NL1027110C2 - Vehicle for transporting liquids comprises a water treatment unit for producing purified water for diluting the transported liquid - Google Patents

Abstract

Vehicle for transporting liquids comprises a chassis (2) on which are mounted a tank (5) with a liquid outlet (7) opening into a liquid outlet conduit (9), and a water treatment unit (10) with a water inlet (12), a device for removing impurities from the water and a water outlet (14) opening into a water oulet conduit (15). The liquid and water outlet conduits are connected to a common discharge conduit (33) for mixing streams of liquid and water. An independent claim is also included for transporting a liquid by filling the tank of a transport vehicle with liquid at a departure point, transporting the liquid to a destination point, discharging the liquid from the tank, feeding water into a water treatment unit on the vehicle at the destination point, discharging treated water from the treatment unit, and mixing the discharged liquid and water.

Description

> 1 l

Transport device for a liquid, as well as a method for transporting a liquid.

The invention relates to a liquid transport device, comprising a mobile undercarriage, as well as a tank mounted on the undercarriage, wherein the tank has an outflow opening for draining liquid from the tank, the outflow opening terminating in an outflow line.

Such a transport device is generally known. This transport device is, for example, a tank trailer, with which the liquid to be transported is transported to a customer 10. Many liquids that are used industrially are diluted to a greater or lesser extent. The required concentration of these liquids may differ for each industry. An example is hydrogen peroxide, which forms a bleaching agent. The textile industry uses a low concentration of hydrogen peroxide, while a high concentration is used in the paper industry.

Diluting the liquid with tap water available at each customer is not possible, because the temperature of the diluted liquid rises due to a chemical reaction with components, such as salts and minerals in the tap water. This can even lead to an explosion hazard. Since the purchase of a dilution installation is not profitable for the customers, the factory produces the liquid in the desired concentration. A transport device transports the liquid in that concentration to the customer. Because the desired concentration of the liquid depends on the destination, a tank load with a certain concentration will only be suitable for a limited number of customers. In practice, therefore, it is rarely possible to serve different customers with a single tank load.

An object of the invention is to provide a liquid transport device which can serve a plurality of customers regardless of the desired concentration of the liquid.

This object is achieved according to the invention in that the transport device comprises a water treatment device which is provided with an inlet opening for supplying water, purifying means for removing contaminants from the water supplied via the inlet opening, and an outlet opening for discharging the treated water. water, the outlet opening terminating in an outlet line, and the outflow line of the tank and the outlet line of the water treatment device being in fluid communication with a common discharge line for a mixed flow of the liquid and the treated water.

According to the invention, the tank is filled with the maximum permissible concentration, which in the case of hydrogen peroxide is 70% by weight. The transport device transports the liquid in this highest concentration to a customer. If the buyer wants a lower concentration, the liquid must be diluted. For this purpose, tap water that is available at each customer is supplied to the water treatment device via the inlet opening. This water treatment device removes contaminants from the tap water in such a way that the treated water can dilute the liquid without difficulty. In particular, the water treatment device will convert the tap water into demineralised water. By diluting to the desired lower concentration, the customer can obtain the liquid required for his industry. The liquid from one tank load can therefore be delivered in different concentrations. This allows several customers who have ordered liquid with different concentrations to be served by one tank load.

A further advantage is the considerable cost saving if the intended industrial application requires liquid with a low concentration. In this case the known conveying device is largely filled with water for diluting the liquid. However, according to the invention, the tank semi-trailer always transports the liquid in the highest concentration. This means the amount of water carried is minimal. The tanker can deliver a larger quantity of liquid in the desired low concentration to the customer with one tank load. This means that the liquid transport according to the invention is cheaper.

According to the invention, it is preferred that the purifying agents comprise means for carrying out reverse osmosis. Reverse osmosis is a known technique. If two liquids with a different concentration of dissolved salts and minerals come into contact with each other, the liquids mix until a uniform concentration results. If those two liquids are separated by a semi-permeable wall (permeable to the liquid, impermeable to the salts and minerals), the low-concentration liquid will move through that wall to the high-concentration liquid, which is referred to as osmosis.

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By exerting a considerable pressure on the high-concentration liquid, the reverse effect is obtained. The liquid is pressed through the semi-permeable wall, while that wall blocks the salts and minerals. In this way the tap water can be effectively stripped of a large part of the dissolved salts and minerals. By reverse osmosis, tap water can be effectively purified from dissolved salts and minerals, making the purified water suitable for diluting industrial fluid.

In an embodiment of the invention, the means for performing reverse osmosis comprise at least one tube arranged laterally with respect to the tank 10, a pump for supplying water to the tube under pressure, and an osmosis membrane arranged in the tube for purifying the water supplied under pressure from impurities such as salts and minerals. The osmosis membrane is formed by a semi-permeable wall. This embodiment is particularly suitable for a tank trailer.

In order to improve the process of reverse osmosis, it is possible for the water treatment device to be provided with a feed opening for supplying a substance which, due to a chemical reaction with impurities in the water fed through the inlet opening, such as salts and minerals, causes flake formation. The flake formation simplifies the removal of the salts and minerals from the tap water.

In a preferred embodiment according to the invention the transport device comprises a mixing system for mixing the treated water and the liquid, which mixing system is provided with a first flow meter for measuring the mass flow of treated water, a first valve for controlling the mass flow of treated water, a second flow meter for measuring the mass flow of liquid, a second valve for controlling the mass flow of liquid, and a control unit connected to the flow meters and the valves, the control unit being suitable for receiving a respective measuring signal from the flow meters and for supplying a respective control signal to the valves. A desired concentration of the mixed flow can herein be adjustable in the control unit, and the control unit can control the valves on the basis of the measurement signals from the flow meters such that a mixed flow with the set concentration is formed in the common discharge line. At the location of the customer, the mixing system according to the invention can dilute the liquid with the highest concentration and the demineralized water stored in the tank to any lower concentration.

The control unit guarantees the accuracy of the specifications of the delivery to each customer, regardless of the desired concentration.

It is possible that the first valve only has an open and closed position, and the second valve is adjustable between an open position and a closed position. The first valve for controlling the mass flow of treated water will be open during the dilution. The capacity of the water treatment device then limits the mass flow of treated water to a maximum value. The control unit can adjust the second valve for controlling the mass flow of the liquid such that the desired concentration of the diluted liquid is achieved.

According to the invention, it is preferred that the mixing system is provided with a mixing vessel, wherein the outflow line of the tank and the outlet line of the water treatment device open into the mixing vessel, and wherein the mixing vessel has a discharge opening to which the common discharge line is connected. The mixing vessel, which for example has a capacity of 2000 liters, forms a buffer for the diluted liquid. In the mixing vessel, the high-concentration liquid and the treated water are allowed to mix well. This ensures a homogeneous concentration of the diluted liquid in the discharge line.

In an embodiment according to the invention, a drain pump is arranged in the common drain line, and a detection means for determining the liquid level is arranged in the mixing vessel, and the control unit is suitable for receiving a signal from the detection means, and the control unit is Suitable for adjusting the pumping power of the drain pump for controlling the liquid level in the mixing vessel. As a result, the liquid level remains in the mixing vessel within a certain height interval. The mixing of the liquid and the treated water and the discharge of the diluted liquid can be carried out continuously.

The invention also relates to a method for transporting a liquid, comprising: - providing a liquid transport device, such as a tank trailer, comprising a tank, - filling the tank with a liquid to be transported at a liquid departure location, - transporting the transport device from the departure location to a destination location, - removal of liquid from the tank at a destination location.

According to the invention, water is supplied at a destination location to a water treatment device of the conveyor device, contaminants are removed from the supplied water, the treated water is discharged from the water treatment device, and the liquid discharged from the tank and the treated water are mixed.

The invention will now be further elucidated with reference to an exemplary embodiment shown in the drawing.

FIG. 1 shows a side view of a transport device according to the invention;

FIG. 2 is a rear view of the conveyor shown in FIG. 1;

FIG. 3 shows a schematic longitudinal sectional view of a tube comprising a semi-permeable membrane for performing reverse osmosis;

FIG. 4 shows a process scheme for diluting transported liquid to a desired concentration.

The transport device according to the invention is indicated in its entirety by 1. In this exemplary embodiment, the transport device 1 is formed by a tank trailer.

The invention can of course be applied to any other means of transport, such as a tank truck or a train carriage.

The tank trailer 1 shown in fig. 1 comprises a chassis 2 which can be moved over a number of wheels 3. A tank 5 is arranged on the chassis 2. The tank 5 has a capacity of, for example, 22500 liters. The tank 5 has an inflow opening (not shown) for filling it with liquid to be transported, for example hydrogen peroxide (H2O2). The tank 5 also has an outflow opening 7 for discharging this liquid from the tank 5. The outflow opening 7 opens into an outflow line 9.

According to the invention, the tank trailer 1 comprises a water treatment device 10. The water treatment device 10 comprises an inlet opening 12 for supplying tap water. Furthermore, the water treatment device 10 has purification means 16, 17, 18 for removing contaminants, such as dissolved salts and minerals from this tap water. The water treatment device 10 comprises an outlet opening 14 for discharging the treated water, which is connected to an outlet line 15.

The purifiers can be designed in various ways. In this exemplary embodiment, the purification means are suitable for performing reverse osmosis. These purifiers comprise a plurality of tubes 16. In each tube 16 there is an osmosis membrane 17 (see Fig. 3) for retaining the salts and minerals present in the tap water. The purification means also comprise a pump 18 for pressing the tap water through each osmosis membrane 17 of the tubes 16. The purification means 16, 17, 18 can convert the tap water 10 into demineralised water, which is suitable for diluting the water present in the tank 5 liquid. The impurities retained by the membrane 17 are collected in a waste container 21 (see Fig. 4).

The water treatment device 10 furthermore has a supply opening 19 for supplying a substance which causes floc formation by a chemical reaction with the impurities in the tap water. Flake formation facilitates filtering of contaminants through the osmosis membrane 17.

The chassis 2 has a platform 6 at the rear of the tank trailer 1. On this platform 6 a housing 11 is arranged, in which several parts of the water treatment device 10 are accommodated, for example the inlet opening for tap water 12, the pump 18, the supply opening 19 for chemicals, as well as multiple connecting pipes.

The tank trailer 1 comprises a mixing vessel 20, which is formed as a sealed compartment of the tank 5. The outflow line 9 for the liquid from the tank 5 and the outlet line 15 for the treated water open into this mixing vessel 20. The mixing vessel 25 can however, are formed as a separate part that is placed outside the tank 5.

The tank trailer 1 according to this exemplary embodiment also has a mixing system for mixing the treated water and the liquid. The mixing system is shown schematically in Fig. 4. The mixing system can be accommodated in the housing 11 on the platform 6 (not shown).

The mixing system comprises a first flow meter 22 and a first valve 24, which are connected in the outlet line 15. The first flow meter 22 measures the mass flow of the demineralized water, while the first valve 24 forms a valve that can completely close or open the outlet line 15.

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Furthermore, the mixing system has a second flow meter 26 and a second valve 28, which are arranged in the outflow line 9. The second flow meter 26 measures the mass flow of the liquid from the tank 5. The second valve 28 is a control valve for adjusting the mass flow of the liquid in the outflow line 9.

The flow meters 22, 26 and the valves 24, 28 are connected to a control unit 30. In this control unit 30, a user can make a desired one! ; specify the concentration of the required product. The control unit 30 further receives measurement signals from the flow meters 22, 26. On the basis of these measurement signals and the entered concentration, the control unit 30 outputs control signals to the control valves 24, 28. The control unit 30 controls these valves 24, 28 such that the set concentration is created in the mixing vessel 20.

As most clearly shown in Figure 4, the mixing vessel 20 has a drain opening 32 which opens into a drain line 33 for the mixed flow of the liquid and the demineralized water. This mixed flow therefore contains the diluted liquid with a homogeneous concentration.

In the common drain line 33 there is a drain pump 35 which has an adjustable power. The pumping power is controllable by the control unit 30. In the mixing vessel 20, a detection means 36 for determining the liquid level in the mixing vessel 20 is arranged on the inside. This detection means 36 is connected to the control unit 30. On the basis of the signal from the detection means 36, the control unit 30 can adjust the power of the drain pump 35, so that the liquid level in the mixing vessel 20 remains within a certain level.

The operation of the tank trailer 1 according to the invention is as follows. First, the factory producing the liquid to be transported fills the tank trailer 1 with that liquid in the highest possible concentration. In the case of hydrogen peroxide, that concentration has been set by international regulations at 70% by weight. After transport from the factory to the customer, tap water from the customer is obtained at this place of destination.

The tap water enters the water treatment device 10 via the inlet opening 12. Chemicals are added via the supply opening 18 which cause flocculation in the tap water. The tap water with the salts and minerals dissolved therein flows under high pressure through the tubes 16, each containing the semi-permeable osmosis membrane 17. In the osmosis tubes 16, the water purifies, so that demineralized water flows out of the outlet opening 14 of the water treatment device 10. This demineralized water flows via the outlet line 15 to the mixing vessel 20.

At the same time, the highly concentrated hydrogen peroxide from the tank 5 flows into the mixing vessel 20 via the outflow line 9. The control unit 30 ensures that the correct amounts of hydrogen peroxide and demineralised water are combined in the mixing vessel. In this way the mixing vessel 20 contains hydrogen peroxide in the desired concentration. Moreover, the mixing vessel 20 makes homogeneous mixing possible. The diluted product can then be delivered to the customer via the discharge line 33.

Although a mixing vessel is included in the above-described exemplary embodiment, the outflow line from the tank and the outlet line from the water treatment device can also flow directly into the common discharge line 33, i.e. without the intervention of a mixing vessel (not shown).

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Claims (16)

Liquid transport device, comprising a mobile undercarriage (2) and a tank (5) arranged on the undercarriage (2), wherein the tank (5) has an outflow opening (7) for discharging liquid from the tank (5), wherein the outflow opening (7) opens into an outflow line (9), characterized in that the transport device (1) comprises a water treatment device (10) which is provided with an inlet opening (12) for supplying water , purifying means for removing contaminants from the water supplied via the inlet opening (12), and an outlet opening (14) for discharging the treated water, the outlet opening (14) opening into an outlet line (15), and that the outflow line (9) of the tank (5) and the outlet line (15) of the water treatment device (10) are in fluid communication with a common discharge line (33) for a mixed flow of the liquid and the treated water. 15 Transport device according to claim 1, wherein the purifying means comprise means for carrying out reverse osmosis. 3. Transport device as claimed in claim 2, wherein the means for performing reverse osmosis comprise at least one tube (16) arranged laterally with respect to the tank, a pump (18) for supplying water to the tube 16 under pressure. and an osmosis membrane (17) disposed in the tube (16) for purifying the water supplied under pressure from impurities such as salts and minerals. 25 4. Transport device according to claim 2 or 3, wherein the water treatment device (10) is provided with a supply opening (19) for supplying a substance which, through a chemical reaction with contaminants, in the water supplied through the inlet opening (12), such as salts and minerals, causing flocculation. 30 Transport device according to one of the preceding claims, wherein the transport device (1) comprises a mixing system for mixing the treated water and the liquid, which mixing system is provided with a first flow meter (22) for measuring the mass flow of treated water, a first valve (24) for controlling the mass flow of treated water, a second flow meter (26) for measuring the mass flow of liquid, a second valve (28) for controlling the mass flow of liquid, and a control unit (30) connected to the flow meters (22, 26) and the valves (24, 28), the control unit (30) being suitable for receiving a respective measurement signal from the flow meters (22, 26) and for outputting a respective control signal to the valves (24, 28). Conveyor device according to claim 5, wherein a desired concentration of the mixed flow is adjustable in the control unit (30), and wherein the control unit (30) controls the valves (24, 28) on the basis of the measurement signals from the flow meters (22) 26) that a mixed flow with the set concentration is formed in the common discharge line (33). 15 Transport device according to claim 5 or 6, wherein the first valve (24) only has an open and closed position, and wherein the second valve (28) is adjustable between an open position and a closed position. A conveying device according to any one of claims 5-7, wherein the mixing system is provided with a mixing vessel (20), wherein the outflow line (9) of the tank (5) and the outlet line (15) of the water treatment device (10) open into the mixing vessel (20), and wherein the mixing vessel (20) has a discharge opening (32) to which the common discharge line (33) is connected. 25 Conveyor device according to claim 8, wherein a drain pump (35) is arranged in the common drain line (33), and wherein a detection means (36) for determining the liquid level is arranged in the mixing vessel (20), and wherein the control unit ( 30) is capable of receiving a signal from the detection means (36), and wherein the control unit (30) is adapted to adjust the pump power of the drain pump (35) for controlling the liquid level in the mixing vessel (20) ). 10271 1 0 Method for transporting a liquid, comprising: - providing a liquid transport device (1), such as a tank trailer, comprising a tank (5), - filling the tank (5) with a liquid to be transported at a departure point, 5. transporting the transport device (1) from the departure point to a destination point, - discharging liquid from the tank (5) at a destination point, characterized in that water is supplied to a water treatment device at the destination point (10) of the conveying device (1), that contaminants 10 are removed from the supplied water, that the treated water is discharged from the water treatment device (10), and that the liquid discharged from the tank (5) and the treated water are mixed . 11. A method according to claim 10, wherein the contaminants are removed from the supplied water by performing reverse osmosis. 12. Method according to claim 10 or 11, wherein to the water supplied to the water treatment device (10) a substance is added which causes flocculation by a chemical reaction with contaminants in said water. 13. Method according to any of claims 10-12, wherein the mass flow of the treated water and the mass flow of the liquid are each measured and supplied to a control unit (30), and wherein the mass flow of the treated water and the mass flow of the liquid are each controlled by that control unit (30). 14. Method as claimed in claim 13, wherein a desired concentration of the mixed flow is set in the control unit (30), and wherein the control unit (30) controls the mass flow of the treated water and the mass flow of the liquid such that the tank (5) discharged liquid and the treated water are mixed in the set concentration. 10271 1 0 • A method according to claim 13 or 14, wherein the treated waters and the liquid are each supplied to a mixing vessel (20), and wherein these are discharged mixed from the mixing vessel (20). A method according to claim 15, wherein the liquid level in the mixing vessel (20) is determined by a detection means (36), and wherein the discharge speed of the discharged mixture of the treated water is controlled by a drain pump (35) based on this liquid level . 10271 1 0