NL1032192C2 - Storage tank for a liquid. - Google Patents

Description

Short indication: Storage tank for a liquid.

DESCRIPTION

The invention relates to a storage tank for a liquid provided with a bottom and upright walls and closable by means of a cover body floating on the liquid, which cover body with its peripheral edge substantially abuts the upright walls and wherein determining means are present for determining the liquid level in the tank.

A storage tank according to the aforementioned preamble is widely used in particular in the process industry or in an oil refinery for storing water or a petroleum product, such as oil or gasoline. The determining means are used to effectively determine the level of the liquid in the storage tank in order to gain insight into the supply of liquid that is still present in the storage tank. When volatile and flammable petroleum products are used, in particular gasoline, a cover body is used in the storage tank that floats on the liquid level and thus shields the volatile and / or flammable liquid. Since most storage tanks usually have a cylindrical dimension, the cover body is also often round with a dimension such that its peripheral edge is closely in contact with the inside of the upright walls of the storage tank.

Although the use of a cover body on a flammable and / or volatile liquid such as gasoline offers an effective shielding, it may occur that mechanical defects cause the cover body to become stuck between the upright walls of the storage tank or that the cover body may become obscured due to excessive rainfall. increased weight falls below the liquid level and then sinks to the bottom of the storage tank due to tilting or tilting.

The invention has for its object to obviate the above-mentioned drawbacks and to provide a device according to the aforementioned preamble, with which it is also possible to gain insight into whether the cover body is at the same position as the liquid level in the tank and thus covers the liquid in a correct manner. To this end, according to the invention, the storage tank is further provided with detection means, which detect the position of the cover body in the tank.

In one embodiment, the detection means are adapted to compare the detected position of the cover body with the liquid level determined by the determining means, the detection means being further adapted for comparing the detected position of the cover body in the providing a warning signal with the liquid level determined by the determining means. As a result, it is possible to obtain a quick and adequate insight into whether and how the position of the cover body in the tank deviates from the liquid level below.

In a functional embodiment, the detection means comprise at least one position sensor arranged above the cover body, which position sensor detects the position of the cover body with the aid of a detection signal.

For an accurate determination of the position of the cover body in the storage tank, the at least one position sensor is arranged at the level of the geometric center of the cover body.

A more accurate determination of the position of the cover body in the storage tank, whereby it can also be determined whether the cover body assumes a sliding or oblique position in the storage tank relative to the liquid level, because in such a functional embodiment the detection means are at least three above the liquid level. cover body 20 comprise position sensors arranged.

By positioning the three position sensors at mutual positions of 120 ° relative to each other above the cover body, an accurate three-point measurement can be carried out, with which the position and the orientation of the cover body in the storage tank can be unambiguously determined.

The accuracy of the multi-point measurement can be further improved in that, according to the invention, the detection means are adapted to mutually compare the positions of the cover body in the tank detected by the different position sensors and to deliver a further one based on this mutual comparison. warning signal.

In a functional embodiment, the detection means detect the position of the cover body in the tank on the basis of radiated and reflected radar waves, the at least one position sensor being designed as a radar antenna for radiating radar waves to the cover body and receiving reflected from the cover body 3 radar waves.

By making use of a contactless position determination on the basis of reflective radar signals, a fast, and above all accurate measurement can be obtained for determining the position and orientation of the cover body in the storage tank.

To improve the contact-free position determination, the cover body is provided at each position sensor with a material that reflects the detection signal.

The invention will now be explained in more detail with reference to a drawing, which drawing successively shows:

Figure 1 shows a first embodiment of a device according to the invention;

Figure 2 is a top view of Figure 1.

For a better understanding of the invention, in the following description of the figures the identical parts will be indicated with the same reference numeral.

Figure 1 schematically shows an embodiment of a storage tank according to the invention. The storage tank 10 is made up of upright walls 11 with an upper edge 13 and a bottom 12 and filled with a liquid 1, often a petroleum product such as gasoline and the like.

Due to the volatile and flammable nature of the liquid 1 in the storage tank 10, the liquid 1 is covered by a cover body 15, which for this purpose floats on the liquid level 1a. The cover body 15 is in this case often in the form of a rigid body which, with its peripheral edge, lies substantially against the inside of the upright wall 11. The latter is in particular made possible in that such a storage tank is designed round, which facilitates the use of circular cover bodies. .

The height of the liquid level relative to the bottom 12 is indicated by the letter H. To gain insight into the level height 30 H of the liquid level of the liquid 1 in the storage tank 10, each standard storage tank 10 is provided with determining means 14 which are arranged for determining this liquid level H. Such determining means are generally known and can thereby often use a standpipe 14a in which the height H of the liquid column collected in the standpipe 14a is measured with 4 suitable measuring methods. A measuring method is the use of radar waves, but a servo-float construction can also be used.

As already explained in the introduction, there is a chance that the cover body 15 will become mechanically stuck between the upright walls 11 and 5, so that the lowering or rising of the level of the liquid 1 in the storage tank 10 cannot follow. This can lead to undesired operating situations, while on the other hand the cover body, for example as a result of heavy rainfall, assumes an inclined position under the weight of the collected rainwater and is thus partially submerged by the liquid 1 and in the extreme case sinks obliquely by the liquid 1 into the direction of the bottom 12.

It is furthermore noted that the cover body 15 floats freely on the liquid 1 and that unintentional clamping between the upright walls 11 and at a later stage unintentional release thereof can cause sparks which are undesirable in an environment with a flammable, volatile liquid 15 .

In order to gain insight into the position and position of the cover body 15 in the storage tank 10, the storage tank for this purpose is provided in accordance with the invention with additional detection means 20, which are adapted to detect the actual position of the cover body 15 in the storage tank. In this way it can be determined in an effective manner whether the cover body 15 is at the same level as the liquid level H of the liquid 1. The detection means 20 may further be adapted to compare the detected position of the cover body 15 in the storage tank 10 with the liquid level H determined by the determining means 14 (with the aid of the standpipe 14a).

In the case of an observed deviation between the position of the cover body 15 (as detected by the detection means 20) and the liquid level H (as determined by the determining means 14), a warning signal can be issued in an adequate manner. This warning signal can be generated on the one hand by the detection means 20 and delivered to the operating personnel of the storage tank 10, or on the other hand the two measured values as generated by the detection means 20 and the determination means 14 can be diverted to (further discussed provisions) to a control room where the mutual comparison and further actions are carried out in the event of any deviations found.

For obtaining an accurate position of the cover body 15 in the storage tank 10, the detection means 20 comprise at least one position sensor 21a, while in the embodiment as shown in Figs. 1 and 5 three position sensors 21a-21b-21c are used. The position sensor 21a or both multi-sensor design and the position sensors 21a-21c are thereby mounted on the upper edge 13 of the upright wall 11 and are thereby oriented above the cover body 15.

In an embodiment (not shown), the detection means 20 comprise one position sensor 21a, with which the current position of the cover body 15 in the storage tank 10 can be detected. More specifically, this single position sensor 21a is located exactly above the geometric center of the (circular) cover body 15. By comparing the detected position of the cover body 15 with the level H of the liquid level 1a fixed by the determining means 14, it can be determined whether the cover body 15 still floats on the liquid level 1a or that there is a deviation between the position of the cover body and the liquid level A.

In the latter case, the situation may arise that the cover body 15 is stuck between the upright wall 11 and that an air chamber has been created between the liquid level 1a and the cover body 15 due to the fall in the liquid level 1a. Certainly with flammable and volatile liquids 1 (such as gasoline), an explosive gas mixture can thus arise between the liquid level 1a and the clamped cover body 15, which results in dangerous operating situations. The clamped cover body 15 can, for example, be released from the upright wall 11 under the influence of its own weight, possibly causing sparks. The sudden release of a clamped cover body can also be caused by heavy rainfall, wherein the weight of the rainwater collected on the cover body 15 causes the cover body 15 to suddenly come loose from the upright wall 11.

In the latter case, the cover body 15 can assume an inclined position and thereby get below the liquid level 1a and possibly sink into the liquid 1 in the direction of the bottom 12.

Immersion of the cover body 15, whether or not clamped, by a rising liquid level 1a of the liquid 1 can also lead to undesired operating situations because the liquid 1 is now in open communication with the outside environment, which of course is undesirable with flammable and volatile liquids. The submerged cover body 15 can here also sink under the influence of the weight of the liquid 1 resting on it in the direction of the bottom 12.

Both an observed deviation between the position of the cover body and the actual level H of the liquid level 1a, wherein the cover body 15 can be above or below the liquid level 1a, can be detected with suitable equipment and result in a warning signal. The comparison can be carried out on the one hand by the detection means 20 provided for this purpose with a control unit 23. On the other hand, this control unit 23 forming part of the detection means 20 can be arranged elsewhere, i.e. not on the storage tank, for example in a control unit. or control room. This control or control room can be situated at some distance from the tank, where the signals emitted by the detection means 20 (position of the cover body) and by the determining means 14 (liquid level height) are received, processed and with each other compared, on the basis of which a suitable warning signal is generated and delivered to the operating personnel.

As shown in Figure 2, a functional embodiment of the storage tank 10 according to the invention is shown here, wherein the detection means 20 comprise several and in this embodiment three position sensors 21a-21c, which are at different positions on the upper edge 13 of the upright wall 11. and are positioned above the cover body 15. The mutual arrangement of the different position sensors 21a-21c is such that they assume a mutual orientation of about 120 ° relative to each other.

In this way a so-called three-point measurement can be performed, wherein each position sensor 21a-21c locally determines the position of the cover body 15 relative to the tank 10. To this end, each position sensor 21a-21c can be provided with electronics 22a-22c, which receive and process the detection signal generated by the position sensor 21a-21c for comparison with the liquid level determined by the determining means 14.

By means of the three-point measurement with the aid of the three different 7 position sensors 21a-21c, a possible skew or "slipping" of the cover body 15 between the upright walls 11 can be determined. Each position sensor 21a-21c generates a local position signal from the cover body 15 and because the detection means 20 according to the invention are further adapted to mutually compare these local measurement signals, an inclination or slipping of the cover body between the upright walls 11 can be detected.

If within a certain bandwidth the different local measuring signals emitted by the different position sensors 21a-21c show no deviations, it can be observed that the cover body 15 assumes a horizontal position between the upright walls 11. By subsequently performing a comparison with the liquid level H determined by the determining means 14 can easily be determined whether the cover body 15 floats on the liquid level 1a (the observed deviation is minimal) or that in the case of a found deviation the cover body 15 is far above or far below the determined liquid level H.

Both with a determined tilt of the cover body 15 using the different local measuring signals from the position sensor 21a-21c 20 or with a detected deviation between the position of the cover body 15 and the determined liquid level H, suitable control unit 23 can be used, for example. warning signals are given to the operators of the storage tank 10.

For a suitable signal processing, each position sensor 21a-21c is provided with control electronics 22a-22c which are connected to each other by means of suitable signal lines 24 and are further coupled to a control unit 23 which also receives signals from the determining means 14. The mutual comparison of the measurement signals supplied by the different position sensors 21a-21c (for the purpose of determining a possible tilting position) and / or the comparison between the position of the cover body 15 measured by the detection means 20 and the liquid level H determined by the determining means 14 the control unit 23 can be executed or by suitable control means elsewhere, for example in a control room of the storage tank 10.

With a simplified construction, for the sake of safety 8 (fire / explosion hazard) and maintenance, this electronics 22a-22c can also be incorporated in the control unit 23, which in turn is also located elsewhere, i.e. not on the storage tank, but for example can be arranged in a control or control room and receive and process both the measurement signals from the different position sensors 21a-21c and from the determining means 14. The control unit 23 can thereby compare the different position signals emitted by the position sensors 21a-21c with each other in order to gain insight into the orientation of the cover body in the storage tank (flat or oblique / squared). The different position signals regarding the position of the cover body 15 can also be compared by the control unit 23 with the liquid level H as determined by the determining means 14. For both comparisons (between the position sensors themselves or between the position sensors and the control means), the control unit 23 can provide suitable warning signals in the case of observed deviations.

Preferably, the position sensors 21a-21c use radar waves to determine the position of the cover body 15 in the storage tank 10. To this end, each position sensor 21a-21c has a radar antenna directed towards the cover body 15 which is adapted to radiate radar waves to the cover body 15 and to receive radar waves reflected by the cover body 15. The position of the cover body relative to the radar antenna of the position sensor 21a-21c can then be accurately determined on the basis of the transit time difference between the radiated and reflected radar waves. In order to improve the position determination by the radar antenna, the cover body at the level of each position sensor 21a-21c can be provided with a suitable material 25 which effectively reflects the transmitted radar signals and reflects back to the radar antenna.

It may be clear that in this way an accurate position determination of the cover body 15 in the storage tank 10 can be realized and that deviations between the position 30 of the cover body 15 and the actual liquid level H can thus be detected in an adequate manner and here suitable measures are taken.

1032192.

Claims (11)

A storage tank for a liquid provided with a bottom and upright walls and closable by means of a cover body floating on the liquid, which cover body with its peripheral edge substantially abuts the upright walls and wherein determining means are present for determining the liquid level in the tank , characterized in that the storage tank is further provided with detection means, which detect the position of the cover body in the tank. 2. Storage tank according to claim 1, characterized in that the detection means are adapted to compare the detected position of the cover body with the liquid level determined by the determining means. 3. Storage tank as claimed in claim 2, characterized in that the detection means are adapted to issue a warning signal on the basis of the comparison of the detected position of the cover body in the tank with the determined liquid level by the determining means. Storage tank according to one or more of the preceding claims, characterized in that the detection means comprise at least one position sensor arranged above the cover body 20, which position sensor detects the position of the cover body with the aid of a detection signal. Storage tank according to claim 4, characterized in that the at least one position sensor is arranged at the level of the geometric center of the cover body. Storage tank as claimed in claim 4 or 5, characterized in that the detection means comprise at least three position sensors arranged above the cover body. 7. Storage tank as claimed in claim 4, characterized in that the three position sensors are arranged at mutual positions of 120 ° relative to each other above the cover body. Storage tank as claimed in one or more of the claims 4-7, characterized in that the detection means are adapted to mutually compare the positions of the 1032192 cover body in the tank detected by the different position sensors and the mutually comparing a further warning signal. 9. Storage tank as claimed in one or more of the foregoing claims, characterized in that the detection means detect the position of the cover body in the tank on the basis of radiated and reflected radar waves. A storage tank according to claim 9, characterized in that the at least one position sensor is designed as a radar antenna for radiating radar waves to the cover body and receiving radar waves reflected by the cover body. 11. Storage tank according to one or more of claims 4-10, characterized in that the cover body is provided with a material reflecting the detection signal at the height of each position sensor. 15 1032192