RU2514597C1 - Combined intake-discharge device - Google Patents

Abstract

FIELD: oil-and-gas industry.

SUBSTANCE: proposed device relates to equipment of tanks and is designed to intake and discharge oil and oil products, to decrease the level of undrainable residue. As well, it may be used for emergent pumping of bottom settlement water at fire and washout of bottom settlements. Besides, it can be used for separation of product from pipeline at normal operation (tank-cap valve function), decrease in the rate of intake of products electrifiable in transportation (charge drainage function) and shutoff function. This device comprises housing converging towards tank bottom and changing the cross-section from round at joint to intake-discharge pipe to slot-like at open bottom end of product inlet-outlet case, control mechanism to adjust slot sizes by means of shutoff valve arranged at said case.

EFFECT: combined all aforesaid functions.

7 cl, 8 dwg

Description

The combined receiving and dispensing device refers to the equipment of reservoirs and serves to receive and distribute oil and oil products, reduce the level of unsolvable residue from the reservoir, wash out bottom sediments in the reservoir, emergency cutoff of the process pipeline from the reservoir, emergency pumping of produced water from the bottom of the reservoir in case of fire (provision functions of the device for receiving and dispensing), as well as cutting off the product in the tank from the process pipeline during normal operation (ensuring the function of a clapper) and t be used in chemical, petrochemical, oil refining.

Known locking and safety device “Khlopusha” to prevent loss of oil and oil products from the tank in case of rupture of technological pipelines or failure of the locking device “Hlopusha electric drive EH-700”, described in the catalog of the company “Gas-service”, Saratov, with .24-25, Product standard TU 26-02-667-75 and TU 3689-061-10524112-2003. The clapper consists of a housing, a cover, mounted on the housing on the axis of rotation. When moving into a reservoir through a fluid pipeline, the freely lowered flapper cap rises and oscillates under the action of a fluid flow — fluid enters the reservoir. At the moment of termination of the filling of the tank, the cover of the cracker under the influence of gravity and the weight of the product column in the tank is lowered to the end of the body, blocking the passage section of the body, and isolates the tank from the pipeline. When selecting the product from the tank into the pipeline, it is necessary that the bore of the cracker body is fully open to ensure the performance of the pipeline. To do this, the flapper cover is lifted using a flexible cable fixed to the cover, which is wound on a rotating drum of the control mechanism. The design of the cracker does not allow erosion of bottom sediments, since the axis of the cracker is at the level of the axis of the intake pipe (the minimum height of the axis from the bottom of the tank is determined by Table 3.4 PB 03-605-03 “Rules for the Construction of Vertical Cylindrical Steel Tanks for Oil and Oil Products” ), while the product in the tank, located below the lower edge of the crackers, cannot be drained from the tank.

The closest to the claimed invention by its technical essence is a "receiving and dispensing device", designed to prevent loss of oil and oil products from the tank in cases of rupture of process pipelines or failure of the main shut-off devices located on the process pipeline. The receiving and distributing device of the switchgear is described in the Catalog of OJSC “NEFTEMASH” -SAPKON, Saratov, 2006/2007, p. 59, Standard for the production of TU 3689-048-00217633-2004. This device includes an umbrella for erosion of bottom sediments and a decrease in the minimum product residue in the tank, installed through an outlet on the intake pipe inside the tank, as well as a shut-off element installed outside the tank, on the pipeline near the tank to shut off the flow in an emergency. The size of the slit in the lower part of the umbrella is not adjustable when the tank is full, depending on the properties of the stored and injected product, storage conditions and technology. This is possible only when the tank is decommissioned after being cleaned. The design of the outlet, on which the umbrella is mounted, involves a 90 ° rotation of the flow relative to the initial direction of product movement through the pipeline (i.e., to the bottom of the tank), and then a 90 ° rotation of the flow in the initial direction to the slot. Reactive forces arise from the flow, bending the outlet with an umbrella and tearing them away from the tank wall, as a result of which significant stresses are transmitted to the tank wall, which is unacceptable. The damper is controlled by force; it does not spontaneously cut off the tank from the pipeline after the end of the oil product injection operation, which makes it possible to make a “popper” device. Placing the damper on the outside of the reservoir does not allow isolating the reservoir from the pipeline during depressurization of the flange connection of the receiving and distribution pipe and the pipeline, as well as breaking pipes located between the damper and the wall of the reservoir. An accident in the pipeline between the shut-off element of the switchgear and the main shut-off element, damage to the main shut-off element and oil spill in the collapse of the tank when the shut-off element of the switchgear is open makes it difficult to access the shut-off element of the switchgear to cut off the tank from the pipeline. In addition, when dampers are used as a shut-off element of a switchgear, the cross-section of the pipeline is obscured by a shut-off element.

The normative documentation assumes that only devices of the clapper type 1.4.1 “Rules for the technical operation of tanks and instructions for their repair” are installed on the receiving and distributing nozzles, and paragraph 1.10.23 of the Rules for the technical operation of tanks and instructions for their repair ”indicates that the tank should be filled when its lid is freely lowered.

The proposed technical solution, “combined reception and distribution device,” is aimed at ensuring the combination of useful functions of reception and distribution devices, a pop-up locking and safety device, and a sediment erosion device with an adjustable jet supply, as well as a device to reduce the rate of reception of electrified products during transportation to the tank in one device.

This result is obtained due to the fact that the combined receiving and distributing device contains a branch that gradually decreases to the bottom of the tank and, as it decreases, changes the cross section from round at the point of connection to the receiving and distribution pipe of the device to a slot on the lower open end of the case on which a locking member movable relative to the end of the body, controlled by a control mechanism when exposed to it and hermetically closing the end in the absence of such an effect.

EXAMPLE 1. The essence of the proposed technical solution "combined reception and distribution device" is illustrated by drawings, where figure 1 shows a General view of the combined reception and distribution device, figure 2 - combined reception and distribution device in position A (performing the function of the device "clapper" ), FIG. 3 - a receiving and distributing device combined in position B (performing the function of a sediment erosion device), FIG. 4 - a receiving and distributing device combined in position B (performing the functions of a locking device).

Figure 1 shows the combined acceptance device, where the tank 1, the pre-distribution pipe 2, the housing 3, the nozzle 4, the locking-regulating body 5, the axis 6, the groove 7, the groove for adjusting the slit of the nozzle 8, a rigid rod are shown 9, nut 10, travel screw 11, steering wheel 12, axis of the slot mount 13, axis 14.

The combined receiving and distribution device is as follows: a receiving pipe 2 is mounted in the tank 1, to which the housing 3 is in turn connected. As the housing 3 of the device decreases from the receiving pipe 2 to the bottom of the tank 1, the section of the housing 3 changes round at the point of attachment to the receiving-distributing pipe 2 to the slotted nozzle 4 at the lower open end of the housing 3, where a locking-regulating body 5 is installed on the axis 6, which is able to rotate around this axis. On the locking and regulating body 5 are the slots of the free wheeling 7 and the adjustment of the slit of the nozzle 8, interconnected. In the grooves 7 and 8, the axis of the groove fastening 13 is located, to which the rigid rod 9 is attached. At the other end, the rigid rod 9 is attached to the axis 14 located on the nut 10, the position of which on the screw 11 is adjusted using the helm 12.

The combined reception and distribution device operates as follows.

With the rotation of the steering wheel 12, the nut 10 progressively moves along the screw 11, changing the position in the space of the rigid rod 9 attached to it, which in turn moves the groove fastening 13 in the grooves 7 and / or 8, thereby achieving one of two positions A, B in the grooves 7 and 8 of the axis of the groove fastening 13.

In the initial position A (Fig. 1), the axis of the groove fastening 13 is located in the free-wheeling groove 7, which allows the locking member 5 to freely rotate around the axis 6, while the combined receiving and distributing device performs the function of a “clapper” locking and safety device. When the product is fed into the tank through the pre-distribution pipe 2 (from the pipeline side), pressure arises on the inner surfaces of the walls of the housing 3, as well as on the inner surface of the shut-off member 5. As a result of the pressure on the shut-off-regulating organ 5, it rotates along the free-wheeling groove 7 around the axis 6 and opens the end face of the nozzle 4 (figure 2). The lower end of the freewheel 7 limits the further movement of the locking and regulating body 5 upwards, and the pressure of the fluid flow presses the locking and regulating body 5 against the axis of the slot fastening 13. At the end of pumping the product into the tank 1, the pressure in the device 3 and the locking and regulating body 5 falls, the locking and regulating body 5 under the action of its own weight and the weight of the product column in the tank 1 is lowered along the free-wheeling groove 7 to the end of the slot nozzle 4, cutting off the tank from the pipeline.

In position B (figure 3), the axis of the groove fastening 13 is located in the groove for adjusting the slit of the nozzle 8, which allows you to adjust the opening angle of the locking and regulating body 5 relative to the end of the nozzle 4 by changing the position of the nut 10 using the steering wheel 12, while the receiving and distributing device combined performs the function of erosion of sediments with an adjustable flow of the jet.

Before the process of feeding the product into the tank 1, when it is necessary to change the parameters of erosion of bottom sediments, the shut-off regulating body 5, under the influence of its own weight and the weight of the product column in the tank 1, closes the end face of the slot nozzle 4 (Fig. 1). From position A, when the steering wheel 12 rotates, the nut 10 progressively moves along the running screw 11 towards the tank wall and, through the rigid rod 9, moves the axis of the groove fastening 13 into the groove for adjusting the slit of the nozzle 8. The axis of the groove mount 13 leaves the groove of the free wheel 7 and, using a rigid ligament with a thrust 10, the possibility of free rotation of the locking and regulating body 5 relative to the axis 6 is lost, as a result of which the locking and regulating body 5 is rigidly fixed with the possibility, when the steering wheel 12 is rotated, of adjusting the size opening the slotted nozzle 4. With a further rotation of the steering wheel 12, the nut 11 is translationally moving along the running screw 12, while moving the rigid rod 9, which in turn rotates the axis of the slot fastening 13 and the locking-regulating body 5 around axis 6 (position B). In this case, the area of the open nozzle changes, which leads to a change in the rate of outflow of the product into the tank 1, as well as the intensity of erosion of bottom sediments. Upon reaching the groove fastening 13 of the extreme left position for adjusting the slit of the nozzle 8, limited by the stop (Fig. 3), the locking and regulating body 5 (Fig. 1) completely opens the slotted nozzle 4.

In position B (Fig. 4), the axis of the groove fastening 13 (Fig. 1) is also located in the groove for adjusting the slit of the nozzle 8, which makes it possible to close the end of the nozzle 5 by means of the steering wheel 12 by means of the steering wheel 12. combined reception and acceptance performs the function of a locking device.

From position A, when the steering wheel 12 rotates, the nut 10 progressively moves along the running screw 11 in the direction from the tank wall and, through the rigid rod 9, moves the axis of the groove fastening 13 along the groove for adjusting the slot of the nozzle 8. The axis of the groove fastening 13 exits the groove 7 through and a rigid ligament with a thrust 10, the possibility of free rotation of the locking and regulating body 5 relative to the axis 6 is lost. Upon reaching the axis of the groove fastening 13 of the extreme right position (position B), the nozzle 8 gap adjustment limited by the stop (Fig. 4) porn regulator 5 closes the slotted nozzle 4, is completely pressed against him. There is a rigid fixation of the locking and regulating body 5 and sealing the end of the nozzle 4 them.

EXAMPLE 2. The essence of the proposed technical solution "combined reception and distribution device" is illustrated by drawings, where Fig. 5 shows a general view of the combined reception and distribution device, Fig. 6 - combined reception and distribution device in position A (performing the function of a popping device ), Fig. 7 - a receiving and distributing device combined in position B (performing the function of a sediment erosion device), Fig. 8 - a receiving and distributing device combined in position B (performing the function of a locking device).

Figure 5 shows the combined acceptance device, where the tank 1, the pre-distribution pipe 2, the housing 3, the nozzle 4, the locking-regulating body 5, the axis 6, the axis 15, the double-acting cylinder 16, the piston 17, the hollow rod are shown 18, a hollow hinge 19, a piston cavity pipe 20, a rod cavity pipe 21, a control medium pressure source 22, a distribution valve 23, a pressure gauge 24, a valve 25.

The combined receiving and distribution device is as follows: a receiving pipe 2 is mounted in the tank 1, to which the housing 3 is in turn connected. As the housing of the device 3 decreases from the receiving pipe 2 to the bottom of the tank 1, the section of the housing 3 changes round at the point of attachment to the receiving-distributing pipe 2 to the slotted nozzle 4 at the lower open end of the housing 3, where a locking-regulating body 5 is installed on the axis 15, which is able to rotate around this axis.

An axis 6 is located on the locking-regulating body 5, on which a cylinder 16 is mounted with a possibility of rotation relative to it, consisting of a piston 17 and a rod 18. The hollow rod 18 consists of two pipes located coaxially. The gap between the outer and inner tubes connects the pipeline of the rod cavity 21 with the rod cavity of the cylinder, the inner tube - the pipeline of the piston cavity 20 through the piston with the piston cavity of the cylinder. The hollow rod 18 is rotatably mounted on the hinge 19. When the control medium is supplied from an external pressure source of the control medium 22 to the piston 17 or when the flow from the nozzle 4 acts on the shut-off-regulating body 5, the distance between the hinge 19 and the axis 6 changes and the position of the piston 17 and the rod 18 relative to the cylinder 16. the rod 18 rotates around the hinge 19, and the cylinder 16 around the axis 6. The distribution valve 23 serves to control the presence of pressure in the piston and rod cavities of the cylinder 16. The pressure of the control Reds from source 22 in pipelines 20 and 21 are controlled by a pressure gauge 24. A valve 25 is provided to relieve pressure of the control medium from the piston cavity of the cylinder 16.

The combined reception and distribution device operates as follows.

In the initial position (figure 5) without the influence of the control medium on the cylinder 16 (the pressure of the control medium in the cylinder cavities is absent), the combined receiving and distributing device performs the function of a shut-off device. When the product is fed into the tank through the pre-distribution nozzle 2 (from the pipeline side), pressure arises on the inner surfaces of the walls of the housing 3, as well as on the inner surface of the shut-off regulating body 5. As a result of the pressure on the shut-off regulating body 5, it rotates around the axis 15 and opens the nozzle 4 of the housing 3 (position A, Fig.6). When a flow spring acts on the locking and regulating body 5, the compression spring is compressed, the cylinder 16 moves behind the locking and regulating body 5, rotating around it on the axis 6, and also around the hinge 19. After the product is pumped into the tank 1, the pressure in the device body 3 and falls on the locking and regulating body 5, and the locking and regulatory body 5 falls on the end of the slotted nozzle 4 under the action of its own weight, the return action from the side of the spring and the weight of the product column in the tank 1, cutting off the tank from the pipeline.

To perform the function of the device for erosion of bottom sediments, when a certain value of the slit of the device is required, the pressure of the control medium from the source 22 into the piston cavity of the cylinder 16 is selected to provide the necessary angle of deviation of the locking and regulating body 5 from the open end of the nozzle 4. When applying pressure to the control medium from the source 22 through the pipe 20, the hollow hinge 19, the hollow rod 18 to the piston cavity of the cylinder 16, the cylinder extends, compressing the compression spring. Since the spring has a known rigidity, a certain pressure in the piston cavity of the cylinder 16 corresponds to a certain movement of the cylinder 16 relative to the rod 18 and the angle of deviation of the locking and regulating body 5. The cylinder 16 is rotated around axis 6 on the locking and regulating body 5, locking and regulating body 5 rotates also about the axis 15 of the housing (position B, Fig.7). The piston cavity of the cylinder 16 is cut off from the pressure source 22 by the distribution valve 23. The distribution valve 23 switches to supply pressure to the rod cavity of the cylinder through the pipe of the rod cavity 21. The pressure in the rod and piston cavities of the cylinder 16 is equalized and the position of the locking and regulating body 5 relative to the nozzle 4 is fixed The distribution valve 23 cuts off the pipeline of the rod cavity 21 from the source 22. After the operation, the pressure in the cavities is relieved using a valve 25. The spring is unclenched, the cylinder 16 is retracted onto the rod 18, the locking and regulating body 5 is closed, returning to its original position.

To perform the function of the locking device, when full pressing of the locking and regulating body 5 to the end face of the nozzle 4 is required, the pressure of the control medium from the source 22 is supplied to the rod cavity of the cylinder 16 (position B, Fig. 8).

The acceptance device made according to example 1 and example 2 can be used to reduce the speed of electrified petroleum products during movement along the pipeline to safe limits (charge relaxation). To do this, the locking body using the control mechanism opens at an angle that maximally opens the cross section of the open end with a slit. The casing is made with increasing the cross-sectional area in the direction of the product flow when filling the tank from the point of attachment of the device to the delivery pipe to the product inlet-outlet slotted at the lower end of the casing, providing a decrease in the flow rate of the pumped liquid. The shut-off element is completely removed from the flow, which prevents the unacceptable processes of mixing and spraying the flow (see, for example, section 4.4.4 "Rules for the technical operation of tanks and instructions for their repair", para. 1.2 RTM 6-28-007- 78 "Permissible velocities of liquids through pipelines and outflows into containers (apparatus, tanks)"). As devices for removing charge inside the device, cells are used from a metal grid, grounded to the tank ground loop. The volume formed by the grids in the device must not be less than

V = Q τ / 3600,

where V is the cell volume, m ³ ; Q is the pumping rate of the oil product, m ³ / h; τ is the time constant of charge relaxation in the oil product, s.

When filling an empty tank through the device only due to its design, it is possible to reduce the flow rate of the injected fluid until the pontoon or floating roof emerges from the supports or when the device slots fill up to safe limits (not more than 1 m / s according to 2.6.43 of PB 09- 560-03 "Industrial Safety Rules for Oil Depots and Oil Product Warehouses"). To reduce the rate of fluid flow from the device into the tank, an increase in the cross-sectional area of the housing in the direction of product entry into the tank and ribs installed in the housing along the flow are used.

To account for the settlement of the bottom of the tank and the movement of the wall of the tank during operation, it is provided that the reduced part of the housing is supported on the bottom, the housing of the device is connected to the housing of the intake pipe through a rotary pipe compensator, the drive of the shut-off-regulating body of the device inside the receiving device is attached, the mechanism elements are fixed control on the body of the device for receiving and distributing, as well as the connection of the wall and the drive of the locking-regulating body through a pipe rotary compensator at installation of the drive of the locking regulatory body through the wall of the tank.

The proposed device for receiving and distributing is universal and it is possible to use it for receiving and distributing products with different properties (viscosity, consistency, electrified, etc.). The set of features is new and leads to a technical result, namely, that using the proposed device, the oil products are filled at an adjustable rate, the bottom sediments of various densities are washed out, liquid products are drained from the tank, the tank is cut off from the pipeline in the event of an accident caused by the latter rupture, or failure of locking devices on it, reducing the minimum residue of a useful product in the tank when pumping it out of the tank, reducing the rate of reception of electrifying at t the transportation of products to the tank, emergency pumping of bottom water from the tank in case of fire to prevent it from boiling and exploding, the product entering by a fan stream through a slot without spraying reduces disturbance in the tank. The use of the device on the nozzles of tanks with a pontoon or floating roofs allows to increase the term of reliable operation of the latter.

Claims (7)

1. The device of the acceptance, containing the housing, decreasing at an angle to the bottom of the tank, a locking member and a mechanism for controlling it, characterized in that the cross-sectional shape of the housing changes at the point of attachment of the housing to the intake pipe from the shape defined by the flange of the receiving pipe up to a slit-like case at the lower end of the case, on which a locking and regulating body is installed, the position of which changes the size of the gap formed at the end of the case by a locking and regulating body and the walls of the body, the locking and regulating device en moves relative to the housing by means of exposure control mechanism and the possibility IME hermetically sealed end of the housing in the absence of exposure to the part of the control mechanism. 2. The hand-out device according to claim 1, characterized in that the control mechanism is located inside the hand-out device. 3. The acceptance device according to claim 1, characterized in that the passage section of the housing is made with increasing area in the direction of entry of the product into the tank. 4. The device according to claim 1, characterized in that the control mechanism is mounted on the housing of the device for acceptance and distribution and is connected to the tank wall through a compensator. 5. The device according to claims 1 and 4, characterized in that the case of the device for receiving and distributing comprises a rotary compensator located between the fastening of the case to the nozzle of the receiving and distribution and fixing the control mechanism on the case. 6. The device according to claim 1, characterized in that the passage section of the housing contains ribs installed along the flow. 7. The device according to claim 3, characterized in that the bore of the housing contains transverse to the flow direction of the grid.

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