The present invention relates to means of storing multiple bulk liquids inside one storage tank and, more particularly, involves use of internal tank(s) that compose at least one liquid-tight, flexible membrane or bladder.
A number of processing industries require the use of multi-tank storage facilities to store feed stocks, intermediates and products. In particular, the processing of crude oil into a wide range of petroleum products and by-products requires the use of expansive multi-tank storage facilities called “tank farms.” Depending on the processing being performed, these tank farms may range from several dozen tanks to several hundred tanks, many of which have storage capacities in excess of 50,000 cubic meters.
Due in part to the efforts to produce environmentally friendly products with very low levels of environmentally sensitive components, such as sulfur, a refinery must take extreme care not to cross-contaminate the product streams, either through residues in pipe work or when changing the use of one tank between different products. While it is practical to change the use of one tank from one liquid to another liquid with largely incompatible properties or specifications, it is not a process that can be implemented with out considerable delay (such as weeks) and cleaning expense. Such a change over generates large volumes of contaminated petroleum requiring reprocessing and requiring staff to enter and work inside a potentially hazardous environment.
Additionally, the operational logistics of a tank farm are complex. These facilities may be accepting super-tanker volumes of crude oil from different origins that require careful blending or totally separate processing. The delivery quantities are also fixed which can result in partially-filled tanks, e.g. only 10% of a 50,000 cubic meter tank is used for a short period. The ability to utilize 10% spare capacity in another tank, for example, one already 70% full with a different liquid, would be a real advantage.
Further, an oil refinery's tank farm must also handle wide fluctuations in product storage due to changing seasonal demands. For example the demand for heating oil can change rapidly with the onset of winter and the formulation of certain transportation fuels is often regulated to change between seasons. Accordingly, there is a need to store two or more liquids in a tank in order to fully utilize all tank volumes while preventing any cross-contamination. The ability to store two or more products in the same tank simultaneously can greatly simplify the storage logistics and reduce the total number of tanks required. This last point is significant because most refineries are in need of expanding capacity and are also faced with some degree of land lock, due to a combination having close neighbors and the high cost of approval and construction of additional tankage.
There are many examples of placing one container within another container, the most obvious example in the oil industry being the use of double hulled super-tankers and the use of flexible bladders within rigid automotive fuel tanks (U.S. Pat. Nos. 3,968,896, (Giacoletti et al.); 3,949,720, (Zipprich et al.); and 6,360,729 (Ellsworth)). In these references, the purpose of the double containment is not for the purpose of storing multiple products in the same container, but more aligned with the goals of personal end environmental safety.
U.S. Pat. No. 4,818,151 (Moreland) discloses a containment system where the purpose is to increase safety by providing an additional barrier to contain leakage. In this example, a rigid under-ground storage tank is encased by a flexible bladder. Similarly, U.S. Pat. No. 4,763,805 (Strock) describes the use of a flexible bladder inside an underground storage tank designed to comply with secondary containment laws that prevent leakage from primary tank.
U.S. Pat. No. 3,943,873 (Hering et al.) is an example of multiple flexible bladders used in a ship's hall. Here, two separate bladders are used to create three separate compartments, two being used to hold oil on either side of the hull and the third central compartment to hold ballast water, such that the hydraulic instability of a partial load of oil in the hull is minimized.
U.S. Pat. No. 6,152,059 (Del Raso) is another example of flexible bladders being used to contain oil in a ship's hull. Here, the purpose is to provide an emergency containment, and should the integrity of the hull be compromised, then pumping systems can be used to transfer the oil into the flexible bladders to limit leakage.
There is a need for a multi-product tank system that permits the storage of multiple liquids in a tank thereby allowing maximum use of tank volumes and minimizing the cleansing requirements between storing incompatible liquids.
This invention relates to the disposition of a separate container or containers within a storage tank, wherein the internal container or containers are used to isolate at least one liquid from another liquid contained in the tank. To this end, present invention provides for a multi-product storage tank that comprises a tank shell, a support means such as a porous wall or screen capable of encircling a bladder disposed within the support means where such support means is attached to the inside of the tank shell. This structure permits the storage of a second liquid within the bladder and the storage of a first liquid within the space between the inside of the tank shell and the exterior of the bladder.
In one aspect the invention provides a multi-product storage tank comprising: (a) a first tank shell comprising a bottom and a side wall extending upwardly from the bottom thereby adapting the shell to contain liquid; (b) a second tank disposed within the first tank wherein the second tank comprises at least one partially rigid end cap and flexible, fluid-tight, membrane side wall attached to the end cap thereby defining a first space between the first tank shell and the second tank wherein a first liquid can be stored in isolation from the contents of the second tank.
In another aspect the invention provides a multi-product storage tank composing: (a) a first tank shell comprising a bottom and a side wall extending upwardly from the bottom thereby adapting the shell to contain a first liquid; (b) a support means disposed within the tank shell and fixed to the tank shell: and (c) a flexible, fluid-tight bladder disposed within the support means, wherein the flexible bladder is adapted to storing a second liquid, thereby passing a first space between the first tank shell and the flexible bladder wherein a first liquid can be stored in isolation from the contents of the bladder.
In another aspect, the present invention provides for a multi-product storage tank having a novel configuration wherein a first rigid tank is provided to include a second internal tank wherein the second tank comprises at least one end cap wherein a portion of such end cap or end caps is rigid or semi-rigid and wherein the side walls of the second tank are fabricated with a flexible membrane material. This structure permits the storage of a second liquid within the second tank and the storage of a first liquid in the space between the inside of the rigid tank and the exterior of the second tank.
In specific aspects, this invention permits the storage of multiple petroleum products in one large storage tank, thus increasing the flexibility of storage options for a petroleum refining facility; however the invention has much wider industrial applications in other industries where liquid storage is required.
This invention provides a flexible storage system for tank farms by enabling multiple, potentially incompatible liquids to he stored in one tank. This results in multi-product tanks that can have the ability to store different liquids either simultaneously or sequentially with the added advantage of eliminating or reducing between-use cleanings.
Additionally, this invention provides means for the ability to separately fill or discharge the second liquid from the bladder and the first liquid from the tank disposed in the space between the tank shell and the bladder.
Where flexible bladders are used, this invention can comprise a, membrane with sufficient tensile strength and chemical compatibility to ensure long-term separation of the applicable liquids. The bladder(s) can be connected to separate supply, sampling and discharge lines and essentially act as separate tank(s). The limitation being that the combined volume of the internal bladder or bladders and the primary tank must not exceed the volume of the primary tank alone.
This invention provides a more flexible set of storage logistics for the operation of tank farms by enabling two or more, potentially incompatible liquids to be stored in one tank. To this end novel configurations of a rigid tank are provided that in one aspect includes a secondary internal container with flexible surfaces such as a bladder capable of allowing the bulk of the secondary container to be discharged separately from the contents of the primary, outer, rigid tank. In another aspect, at the invention discharged. Such can be employed in the conversion or retrofitting of single-use tanks into multi-product tanks that have the ability to store different liquids either simultaneously or sequentially with the advantage of eliminating between-use cleaning that may consume weeks of tank down-time while providing efficient use of tank volume.
In one aspect of this invention addresses the needs of petroleum tank farm operators, where most at the tanks are thirty to sixty meters or more in diameter, where the time and effort required to clean these large tanks between multiple product storage tasks is not insignificant. The invention, however, is applicable across a wide range of industries and tank sizes.
The second tank disposed with the first tank may be comprised of certain rigid elements in combination with flexible elements. For example,
Another variant of this invention is the use of a flexible wall attached to a rigid or semi-rigid disk end cap, as depicted in
Aspects of the invention shown in
In a particularly useful aspect of the invention, internal secondary container can be comprised of a free-form bladder shape that can be filled and emptied from pipe work attached to the tank walls, base or from above. This bladder may be composed of a membrane with sufficient tensile strength and chemical compatibility to ensure long term separation of the liquids. This bladder may be constrained as shown in
In such an embodiment of the invention, the bladder will be fabricated with a flexible membrane that can comprise a fiber reinforced polymer such as urethane, which may or may not include a metallic or other impervious inner layer. It is understood that the bladder need not be entirely flexible and may contain sections of non-flexible materials or components. The support is typically a porous wall but can also comprise a rigid wall of perforated metal or other suitable polymer or composite material, or comprise of a flexible wall such as a chain-linked fence or equivalent mesh like material that is suitably restrained to minimize contact with the inner wall of the outer tank. Such a restraint may be include a material having a very low level of rigidity such as an open-cell foam similar to that used for safety in gasoline tanks of racing cars. Clearly, many structural combinations of this invention can be developed by those skilled in the art, without detracting from the novelty or benefits of the invention.
It is understood that the present invention also comprehends the use of wireless sensors capable of monitoring the position or orientation of the bladder. Additionally, buoyancy adjusting devices attached to the bladder or associated piping can also be utilized. For instance, the bladder's upper and lower surfaces be suitably ballasted to greatly neutralize any problematic density differences between the intended storage liquids and to adjust the bladder's attitude. Soon ballasting can be dynamically adjusted by adding or removing fluids from small bladder compartments attached to bladder's surfaces. Wherein, the fluid used is of either a significantly higher or lower density that the liquid it displaces. Alternatively, this ballasting can be implemented by adjusting the length of cables connected between the top of the main bladder and the roof of the outer tank. This dynamic ballasting could also be integrated with self-contained level sensing transmitters and/or inclinometers, such that the disk can be leveled, and these controls or equivalent controls are applicable to all applications of this invention. Such sensors may be encapsulated or otherwise sealed and may include small, two or three axis, inclinometer chips and miniaturized transponders programmed to send data when requested or at infrequent times or if pre-set limits are exceeded. Using current technology, these devices could be powered continuously for over fifteen years using small lithium batteries. A transponder and data processing unit external to the tank could be used to analyze the sensor data and activate valves, pumps or winches as needed to adjust the bladder's buoyancy or inclination as appropriate. Another means of accomplishing the same goal may include similarly sealed and powered electronics that respond to a signal emitted from some reference point within the tank. The response delay from each of the sensors would allow detector units to triangulate their locations, and the results used to affect the buoyancy as described earlier or to simply monitor the volume of the inner tank.
This application claims the benefits of provisional application Ser. No. 60/820,415 and provisional application Ser. No. 60/820,425, both filed 26 Jul. 2006, and each of which is incorporated herein by reference in its entirety.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US07/74084 | 7/23/2007 | WO | 00 | 1/15/2009 |
Number | Date | Country | |
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60820425 | Jul 2006 | US | |
60820415 | Jul 2006 | US |