NL1035869C - METHOD AND SYSTEM FOR LIMITING AND PREVENTING EMISSIONS OF STORAGE TANKS FOR LIQUID PRODUCTS. - Google Patents

Description

TITLE. Method and system for limiting and preventing emissions from storage tanks for liquid products.

The invention relates to a system for use in the interior of a storage tank, which storage tank is suitable for storing a fluid load, comprising at least one inflatable element.

Dutch patent 1030882 in the name of the applicant discloses an inflatable element (also referred to as airbag) for use and / or use in the interior of a container, which container is suitable for storing or transporting a liquid load, in in particular for a holder for a transport or storage device such as a tank truck, a tank container or a storage tank. The inflatable element can be adapted to the free space above the liquid in the container, whereby both an anti-slobing device and a restriction of the vapor space are realized.

Large storage tanks for liquid products such as petroleum and chemical products are usually of the "fixed" or "floating" roof tanks type.

The "fixed roof" storage tanks have a fixed internal volume. This tank volume is usually partially filled with a liquid product and the remaining part of the volume is filled with ambient air. This ambient air will begin to saturate with vapor from the liquid until the vapor pressure applicable at the temperature in the tank is reached. The evaporation of the liquid is then determined by the so-called breathing of the tank, with saturated vapor leaving the tank and clean air being sucked into the tank from outside. When filling this type of storage tanks with liquid products, the air present in the tank will be driven out of the tank with the vapor of the liquid; this vapor is emitted to the ambient air outside the tank, unless they are extracted and recycled.

The "floating roof" storage tanks have a variable volume. The roof of the tank floats on the liquid in the tank, so that, with sufficient liquid filling of the tank, there will normally be no free air in this type of tank 1035869 2. When the liquid is pumped out of the tank, the roof sinks until it reaches a mechanically determined minimum height, usually about 1.5 meters above the bottom floor of the tank, and the roof is placed on the legs attached to the bottom of the roof. When the tank is further pumped empty, the space between the roof standing on its legs and the liquid fills with ambient air. This air also becomes saturated with vapor from the liquid until the vapor pressure applicable at the temperature in the tank is reached. When refilling the tank with the liquid product, the vapor-saturated air will be forced outwards along the so-called "rim seals". This vapor-air mixture often has a higher specific gravity than the ambient air and as a result thereof often remains suspended in the cylindrical standing wall, which for example lead to the so-called "rim fires", fires caused by lightning strike on the tank, said vapor-air mixture flame barrel.

15

In addition to the vapor-shaped emissions, emissions of the liquid products from both types of tanks also occur. These are usually leaks on a smaller scale, for example with poorly closing flanged connections or with leaking valves. With liquid losses from small leaks, the liquid normally disappears into the substrate near the tank. Large losses of the liquid products occur when the tank wall fails. Every tank is surrounded by a so-called "bundwall". This is in fact a dyke around the tank, the height of the dyke and the internal surface area being calculated such that this dyke can contain the maximum volume of liquid in the tank. Finally, stored liquids are lost when cleaning the tank after most of the liquid has been pumped out of the tank.

Both vapor-shaped and liquid-shaped emissions and losses from both types of storage tanks are undesirable, mainly because of the environmental-polluting aspects but also because of the economic damage caused by product loss. In addition, the presence of (large) quantities of flammable liquids and air together in one room is undesirable because of the fire and explosion hazard.

3

In order to prevent vapor formation in the tank in the first place and subsequently also emissions of vapors or liquids from the tank, there is a need for a system with which continuous and reliable, at relatively low costs, with a greatly reduced risk of fire or explosion, with a minimal chance of malfunction and without adversely affecting the quality of the liquid stored in the tank, the storage tank can be operated.

The invention therefore has for its object to provide a system with which both vapor formation by liquids present in the tank, vapor emissions and the uncontrolled and undesired escape of liquids from the tank during filling and emptying are prevented, the system being relatively cheap and reliable and the risk on fire and / or an explosion is reduced and a dike or bundwall becomes superfluous for maintaining the liquid product or fluid load in the event of the failure of the storage tank wall or the container of the liquid products.

To this end, the invention provides a system according to the preamble which further comprises: at least one load holder for receiving the fluid load.

By placing the fluid load in a load holder, this fluid load does not come into contact with the mechanical emission sources of the tank and this load holder, in combination with the inflatable element, forms a system which can be fitted in "fixed" or "floating" roof tanks .

In a preferred embodiment, the inflatable element is provided with a harmonica wall or otherwise extendable or unfoldable wall or walls, which unfold and fold in, respectively, when supplying or discharging inflatable fluid. With these means it is realized that the inflatable element can easily vary in volume without having to apply a high pressure to the inflatable element.

The load holder preferably comprises flexible walls and / or is provided with a harmonica wall or otherwise extendable or unfoldable wall or walls, which fold out and fold in respectively when the fluid load is supplied or discharged. With these means it is realized that the load holder can easily vary in volume without the liquid load having to be applied at a high pressure for this.

In particular, the inflatable element and / or the load holder are formed by two or more elements or are provided with two or more compartments. This allows large elements or holders for large storage tanks to be produced easily and at low costs.

The invention also provides a first inflatable element provided in the interior of the load holder, which first elements in inflated position are suitable as support for a roof element such as the roof of the storage tank or as support for a second inflatable element. These inflatable elements arranged in the load holder fill a part of the load holder so that a roof element or a second inflatable element positioned on the load holder can be supported and the withdrawal of ambient air is prevented or greatly reduced.

The walls of the load holder preferably form a completely closed space. In this alternative embodiment of the load holder which is opened from above and wherein the upper side is covered by the inflatable element, the load holder is now completely closed such that the inflatable element now rests on the top wall of the load holder.

In particular, means are provided for adjusting the volume of the inflatable element when the volume of the flexible container changes.

The means are preferably selected from: vacuum and overpressure provisions; a pressure or level controlled air system with air pump or compressor or other air system provided with overpressure; liquid safety, warning or registration system between the flexible load holder and the wall of the storage tank. This prevents vapor emissions as well as the uncontrolled and undesired escape of liquids from the tank during filling and emptying.

5

In particular, the storage tank is provided with a floating roof, and the inflatable element is provided on its roof side with a shape corresponding to the internal shape of the roof.

The inflatable element filled with inflatable fluid is preferably arranged on the top side of the flexible load holder so that in use in the storage tank the inflatable element substantially abuts the roof of the holder and the flexible load holder abuts substantially against the base surface of the holder. The inflatable element can now fit tightly against the roof and thus prevent the formation of vapor, while the load holder closely fits against the bottom and prevents emission and leakage of liquid.

In an alternative embodiment, the inflatable element and the flexible load holder are each provided with connecting means, such as inflow and outflow means, with which inflatable fluid or liquid load can be brought into or out of the storage tank without coming into contact with the tank or tank wall.

In particular, the inflatable element occupies only a part of the volume difference between the contents of the storage tank and the volume of the load holder. With the connecting means, the load holder and the inflatable element can be filled and emptied independently of each other. As a result, if desired, the system can also be operated in such a way that the load holder and the inflatable element do not together fill the entire contents of the storage tank.

25

The invention also relates to a method for supplying or discharging liquid load to a storage tank which is provided with a system according to the invention, comprising the following steps: - supplying or discharging liquid load to the load holder whereby the volume of the load holder changes, - registration of the change in volume of the load holder, - supply or removal of inflation fluid in the inflatable element, such that the change in volume in the load holder is compensated.

6

In particular, the method comprises supplying or discharging inflation fluid into the inflatable element for displacing the floating roof of the storage tank.

The invention also provides the possibility of an addition that measures, records or reports the possible presence of liquid between the flexible liquid container and the tank wall. This addition can possibly be linked to a security or warning system of the tank terminal of which the storage tank is a part.

10

The invention also provides the option of having the top of the inflatable element function as the roof of the tank, such that this top of the inflatable element is always held in the same position, identical to the roof of a "fixed roof" tank and that the remaining part of the inflatable element assumes such a variable shape that no free air is present in the tank, in other words that the entire volume of the tank is filled by liquid and the inflatable element.

The invention ensures that both the probability of the occurrence and the consequences of a fire or explosion decrease considerably and that in an alternative manner in the event of a calamity there are two independently functioning fluid containers, the current storage tank outer wall the outer boundary. This makes it possible to build storage tanks closer to each other in a safe manner and to allow them to occupy less soil for the storage of a certain amount of liquid.

The invention will be explained in more detail below with the aid of the drawing with a few exemplary embodiments of the method, the system with the inflatable element and the flexible liquid container, wherein features and other advantages will emerge.

7

FIG. 1 shows in a perspective view a storage tank with "floating roof" provided with the system according to the invention;

FIG. 2 shows in a perspective view a storage tank with "fixed roof" provided with the system according to the invention, FIG. 3 shows in a perspective view an "open" storage tank provided with the system according to the invention.

Figure 1 shows a storage tank 2 with a floating roof 6 (floating roof) provided with inflatable elements 10 in load holder 1. On the right-hand side 10 of the storage tank 2, load holder 1 is shown in which a fluid load 3 is inserted. The load holder 1 can be provided with a flexible wall 8 and / or with a harmonica wall 7 or otherwise extendable or expandable wall so that the volume of the load holder can be easily increased or reduced when there is no need for applying a large internal pressure when fluid load is moved in or out of the load holder. When the storage tank 2 becomes empty, the floating roof 6 will lower. In order to prevent the floating roof 6 from resting on the base surface 16 of the storage tank 2 and to reduce the free space in the load holder, inflatable elements 10 are provided in the load holder 20 1. In the left half of the storage tank 2 Fig. 1, the load holder 1 has been omitted so that the inflatable elements 10 are visible as support for the floating roof 6. The inflatable elements 10 can also serve as support for a (second) inflatable element 11 (see Fig. 2) which is on top of the load holder. 1 is placed.

Figure 2 shows a storage tank 2 with a fixed roof 6 '(fixed roof) provided with an inflatable element 11 and a load holder 1 according to the invention. In this exemplary embodiment, the load holder 1 can be open at the top or form a completely closed space. Both the load holder 1 and the inflatable element 11 can be provided with an accordion wall 7 and 12 respectively. The inflatable element 11 and / or the load holder 1 can each comprise one space, but can also be formed from two or more elements and / or be provided. of two or more compartments. To prevent vapor formation in the storage tank 2, the inflatable element 11 and the load holder 1 together exactly fill the internal volume of the storage tank 2. When fluid load 3 is moved in or out of the load holder, the volume of the load holder will increase or decrease. so that the volume of the inflatable element 11 must decrease or increase. As a result, the system according to the invention provides means with which the volume of the inflatable element 11 can be changed in the opposite direction or as compensation, when the volume of the flexible load holder 1 changes. These means can be warning or registration systems, wherein, for example, the pressure in the load holder 1 and / or the inflatable element 10, 11 is measured. Other suitable measuring methods are a level measurement or weight measurement of the liquid load or a pressure measurement of the walls of the storage tank with a strain gauge or the like. A flow measurement can also be provided at the connecting means 9, 17. After the volume change of the load holder 1 has been measured and / or registered, the control or control part of the system will feed or discharge inflatable fluid 13 to the inflatable element 11, such that the volume change in the load holder is compensated. The supply or removal can be carried out by means of a feedback loop, but can also be carried out by means of a calculation of a certain required volume. Due to explosion, safety and vapor requirements, the control part of the system can be set such that the volume of the storage tank 2 is always completely filled, but if desired can also be set such that the load holder 1 and the inflatable element 11 are only part of the volume of the storage tank 2. The system can contain vacuum or overpressure provisions and an air system with an air pump or compressor.

In a preferred embodiment, the inflatable element 11 is provided on its top or roof side with a shape corresponding to the inner shape of the roof. In Fig. 2, the roof 6 'and the inflatable element 11 have a conical shape. As a result, the inflatable element 11 closes closely to the roof 6 'and deformation of the inflatable element 11 or the creation of free spaces between the inflatable element 11 and the roof 6' is prevented. With a floating roof 6 as in Fig. 1, the corresponding shape ensures an even distribution of forces on the roof so that the inflatable element 11 has a low chance of deformation and / or leakage and the roof is also uniformly supported over its entire surface. .

9

The load holder 1 in Fig. 2 can be open at the top, so that the inflatable element 11 rests on the fluid surface of the fluid load 3. The load holder rests or rests on the base surface 16 of the holder 2. The disadvantage of this system is that it the inflatable element 11 is in contact with the fluid load 3 and is thereby also contaminated or contaminated. In a preferred embodiment, therefore, the load holder 1 is a completely closed space, as a result of which the fluid load 3 does not come into contact with the walls of the storage tank 2 and the walls of the inflatable element 11.

The system is preferably provided with a supply system 15, 17 for a gaseous product 13, often ambient air, which is available via an air or gaseous supply system at the storage tank 2 location, or by means of a device directly connected to the inflatable element 11, such as air or gas compressor or pump 15 or a higher pressure storage tank, and which consists of a discharge system for the gaseous product consisting of a direct blow-off device when it concerns ambient air or a system in which cleaning facilities or possibilities for reuse or otherwise responsible discharge of the gaseous medium. The system is pressure controlled in the basic version. When filling the storage tank 2 or the container via connection 9 with the liquid load 3, the pressure in the inflatable element 11 increases, as a result of which the pressure-controlled system, of which the inflatable element 11 forms part, leaves gaseous filling of the inflatable element 11 discharges via connection 17 such that otherwise occurring pressure rise is canceled out. Upon removal of the liquid load 3 from the storage tank 2 or the container for the liquid load 3, the pressure in the inflatable element 11 decreases, as a result of which the pressure-controlled system of which the inflatable element 11 forms part causes gaseous filling of the inflatable element 11 to be supplied. such that otherwise occurring pressure drop is canceled out.

Figure 3 shows a storage tank 2 without a roof with an inflatable element 11. In this embodiment the inflatable element 11 forms the roof of the 'open' storage tank 2. The underside 18 of the inflatable element rests on the liquid surface of the fluid load 3 in case with an 'open' load holder 1 or the absence of a load holder 1. In the preferred embodiment, a closed load holder 1 is also provided wherein the inflatable element 11 rests on the load holder 1.

The inflatable element or the load holder can be made from (a combination of) any suitable material such as plastic or metal.

1035869

Claims (14)

A system for use in the interior of a storage tank (2), which storage tank (2) is suitable for storing a fluid load (3), comprising: at least one inflatable element (10), characterized in that the The system further comprises: at least one load holder (1) for receiving the fluid load (3). A system according to claim 1, characterized in that the inflatable element (10) is provided with a harmonica wall (12) or otherwise extendable or unfoldable wall or walls, which unfold and collapse, respectively, when inflowing fluid is supplied or discharged. (13). System according to claim 1 or 2, characterized in that the load holder (1) comprises flexible walls (8) and / or is provided with a harmonica wall (7) or otherwise extendable or unfoldable wall or walls, which unfold and fold respectively when supplying or removing the fluid load (3). 20 A system according to any one of the preceding claims 1-3, characterized in that the inflatable element (10) and / or the load holder (1) are formed by two or more elements or are provided with two or more compartments. 25 A system according to any one of the preceding claims 1-4, characterized in that a first inflatable element (10) is provided in the interior of the load holder (1), which first elements (10) in inflated position are suitable as support for a roof element (6) such as the roof of the storage tank (2) or as support for a second inflatable element (11). 1035869 A system according to any one of the preceding claims 1-5, characterized in that the walls (8) of the load holder (1) form a completely closed space. A system according to any one of the preceding claims 1-6, characterized in that means are provided for adjusting the volume of the inflatable element (11) when the volume of the flexible load holder (1) changes. A system according to claim 2, characterized in that the means are selected from: vacuum and overpressure provisions; a pressure or level-controlled air system with air pump or compressor (15) or other air system provided with overpressure; security, warning or registration system for liquid between the flexible load holder and the wall of the storage tank. A system according to any one of claims 1 to 4, 6 to 8, characterized in that the storage tank (2) is provided with a floating roof (6), and that the inflatable element (11) is of a shape on its roof side provided that corresponds to the internal shape of the roof (6). 10. System as claimed in any of the foregoing claims 1-9, characterized in that the inflatable element (11) filled with inflation fluid (13) is arranged on the top side of the flexible load holder (1) so that in use in the storage tank (2) ) the inflatable element (11) substantially abuts the roof (6) of the holder (2) and the flexible load holder (1) substantially abuts the base (16) of the holder (2). 11. System as claimed in any of the foregoing claims 1-10, characterized in that the inflatable element (11) and the flexible load holder (3) are each provided with connecting means (9, 17), such as inflow and outflow means, with which inflatable fluid (13) or liquid load (3), without coming into contact with the tank or tank wall, can be fed into or out of the storage tank (2). 12. System according to one of the preceding claims 1 - 10, characterized in that the inflatable element (10) only takes up a part of the volume difference between the contents of the storage tank (2) and the volume of the load holder (1) . A method for supplying or discharging a liquid load (3) to a storage tank (2) which is provided with a system according to any one of the preceding claims 1 - 4, 6 -12 comprising the following steps: 10. supplying or discharging liquid load (3) to the load holder (1) through which the volume of the load holder (1) changes, - recording the change in volume of the load holder (1), - supplying or discharging inflation fluid (13) into the inflatable element (11) ), such that the change in volume in the load holder (1) is compensated. Method as claimed in claim 11, comprising the following step: - supplying or discharging inflation fluid (13) into the inflatable element (11) for displacing the floating roof (6) from the storage tank (2). 1 03 58 69