NL2012105C2 - METHOD FOR PUMPING A LIQUID, A PUMP DEVICE AND AN INSTALLATION - Google Patents

Abstract

A method for pumping a liquid (121) with a pumping device (110) which comprises an inlet (215), an outlet (216) and chamber (214), wherein by means of the pumping device (110) liquid (121) to be pumped is introduced portion wise into the chamber (214) via the inlet (215) for liquid to be pumped and is discharged from the chamber (214) via the outlet (216). Herewith the method comprises the following steps: - introducing a gas into the chamber (214) that contains the liquid (121) to be pumped, - discharging the liquid (121) from the chamber (214) by the gas that is in contact with the liquid (121) to be pumped via the outlet (216), and - allowing the liquid (121) to be pumped to flow into the chamber (214) under the influence of gravity and allowing the gas introduced into the chamber (214) to flow out of the chamber (214), via two routes.

Description

Method for pumping a liquid, a pumping device, and an installation

The present invention relates to a method for pumping a liquid with a pumping device, which pumping device comprises - a chamber which - an inlet for the liquid to be pumped, and - an outlet for pumped liquid; and - comprises at least 1 element for determining the flow direction through the pumping device; and for pumping the liquid - in a state in which the inlet for the liquid to be pumped is in fluid communication with liquid to be pumped outside the chamber is introduced into the chamber through the pump device by means of pumped liquid through the inlet for the pumped liquid and - liquid introduced into the chamber is discharged from the chamber via the pumped liquid outlet, wherein the chamber of the pumping device comprises an inlet for supplying a gas to the chamber, wherein the gas via - a gas pipe, and - the said inlet is fed to the chamber, and the pumping device comprises an annealing outlet for relieving the gas pressure in the gas line; the method comprising the steps of: - introducing the gas into the chamber containing liquid to be pumped, - discharging the liquid from the chamber with the gas in contact with the liquid to be pumped via the outlet for the pumped liquid and - flowing fluid to be pumped into the chamber under the influence of gravity and thereby flowing gas introduced into the chamber out of the chamber.

A method according to the preamble is known in the art. The use of a diaphragm pump is particularly known for pumping aggressive substances. A known application of membrane pumps is in swimming pools where sodium hypochlorite (NaOCl) and an acid, for example sulfuric acid, are added to the swimming water for the disinfection thereof. In a diaphragm pump, a diaphragm provides a separation between the driving parts of the diaphragm pump and the fluid to be pumped.

Despite its simplicity, a diaphragm pump nevertheless requires maintenance, in particular the diaphragm, during which the person performing the maintenance and / or the diaphragm pump is exposed to the aggressive liquid. Or, the diaphragm pump must first be cleaned, for example by rinsing with water. The latter takes time, and also does not work properly when the diaphragm pump, for example the diaphragm itself, is broken. Leakage of the membrane can lead to exposure of mechanical and / or electronic parts to the liquid to be pumped, which is undesirable, certainly with aggressive liquids.

A method according to the preamble is known from DE 100 17 241.

With the known method, the use of a membrane can be avoided. Because gas is only blown into the chamber, and is not sucked, it can be effectively avoided that liquid to be pumped or pumped reaches mechanical and / or electronic parts used for supplying gas. Maintenance of these parts can be carried out with increased safety for the fitter.

A method according to the preamble is known from DE 100 17 241.

The present application aims to provide a method in which the chamber is filled quickly.

To this end, a method according to the preamble is characterized in that a pumping device is used as the pumping device in which - the gas pipe is connected to a discharge outlet for relieving the gas pressure in the gas pipe, and - the chamber has a gas outlet which can be closed with a passive valve which comprises an element which can release the gas outlet under the influence of gravity.

Thus, when the supply of air to the chamber stops, the air pressure in the chamber can drop, so that liquid to be pumped is introduced into the chamber under the influence of gravity (communicating vessels). The annealing outlet has, for example, the shape of a small hole in the gas line, through which gas can only slowly escape. A commercially available blow-off valve can also be used instead, advantageously an adjustable blow-off valve. In principle, a controlled valve can also be used in the method according to the invention for releasing the air pressure in the chamber, but a malfunction in this valve can lead to an undesirable situation and / or lead to more maintenance costs.

When the pressure in the chamber falls back, the element will open the valve under the influence of gravity, so that air can be easily discharged and liquid can be pumped again more quickly. The element is, for example, in the form of a hinged plate, which closes in case the air pressure difference across the valve exceeds a preselected value.

The pumping device is, for example, and preferably, in a storage vessel of the liquid to be pumped, most preferably at its lowest point. In the latter case, the fluid inlet may, if possible, introduce fluid into the chamber. The gas can be an inert gas such as nitrogen, but for many applications, air will be excellent. In the method according to the invention, the gas is supplied, for example, by a compressor or from a vessel kept under pressure by a compressor. At the time of pumping, the outlet for pumped liquid is lower than the liquid level and / or lower than the possibly present top of the chamber. A one-way valve can be used to determine the flow device. It is also conceivable to use a conduit with a bypass, which bypass is in the form of a loop that splits from the conduit with an end in the longitudinal direction, via a bend in a loop portion which with a transversal component in an upstream part of the conduit lead. With such a device, the flow resistance in one direction is greater than in the other direction. The pumping efficiency decreases, but the number of mechanical parts required for operating the pumping device also decreases.

A favorable aspect of the present invention is that a storage vessel for liquid to be pumped does not have to have a bore below liquid level. All pipes can be led into the storage tank from above, reducing the risk of leakage. A further advantage is that in the event that vapor or gas is easily released from the liquid to be pumped, a membrane pump suffers problems due to the presence of the gas, while this is not a problem in the present invention.

Through the gas line, when the supply of air to the chamber stops, the air pressure in the chamber can drop, so that liquid to be pumped is introduced into the chamber under the influence of gravity (communicating vessels). The annealing outlet has, for example, the shape of a small hole in the gas line, through which gas can only slowly escape. A commercially available blow-off valve can also be used instead, advantageously an adjustable blow-off valve. In principle, a controlled valve can also be used in the method according to the invention for releasing the air pressure in the chamber, but a malfunction in this valve can lead to an undesirable situation and / or lead to more maintenance costs.

A favorable embodiment is characterized in that the supply of gas to the gas line is controlled via an electronically controlled valve.

Thus, by easily leaving the valve open for a desired time, liquid in the chamber can be discharged from the chamber. A single compressor can operate more pumping devices, something that is very simple with a controlled valve. A multi-way valve can also be used, in which case liquids are pumped one after the other.

A favorable embodiment is characterized in that if the valve is used a valve which as the element has an element which can close off the gas outlet by floating on the liquid to be pumped.

The weight of the element, which, for example, is in the form of a ball which is held captive within a cage and which is led to the opening to be closed when the liquid level in the chamber rises, will be selected depending on the size of the opening to be closed. sealed and the gas pressure in the chamber that is used to pump the fluid from the chamber.

A favorable embodiment is characterized in that the gas outlet is connected to a gas washer.

The method according to the invention is particularly suitable for pumping liquids from which a gas is released (such as an aqueous hypochlorite solution). The efficiency of diaphragm pumps decreases in the presence of gas in the diaphragm pump, especially at small flow rates. By using a gas washer, a gas released by the liquid (including liquid vapor) can be captured, which is particularly desirable if the gas is toxic, corrosive or otherwise undesirable. The gas outlet will usually be connected to the gas washer via a line.

A favorable embodiment is characterized in that the gas outlet above the liquid to be pumped opens into a liquid reservoir with the liquid to be pumped, and the liquid reservoir above the liquid to be pumped in the liquid reservoir is in communication with the gas washer.

The amount of air that is passed along the gas washer can thus be limited.

A favorable embodiment is characterized in that the outlet for pumped liquid is connected to a pressure relief valve.

Thus, only liquid is pumped at a known pressure difference across the pressure relief valve. The pressure relief valve will be selected in such a way that no leverage can take place. The pumping of the liquid can thus be better controlled.

The present invention also relates to a pumping device for pumping a liquid with a pumping device, which pumping device comprises - a chamber which - an inlet for the liquid to be pumped, and - an outlet for pumped liquid; and - comprises at least 1 element for determining the flow direction through the pumping device; wherein the chamber of the pumping device comprises an inlet for supplying a gas to the chamber; wherein the gas line is connected to a discharge outlet for relieving the gas pressure in the gas line; - the chamber has a gas outlet which can be closed with a passive valve which comprises an element which can release the gas outlet under the influence of gravity.

In every possible combination, preferred embodiments comprise the pumping device with measures according to the subclaims of the method. For example, the installation according to a possible embodiment comprises a gas washer.

Finally, the present invention relates to an installation which comprises a pumping device and a storage vessel, the pumping device being a pumping device according to one of the pumping device claims.

In particular, the inlet of the pumping device is connected to the interior of the storage vessel. Furthermore, there is a discharge channel for draining liquid, which discharge channel is connected to the outlet for pumped liquid. In every possible combination, preferred embodiments comprise the installation with measures according to the subclaims of the method. For example, the installation according to a possible embodiment comprises a gas washer. The installation will also include a gas source, such as a gas cylinder or a compressor.

The present invention will now be explained with reference to the drawing, in which

FIG. 1 shows a schematic sectional installation according to the invention; and

FIG. 2 shows a schematic section through a pumping device according to the invention.

FIG. 1 shows an installation 100 according to the invention, which comprises a pumping device 110, a storage vessel 120 and a control unit 130.

The control unit 130 comprises a valve 131 and a valve control unit 132 which electronically controls the valve 131 (opens for a desired time). Air is supplied under elevated pressure (e.g. 3 Bar) (e.g. from a compressor; not shown). Air is a great gas. For specialized purposes, for example in the chemical industry, a gas suitable for the specific purpose can be chosen, for example nitrogen if the presence of oxygen is undesirable.

Air passed through the valve 131 passes through a gas line 101 to the pumping device 110 which is shown in detail in FIG. 2 is shown and will be discussed there.

Liquid which has been displaced from the pumping device 110 by means of air supplied via the gas line 101 is discharged via the liquid discharge line 111. The liquid discharge line 111 may have an overpressure valve 112 in order to prevent the pumped liquid from being pumped into the liquid discharge line 111. The pressure relief valve 112 has a limit value of, for example, 0.2 Bar pressure.

After the valve 131, a discharge outlet 133 in the form of blow-off valve 133 is provided (EV1 / 4-360-010, Raminex, Utrecht, the Netherlands), through which air can gradually escape from the gas line 101 to the atmosphere. Gradually this means that the flow rate at a given pressure in the pumping device is smaller than with which air can be supplied via the control unit. An actively controlled annealing discharge would also be possible, but a passive system need not be controlled for which reason this is preferred.

The pumping device 110 is connected to a gas discharge line 113, via which air introduced into the pumping device 110 can be discharged. In the embodiment shown, the gas discharge line 113 flows into the top of the storage tank 120. Instead, the gas discharge line 113 could, for example, have been in direct communication with the atmosphere or via a gas washer in communication with the atmosphere.

The embodiment of the installation 100 shown here also comprises a gas washer 190, which is in gas communication with the upper space of the storage vessel 120. In principle, the pressure in the storage vessel 120 will be atmospheric, although it can also be operated under overpressure or underpressure, depending on of the desired application.

The storage vessel 120 is filled with liquid 121. If this liquid 121 releases toxic or otherwise undesirable vapors, these vapors are captured by the gas washer 190. An example of such a liquid is an aqueous sodium hypochlorite solution, such as is used for the treatment of water from a swimming pool.

FIG. 2 shows a schematic cross-section through a pumping device 110. This comprises a chamber 214, an inlet 215 for pumped liquid, an outlet 216 for pumped liquid 121 and valves 217, 217 'for closing off the inlet 215 and the outlet 216 during pumping of liquid from the chamber 214 by introducing air into the chamber 214 via the gas line 101. As a result, the liquid level in the chamber 214 falls. When the valve 131 is closed, the supply of air to the chamber 214 ends. air, causing the air pressure in the chamber 214 to fall. The valve 217 ', which has an element for closing in the form of a ball, will hereby open and air can be discharged more rapidly via the gas discharge line 113.

When the pressure in the chamber 214 has fallen sufficiently, the liquid pressure will lift the ball-shaped element from valve 217 and new liquid to be pumped flows into the chamber 214 again for a subsequent pumping cycle.

Claims (8)

Method for pumping a liquid (121) with a pumping device (110), which pumping device (110) - a chamber (214) which - an inlet (215) for the liquid to be pumped (121), and - an outlet (216) for pumped liquid (121); and - at least 1 element for determining the direction of flow by the pumping device (110); and for pumping the fluid (121) - in a state where the inlet (215) for the fluid to be pumped (121) is in fluid communication with fluid to be pumped outside the chamber (121) by means of the pumping device (110) pumped liquid (121) is introduced into the chamber (214) via the inlet (215) for the pumped liquid (121), and - liquid (121) introduced into the chamber (214) via the pumped liquid outlet (216) (121) is discharged from the chamber (214), wherein the chamber (214) of the pumping device (110) comprises an inlet (202) for supplying a gas to the chamber (214), wherein the gas via a gas line (101), and - said inlet (202) is fed to the chamber (214), and the pumping device (110) comprises a discharge outlet for relieving the gas pressure in the gas line (101); the method comprising the steps of: - introducing the gas into the chamber (214) containing fluid to be pumped, - bringing the gas into contact with the fluid to be pumped (121) via the outlet (216) for discharging the liquid (121) from the chamber (214) for the liquid to be pumped (121), and - allowing fluid to be pumped into the chamber (214) under the influence of gravity and thereby out of the chamber ( 214) flowing gas introduced into the chamber (214); characterized in that as the pumping device (110) a pumping device (110) is used wherein - the gas line (101) is in communication with a discharge outlet (133) for relieving the gas pressure in the gas line (101), and - the chamber (214) has a gas outlet (213) which can be closed with a passive valve (217 ') which comprises an element which can release the gas outlet (213) under the influence of gravity. The method of claim 1, wherein gas supply to the gas line (101) is controlled via an electronically controlled valve (131). Method according to claim 1 or 2, wherein a valve (217) is used as the valve (217) which has as the element an element which can close the gas outlet by floating on the liquid to be pumped (121). The method of any one of the preceding claims, wherein the gas outlet is in communication with a gas washer (190). The method of claim 4, wherein the gas outlet above the fluid to be pumped (121) flows into a fluid reservoir with the fluid to be pumped, and the fluid reservoir over the fluid to be pumped (121) in the fluid reservoir communicates with the gas washer (190). The method of any one of the preceding claims, wherein the pumped liquid outlet (216) is connected to a pressure relief valve (112). A pumping device (110) for pumping a liquid (121) with a pumping device (110), which pumping device (110) - a chamber (214) which - an inlet (215) for the liquid to be pumped (121), and - an outlet (216) for pumped liquid (121); and - at least 1 element for determining the direction of flow by the pumping device (110); wherein the chamber (214) of the pumping device (110) comprises an inlet for supplying a gas to the chamber (214); characterized in that - the gas line (101) is in communication with a discharge outlet (133) for relieving the gas pressure in the gas line (101); - the chamber (214) has a gas outlet which can be closed with a passive valve (217) which comprises an element which can release the gas outlet (213) under the influence of gravity. An installation (100) comprising a pumping device (110) and a storage vessel (120), the pumping device (110) being a pumping device (110) according to one of the pumping device claims.