RU39886U1 - INSTALLATION FOR PROCESSING OF OIL RAW MATERIALS - Google Patents

Abstract

The claimed technical solution relates to the refining industry and can be used both in the primary processing of oil (gas condensate) and for the purification of petroleum products from pollution and water. An installation for processing crude oil is proposed, consisting of a pre-heater and a fraction separator connected to a condenser, interconnected by a piping system with shut-off valves, in which the fraction separator consists of three series-connected evaporators, in which three stages of separation of petroleum raw materials are respectively carried out with the separation of three fractions - gasoline, kerosene-lugroin and solar, and three capacitors, forming three blocks (steps). Evaporators and condensers are made in the form of one-way tubular heat exchangers and the upper part of the annulus of each of the evaporators is connected to the upper part of the annulus of one of the condensers by ducts with an inclination towards the condenser to drain the corresponding fraction. These boxes may have, for example, rectangular sections. In addition, heaters are used as heaters in both the preheater and evaporators. To eliminate the occurrence of pressure in the tube part of the evaporators, the upper part of each evaporator is connected to the annulus bypass pipe. The installation is easy to operate, fire and explosion safe and environmentally friendly, not too metal intensive and does not take up much space, is easily mounted and dismantled, which makes it possible to use it as a mobile one, and allows to obtain high-quality petroleum products processed. It is universal because it is possible not only the processing of crude oil, but also the purification of petroleum products from pollution and water.

Description

The claimed technical solution relates to the refining industry and can be used both in the primary processing of oil (gas condensate) and for the purification of petroleum products from pollution and water.

Primary processing involves the separation of oil (gas condensate) into separate fractions, boiling off at various specific temperature ranges without changing the structure of hydrocarbons and heteroatomic compounds passing from oil (gas condensate) to the corresponding fractions. In the primary installation for the processing of petroleum feeds, one- and two-stage tubular units for the single evaporation of oil and distillation columns of various types are traditionally used, among which the most common are cap-shaped columns (see the book Bondar V.A., Zorya E.I., Tsagareli D. B. Operations with petroleum products. Gas stations. - Moscow, AOZT Paritet, 1999, pp. 11-15).

Closest to the claimed is a plant for the processing of petroleum raw materials (see RF patent No. 2098452, publ. 10.12.97.) It contains a distillation column with pipelines for supplying heated petroleum feed, removal of the liquid fraction and residue, heat exchangers with a condensate drain, condenser a reflux condenser, a separator with a condensate discharge line, a sedimentation tank, a gas tank and a base. It is equipped with a horizontal four-row heat exchanger, with which a sump-bottom tank made with an integrated heat exchanger is connected by a pipeline. The distillation column is installed on a still bottom tank and is made with cap-type plates, in the upper part of which a condenser-reflux condenser is installed, connected by a pipeline to a centrifugal separator separator, which is connected by a steam line to successively located small and large refrigerators mounted vertically on a gasoline collector.

The disadvantages of this installation are:

- large dimensions and metal consumption, because a distillation column is used to separate oil products (oil and gas condensate) into fractions;

- the need to use large areas, which are required both for the installation itself and for pipelines, because according to fire safety rules, the distance between the furnace and the installation and between the supply tank and the furnace should not be less than 15 meters;

- fire and explosion hazard, as for heating oil in a tube furnace, an open flame of nozzles using liquid or gaseous fuel is used;

- environmental pollution, because during operation of the furnace, the products of combustion of fuel are released into the atmosphere;

- low quality of the obtained fractions, because in a tubular furnace, oil directly comes into contact with tubular surfaces heated by an open flame, which leads to its overheating, and, consequently, to oxidation and contributes to the creation of an unstable (short-lived) fraction.

The technical task of the proposed solution is to create a small-sized and less metal-intensive, environmentally friendly and fire and explosion-safe installation of primary processing of petroleum products (oil and gas condensate), which allows to obtain high-quality processed products.

To solve this problem, we propose an installation for processing crude oil, consisting of a pre-heater and a fraction separator, connected to a condenser, interconnected by a piping system with shutoff valves, in which the fraction separator consists of three series-connected evaporators, in which three the stage of separation of crude oil with the separation of three fractions - gasoline, kerosene-ligroin and solar, and three capacitors, forming three Lok (steps). Evaporators and condensers are made in the form of one-way tubular heat exchangers and the upper part of the annulus of each of the evaporators is connected to the upper part of the annulus of one of the condensers by ducts with an inclination towards the condenser to drain the corresponding fraction. These boxes have rectangular sections. In addition, heaters are used as heaters in the pre-heater and in the evaporators. To eliminate the occurrence of pressure in the tube part of the evaporators, the upper part of each evaporator is connected to the annulus bypass pipe.

In the proposed technical solution, the implementation of the process of single evaporation and separation by fractions along the height of the distillation column is replaced by a process of single evaporation and distillation of boiling fractions at certain temperature conditions in three series-connected units (steps) of the installation.

In view of replacing the tube furnace with an oil preheater with electric heaters and a distillation column with evaporators with electric heaters for the heat carrier, and not oil (gas condensate), the issues of reducing the dimensions and metal consumption of the installation and reducing the space occupied by it and the length of pipelines, fire and explosion safety, and reducing environmental pollution , as well as the quality of the final products there is no open flame of the furnace for heating oil products, there are no emissions of fuel combustion products into the atmosphere and there is no contact of oil products with tube surfaces burning with open flame.

Figure 1 shows a schematic diagram of an installation for processing crude oil. In Fig. 2, one of the three similar blocks (steps) of the fraction separator is the first.

Installation for the processing of petroleum raw materials (figure 1), includes three series-connected single-type evaporators of the first - 1, second - 2 and third - 3 stages, which are single tubular one-way and raw materials and heat transfer heat exchangers of vertical design, interconnected by valves , and three of the same type of condensers 4, 5, 6, also representing tubular one-way and through the distillate fractions and in the cooling medium, vertical heat exchangers connected in pairs with their upper parts the annular space with the upper parts of the annular space of the evaporators. So the evaporator of the first stage 1 is connected to the condenser of the distillate of the gasoline fraction 4, the evaporator of the second stage 2 is connected to the condenser of the distillate of the ligroin-kerosene fraction 5, the evaporator of the third stage 3 is connected to the condenser of the distillate of the solar fraction 6. The evaporator 1 is also connected to the flow rate of oil products 7, through their pre-heating heat exchanger 8, and the evaporator 3 with a fuel oil cooler 9. Condensers 4, 5, 6 are equipped with devices for visual monitoring of the purity of the resulting product 10, 11, 12 (respectively, for each lock) made, for example, in the form of viewing windows. And each of the evaporators 1, 2, 3 is connected to the corresponding condensers 4, 5, 6 with steel ducts, 13, 14, 15, respectively, with the tilts of the ducts towards the condensers.

In each evaporator (Figure 2), there are installed: an annulus level gauge 16, a coolant level gauge 17, as well as a bypass pipe 18. And in the heating part of each evaporator 19, electric heaters 20,

Installation works as follows. The oil flow tank 7 is installed, as a rule, above the entire installation to ensure the possibility of supplying oil products by gravity. Oil (gas condensate) from the supply tank 7 is supplied to the heater 8, where it is heated to 70-75 ° C, then fed to the annulus 1 of the evaporator 1, the coolant of which is preheated to 135-140 ° C. The oil level, which is controlled by level gauges 16, is brought in the annulus of the evaporator to a position at which intensive extraction of the gasoline fraction from the condenser 4 begins, which is visually controlled through a viewing window 10 with transparent glass. The temperature of the coolant is maintained in a predetermined interval by turning on / off the heaters.

With a further increase in the level of raw materials in the annulus 1 of the evaporator 1, the closure between the evaporators 1 and 2 smoothly opens and the raw materials are fed into the annulus 2 of the evaporator, the heat transfer agent of which is preheated to 220-230 ° C using heaters of the evaporator 2. The level of raw materials in the evaporator 2 is also brought to a level at which from the condenser 5 begins the intensive separation of the ligroin-kerosene fraction. The temperature in the specified mode is supported by turning on / off the heaters of the evaporator 2.

With a further increase in the level of raw materials in the annulus 2 of the evaporator, a shut-off element between the evaporators 2 and 3 opens, and the raw material is fed into the annulus 3 of the evaporator, the coolant of which is heated to a temperature of 320-330 ° C, and brought to a level at which intensive evolution begins of the solar fraction from the condenser 6. The temperature in the specified mode is maintained by turning on / off the heaters of the evaporator 3. With a further increase in the level of raw materials in the annulus 3 of the evaporator I shut-off body at the exit of the annular space and the residual fuel oil remaining after boiling off the solar fraction through the fuel oil cooler 9 (of any type and required capacity) is discharged into the fuel oil storage tank.

The level of raw materials in the annulus of each evaporator is controlled by level gauges, and the temperature of the raw materials, coolant and cooling medium is controlled by electronic digital devices, the sensors of which are installed in the heating chambers of the evaporators and in the annulus

evaporators in the immediate vicinity of the heating chambers. The drain-gulf of the coolant is made through the lower shutoff organs. Fuel oil of the M-100 brand with a coking temperature of at least 400 ° C can be used as a heat carrier. In order to avoid the operation of the installation under pressure, each chamber of evaporators 1-3 is connected bypass pipe with the annulus of the same evaporator. Maintenance of this installation is carried out by one person.

Thus, the proposed installation is easy to operate, fire and explosion safe and environmentally friendly, not too metal intensive and does not take up much space, is easily mounted and dismantled, which makes it possible to use it as a mobile one, and allows to obtain high quality petroleum products. It is universal because it is possible not only the processing of crude oil, but also the cleaning of petroleum products from pollution and water.

Claims (1)

Installation for the processing of petroleum feedstock, consisting of a pre-heater and a fraction separator connected to a condenser, connected by a piping system with shutoff valves, characterized in that the fraction separator consists of three series-connected evaporators in which there are three stages of separation of petroleum feedstock with separation three fractions of gasoline, kerosene-ligroin and solar, and three condensers, each of which is connected to one evaporator, forming three blocks (steps), isp ariteli and condensers are made in the form of one-way tubular heat exchangers and the upper part of the annular space of each of the evaporators is connected to the upper part of the annular space of the corresponding condenser by ducts tilted towards the condenser, while electric heaters are used as heaters in both the evaporators and the preheater, in addition, the upper part of each evaporator is connected to its annular space bypass pipe to prevent the occurrence of yes Lenia in the pipe of the evaporator.