EP0495243A1 - Method and installation for cleaning floating-roof tanks for storage of crude oil - Google Patents

Abstract

This relates to a method and installation for cleaning floating-roof tanks (1), remaining crude oil (31) first being sucked out and then being pumped into the residue with stirring up the residue (32). After the remaining crude oil has been used up in the course of liquefying the residue, fresh crude oil is pumped through cleaning pipe branches (4) - which may support the floating roof - to stir up and liquefy the remaining residue, until all the residue has been liquefied and pumped out of the floating-roof tank (1). In the course of the tank cleaning, the cleaning supports (4) replace the roof supports (2) otherwise present and are distinguished, on the one hand, by a slender construction which is stable in terms of strength, and, on the other hand, ensure the required stirring-up of crude oil and residue for the liquefaction of the latter. <IMAGE>

Description

The invention relates to a method for cleaning floating roof tanks for the storage of crude oil with recovery of sedimented residues, according to which crude oil is mixed into the respective residue in a predetermined mixing ratio and the liquefied residue portion is pumped out and fed to a distillation plant.

When storing crude oil, residues are known to settle in the storage tanks. In addition to smaller amounts of inorganic substances such as sand and rust, these residues mainly consist of wax and asphalt components that form a tough, sticky mass and cannot be sucked off by means of a tank drain pump. The amount of these residues depends on the type of crude oil stored and the frequency of tank turnover. It is practically impossible to make a precise statement about the quantities of residues in the storage tank between the usual inspections. The operator of storage tanks for crude oil regularly endeavors to keep the residues as small as possible, for example by using agitators, rapid turnover of the tank contents in the lower filling area and by flushing with heated heating oil or diesel oil, but measures can be taken to prevent this only reduce the residue, but do not completely eliminate it. Rapid flushing with crude oil or flushing with a tempered middle distillate, combined with pumping to another storage tank, also has disadvantages yourself. Because part of the whirled up residue settles in the storage tank, even if it is pumped directly into a distillation plant. In addition, rinsing with hot middle distillate has the disadvantage that, although the light constituents are quickly removed from the residue, the remaining amount of residue forms an even more viscous and more difficult to remove mass than before treatment with tempered middle distillate.

The pretreated efforts only lead to the fact that part of the residue is recovered, but residues in large quantities remain in the storage tank and have to be removed manually. That is extremely unsatisfactory. Because on the one hand there are considerable personnel costs, on the other hand it is usually extremely difficult to find personnel who are willing to manually remove the residue under heavy breathing protection. In addition to the health risks for the cleaning staff, hundreds of tons of residue are left for disposal.

According to a further possibility, the residue is liquefied by adding crude oil, in a mixing ratio of up to 1: 5, depending on the type of crude oil used. The residue is liquefied to such an extent that it becomes pumpable and can then be sent to a refinery for further processing. However, the following problems arise here: The conventional storage tanks and in particular floating roof tanks have a diameter of 50 to 100 m and only a small number of manholes through which cleaning devices can be placed in the storage tank. In addition, however, smaller openings are available in larger numbers if you remove the individual roof supports from a floating roof tank. Cleaning lances with a pressure line connection for pumping in crude oil can be introduced through these openings. The cleaning lances are designed as nozzle tubes with exchangeable nozzles at the ends. The emerging jet streams can be directed into the residue within a specified radius. However, the known cleaning lances have no supporting function and cannot take over the load of the floating roof when lying on it. Moreover, simply pumping fresh crude oil into and out of the floating roof tank is not very successful, since the swirling effect is too low.

The invention has for its object to provide a method for cleaning floating roof tanks of the embodiment described above, according to which a particularly rational and effective liquefaction of the residues is achieved. In addition, a suitable cleaning system is to be created, the cleaning devices of which can at the same time take on real support function with respect to the floating roof.

In terms of the process, this object is achieved in that initially residual crude oil located above the residue is provided via a suction support is suctioned off and then pumped into the residue at predetermined pressure via cleaning supports, with the remaining residue being swirled, and that fresh crude oil is sucked in from a crude oil store in the course of the residue liquefaction after the remaining crude oil has been consumed, and also swirled and liquefied with the remaining residues via the cleaning supports predetermined pressure is pumped until the entire residue is liquefied and pumped out of the floating roof tank via at least one pump support. - Within the scope of the invention, the liquefaction of the residue with residual crude oil and fresh crude oil can take place at intervals as well as continuously. When changing from residual crude oil to fresh crude oil, only a suction-side changeover of the pump assembly is required. According to the teaching of the invention, a particularly good swirling of the residue is achieved in the course of the pumping in of crude oil, because initially the remaining crude oil still in the floating roof tank is used and used to liquefy the residue. This enables an immediate application and consequently effective swirling of the residue. The residue liquefied according to the teaching of the invention can be fed and processed directly from the floating roof tank to a distillation system. After a certain pre-rinse time, the product of crude oil and liquefied residue can be continuously fed to the crude oil stream to be processed in amounts of 10% of the distillation throughput. The composition the quantity dispensed from the floating roof tank to be cleaned is monitored by daily analyzes. If the proportion of inorganic substances rises above a predefined value, the delivery quantity can be mixed down to an acceptable value for the distillation plant by adding fresh crude oil. With the method according to the invention, it is possible to carry out the entire rough cleaning of a floating roof tank. All that remains is a pumpable mixture of crude oil and residue, which is flushed from the bottom by introducing middle distillate and transferred to the distillation system via the cleaning system. After that, only a few hydrocarbons with a flash point above 55 ° C remain. By supplying small amounts of fresh air and water, which are introduced via the pumps and cleaning supports, the floating roof tank can be entered without breathing protection. It is not necessary to enter the potentially explosive and hazardous tank area with a breathing mask during rough cleaning. As a result, cleaning staff are no longer at risk.

The invention also relates to a cleaning system for floating roof tanks with a floating roof guided vertically on roof supports, the roof supports optionally being interchangeable with cleaning devices with a pressure line connection leading to a pump unit for pumping in crude oil. This cleaning system is characterized in that the roof supports are optionally interchangeable with the roof load-bearing cleaning supports as cleaning devices and at least against one suction support and one pump support, and that the suction support has a Suction line connection can be connected to the pump unit and the pump support has a discharge line connection for the liquefied residue. - Within the scope of the invention, the existing roof supports are removed from the floating roof and replaced by cleaning supports according to the invention. On the one hand, these cleaning supports fulfill the necessary support function when the floating roof is lying on top, on the other hand they stir up the residue in the course of pumping in initially residual and finally fresh crude oil. Due to the lowering of the tank content and consequently the floating roof, the cleaning supports are put on the tank floor after a certain time and take on the roof load in addition to their cleaning function. This gives the possibility that the cleaning system can work continuously during the entire liquefaction process. This leads to considerable time and cost savings.

Further measures essential to the invention are listed below. Thus, the invention proposes, and this proposal is of independent importance that the cleaning supports each have a support tube with a crude oil line connection at the upper tube end and a drive motor for a drive shaft mounted in the support tube, that a tube section with interchangeable nozzles arranged over its circumference is rotatable at the lower tube end is mounted and connected to the drive shaft, and that the support tube has a tubular base with a rotary bearing, for example roller bearings, for the drive shaft. These Measures of the invention have the consequence that the cleaning support can actually be dimensioned so that the floating roof is supported properly and can still be used in relatively narrow quiver tubes for the removable roof supports. In addition, an optimal swirling effect is achieved by the self-propulsion, so that strong turbulence over the entire tank bottom and consequently perfect mixing ratios are achieved. The drive motor is preferably designed as a compressed air motor and connected to the drive shaft protruding from the upper pipe end. Of course, an electric motor or the like can also be used. A compressed air connection with a compressed air control valve is expediently provided for the drive motor, the compressed air control valve being connected to the support tube on the side opposite the crude oil line connection and only opening at a predetermined crude oil pressure, that is to say dry running is prevented. The drive shaft is preferably connected to the tubular casing section by means of a gear, for example a planetary gear, and the tubular casing section in the transmission area is designed as a ring gear with internal teeth for the planetary gear. This enables a perfect rotation drive for the nozzles in a very small space. In this context, the invention further recommends that the support tube has a tube extension with a central bearing bush for the drive shaft and with the bearing bush surrounding axial bores for crude oil passage, and that the tube extension below the axial bores and in Area of the nozzles forms a distribution chamber with the pipe jacket section, which is aligned with the pipe extension and partially overlaps the pipe extension. According to the invention, the planetary gear overlapped by the tubular casing section has a gear foot and a gear cover, the tubular casing section being rotatably mounted on the gear cover, for example with the interposition of a roller bearing, and the gear cover being detachably fastened, for example screwed, to the central bearing bush of the pipe extension. In this respect, not only a slim, but also installation-friendly construction is realized. This also applies taking into account the fact that the gear base preferably forms an aligned extension of the support tube or its tubular casing section and a detachable base plate is inserted into the gear base, the rotary bearing for the drive shaft being arranged between the gear base and the base plate. In addition, the gear base, the base plate and a bottom-side elastomer bearing for the gear base and the base plate can form the tube base. In this respect, an appropriate support is realized when the cleaning support is placed on the tank bottom. In order to achieve a proper assembly of the cleaning support according to the invention, the invention teaches that the support tube at the upper tube end has a cross-piece with holding tabs that extend into the floating roof for the exchange of supports and that locking screws that can be tightened against the respective tube holder are mounted in the holding tabs. The holding straps are adjustable in height to compensate for different floor heights. To manipulate with the invention To facilitate cleaning support, the crossmember or the holding straps can have support brackets.

Fig. 1

im schematischen Querschnitt einen gefüllten Schwimmdachtank nach der Montage von einerseits Reinigungsstützen und andererseits einer Saugstütze,

Fig. 2

den Gegenstand nach Fig. 1 mit einer zusätzlich eingesetzten Pumpenstütze zu Beginn der Rückstandsverflüssigung und noch schwimmendem Schwimmdach,

Fig. 3

den Gegenstand nach Fig. 2 mit auf den Reinigungsstützen aufliegendem Schwimmdach am Ende der Rückstandsverflüssigung,

Fig. 4

den Gegenstand nach Fig. 1 im Zuge der Nachreinigung mit Heizöl/Wasser,

Fig. 5

eine erfindungsgemäße Rohrstütze im Vertikalschnitt und

Fig. 6

das obere Rohrende der Rohrstütze nach Fig. 5 um 90° gedreht.

In the following the invention is explained in more detail with reference to a drawing showing only one embodiment; show it

Fig. 1

a schematic cross section of a filled floating roof tank after the installation of cleaning supports on the one hand and a suction support on the other hand,

Fig. 2

1 with an additionally used pump support at the beginning of the residue liquefaction and still floating roof,

Fig. 3

2 with the floating roof resting on the cleaning supports at the end of the residue liquefaction,

Fig. 4

1 in the course of post-cleaning with heating oil / water,

Fig. 5

a pipe support according to the invention in vertical section and

Fig. 6

the upper tube end of the tube support according to Fig. 5 rotated by 90 °.

In the figures, a cleaning system for floating roof tanks 1 is shown with a floating roof 3 movably guided on roof supports 2, the roof supports 2 being optionally interchangeable with cleaning devices 4 with a pressure line connection leading to a pump unit 5 for pumping in crude oil. The roof supports 2 are optionally interchangeable with cleaning supports 4 as cleaning devices and at least in each case against a suction support 6 and a pump support 7. The suction support 6 can be connected to the pump unit 5 via a suction line connection. The pump support 7 has a discharge line connection for liquefied residue leading to a distillation plant. Each cleaning support 4 has a support tube 8 with a crude oil line connection 9 at the upper tube end and a drive motor 10 for a drive shaft 11 mounted in the support tube 8. At the lower tube end, a tube jacket section 12 with rotatable (interchangeable and adjustable) nozzles 13 is mounted on the circumference and attached to the Drive shaft 11 connected. The support tube 8 has a tube base with a pivot bearing 14, for example roller bearings, for the drive shaft 11. The drive motor 10 is designed as a compressed air motor and is connected to the drive shaft 11 protruding from the upper pipe end. A compressed air connection with a compressed air control valve 15 is provided for the drive motor 10. The compressed air control valve 15 is connected to the support tube 8 on the side opposite the crude oil line connection 9 and opens at a predetermined crude oil pressure. The drive shaft 11 is by means of a gear, namely Planetary gear 16 connected to the tubular casing section 12. The tubular casing section 12 is designed in the transmission area as a ring gear with internal teeth for the planetary gear 16. The support tube 8 has a tube extension 17 with a central bearing bush 18 for the drive shaft 11 and with axial bores 19 surrounding the bearing bush 18 for crude oil passage. The pipe extension 17 forms below the axial bores 19 and in the area of the nozzles 13 a distributor chamber 20 with the pipe jacket section 12 which is supported against the bearing bush 18 and which is aligned with the pipe extension and partially overlaps the pipe extension 17. The planetary gear 16 overlapped by the tubular casing section 12 has a gear foot 21 and a gear cover 22, the tubular casing section 12 being rotatably mounted on the gear cover 22, for example with the interposition of a roller bearing 23, and the gear cover 22 being detachable on the central bearing bushing 18 of the pipe extension 17 is attached. The pipe jacket section 12 is sealed against the pipe extension 17, the gear foot 21 and the central bearing bush 18 of the pipe extension by means of O-rings. The gear foot 21 forms an aligned extension of the support tube 8 or its tubular casing section 12. A detachable foot plate 24 is inserted in the gear foot 21. The pivot bearing 14 for the drive shaft 11 is arranged between the gear foot 21 and the foot plate 24. The gear foot 21, the foot plate 24 and a bottom-side plastic plate 25 for the gear foot 21 form the tube foot.

The support tube 8 has, at the upper tube end, a crossmember 26 with tubular tubes 27 inserted into the floating roof 3 and only indicated, for the retaining tabs 28 spanning the supports. In the holding tabs 28 there are locking screws 29 which can be tightened against the respective tubular tube 27. The cross member 26 or the holding tabs 28 also have support brackets 30.

In the context of the invention, crude oil 31 located above the residue in the floating roof tank 1 is first sucked off via the suction support 6 or through a roof hole. This remaining crude oil is then pumped through the cleaning supports 4 with the remaining residue 32 being swirled into the residue at a predetermined pressure. Only after the remaining crude oil has been consumed in the course of the residue liquefaction, fresh crude oil is sucked in by the pump unit 5 and pumped into the residue 32 for further liquefaction via the cleaning supports 4 until the entire residue is liquefied and pumped out of the floating roof tank 1.

Claims (13)

Process for cleaning floating roof tanks for the storage of crude oil with the recovery of sedimented residues, according to which crude oil is admixed to the residue in a predetermined mixing ratio and the liquefied residue portion is pumped out and fed to a distillation plant, characterized in that initially the remaining crude oil from the residue is above The floating roof tank is suctioned off and then pumped into the residue with a predetermined pressure while the remaining residue is swirled, and that after the remaining crude oil has been consumed in the course of residue liquefaction, fresh crude oil is sucked in and pumped in via the cleaning supports, with turbulence and liquefaction of the remaining residue at a predetermined pressure, until the entire residue is liquefied and pumped out of the floating roof tank. Cleaning system for carrying out the method according to claim 1 for floating roof tanks with a floating roof that is movably guided at the height of the roof supports, the roof supports optionally being interchangeable with cleaning devices with a pressure line connection leading to a pump unit for pumping in crude oil, characterized in that the roof supports (2) are optionally available for the roof load load-bearing cleaning supports (4) as cleaning devices and at least interchangeable with a suction support (6) and a pump support and that the suction support (6) can be connected to the pump unit (5) via a suction line connection and the pump support (7) has a discharge line connection for liquefied residue. Cleaning system according to claim 2, characterized in that the cleaning supports (4) each have a support tube (8) with a crude oil line connection (9) at the upper tube end and a drive motor (10) for a drive shaft (11) mounted in the support tube (8) lower tube end a tubular casing section (12) with nozzles (13) arranged over its circumference is rotatably mounted and connected to the drive shaft (11), and that the support tube (8) has a tubular base with a rotary bearing (14), for example Rolling bearing, for the drive shaft (11). Cleaning system according to claim 2 or 3, characterized in that the drive motor (10) is designed as a compressed air motor and is connected to the drive shaft (11) projecting from the upper pipe end. Cleaning system according to one of claims 2 to 4, characterized in that a compressed air connection with a compressed air control valve (15) is provided for the drive motor (10), that the compressed air control valve (15) on the side opposite the crude oil line connection (9) to the support tube (8 ) is connected and opens at the specified crude oil pressure. Cleaning system according to one of claims 2 to 5, characterized in that the drive shaft (11) by means of a gear (16), e.g. Planetary gear, connected to the tubular casing section (12) and the tubular casing section (12) is designed in the transmission area as a ring gear for the planetary gear (16). Cleaning system according to one of claims 2 to 6, characterized in that the support tube (8) has a tube extension (17) with a central bearing bush (18) for the drive shaft (11) and with axial bores (19) surrounding the bearing bush for crude oil passage, and that the pipe extension (17) below the axial bores (19) and in the area of the nozzles (13) forms a distributor chamber (20) with the pipe jacket section (12), which is aligned with the pipe extension (17) and partially overlaps the pipe extension. Cleaning system according to one of claims 2 to 7, characterized in that the planetary gear (16) overlapped by the tubular casing section (12) has a gear foot (21) and a gear cover (22), the tubular casing section (12) on the gear cover (22) , e.g. with the interposition of a roller bearing (23), is rotatably mounted and the gear cover (22) on the central bearing bush (18) of the pipe extension (17) is releasably attached. Cleaning system according to one of claims 2 to 8, characterized in that the gear foot (21) is a forms an aligned extension of the support tube (8) or its tubular casing section (12) and a detachable footplate (24) is inserted in the gear foot (21), and that between the gear foot (21) and the footplate (24) the pivot bearing (14) is arranged for the drive shaft (11). Cleaning installation according to one of claims 2 to 9, characterized in that the gear foot (21), the foot plate (24) and a plastic plate (25) on the bottom or elastomer bearings for the gear foot (21) form the tube foot. Cleaning system according to one of claims 2 to 10, characterized in that the support tube (8) has a crossmember (26) at the upper tube end with quiver tubes (27) inserted into the floating roof (3) for retaining tabs (28) spanning the supports, and in that Locking screws (29) which can be tightened against the respective quiver tube (27) are mounted in the retaining tabs (28). Cleaning system according to one of claims 2 to 11, characterized in that the crossmember (26) or retaining tabs (28) have support brackets (30). Cleaning system according to one of claims 2 to 12, characterized in that the holding tabs (28) are height-adjustable to compensate for different floor heights.

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