formed as a paraboloid of revolution mounted top down, the center of which the tube is installed for communication with the heat exchanger outlet chamber, and an opening communicating with the middle chamber outlet are formed at the top of the paraboloid to form tangential slots throttling. Fig. 1 b: o: axis os 4 ^