EP2207614A1

EP2207614A1 - Arrangement and process for providing a liquid mixture which is preferably variable with time

Info

Publication number: EP2207614A1
Application number: EP08843040A
Authority: EP
Inventors: Sebastian BÖCKER; Sascha Kolanos; Hendrik Schmale; Frank Behrendt; Christian Pickert
Original assignee: Bayer Technology Services GmbH
Current assignee: Bayer AG
Priority date: 2007-10-18
Filing date: 2008-10-07
Publication date: 2010-07-21
Also published as: DE102007050335A1; WO2009052943A1

Abstract

The invention relates to an arrangement and to a process for providing a liquid mixture, which is preferably variable with time, of at least two liquids, comprising at least two feed lines (1, 2) each for feeding in one of the liquids, each feed line (1, 2) being provided with at least one regulating valve (4, 5) for adjusting the flow of the particular liquid fed in, and comprising a pump (11), the feed lines being combined to a single pump feed line (12) and the pump feed line (12) being conducted to a suction-side connection of the pump (11). According to the invention, for the combination of the feed lines (1, 2) to the pump line (12), a mixing vessel (3) is provided, to which the two feed lines (1, 2) are fed and from which the pump feed line (12) leads away. In this way, it is possible in a reliable manner to achieve, for example, a chromatographic separation in a low-pressure gradient method.

Description

Arrangement and method for providing a preferably time-variable liquid mixture

The invention relates to an arrangement for providing a preferably time-varying liquid mixture of at least two liquids, with at least two supply lines for each supplying one of the liquids, each supply line is provided with at least one control valve for adjusting the supplied flow of the respective liquid, and with a Pump, wherein the supply lines are combined on a common pump supply line and the pump supply is guided to a suction-side connection of the pump. The invention further relates to a method for providing a preferably temporally variable liquid mixture of at least two liquids.

The provision of time-varying liquid mixtures is z. As required in chromatography. In chromatography, the so-called gradient procedure is frequently used, in which at least two solvents or solvent mixtures having a composition that changes with time are mixed with one another and conveyed to a chromatography column. In this way, depending on the separation problem, an improved separation result or a shortening of the retention time can be achieved.

When using two solvents or solvent mixtures, this z. B. can be achieved with the help of two pumps, the one pump which promotes a solvent or solvent mixture and the other pump the other solvent or solvent mixture. The two streams of the various solvents or solvent mixtures are combined on the high pressure side of the pump and mixed and then transported to the chromatography column. By a corresponding adjustment and change in the pump power of the two pumps can thus be generated a solvent mixture that changes in time defined in its composition. In such a procedure one speaks of the so-called high-pressure gradient mode of operation.

If it is necessary to combine more than two solvents or solvent mixtures, the so-called low-pressure gradient procedure is suitable. In this procedure, the gradient described above is generated only by a single pump by the streams of solvent or solvent mixtures on the suction side of the pump are combined and mixed in time-varying composition. The Niederdruckgradientenfahrweise is thus easier and less expensive to implement than the Hochdruckgradientenfahrweise, since only a common pump is required. For the low-pressure gradient mode, control valves and mass flow meters are generally provided in the supply lines. These are used to set the inflow of the solvents or solvent mixtures in the supply lines. Since the control valves and mass flow meters generate a pressure loss on the suction side of the pump, a certain minimum pre-pressure must be present on the supply lines in order to avoid cavitation of the pump. It has also been shown that it can happen when adjusting the control valves in the context of a gradient mode that the sum of the Offhungsflächen the control valves by a deviation or inertia of the system is too small This can also lead to cavitation of the pump. Thus, it is necessary that the control valves are very accurate and also react very quickly.

In practice, however, it has been shown that conventional control valves can not sufficiently satisfy these high requirements, so that optimum operation in a low-pressure gradient mode of operation can not be achieved. In addition, it has been observed that the supply lines "communicate" with each other when they are connected to each other via the pump supply line, which means that it can not be ruled out that currents can also be present in the supply lines leading away from the pump

Thus, it is the object of the invention to provide such an arrangement for providing a preferably time-varying liquid mixture or such a method for providing a preferably time-varying liquid mixture, with or with which a verlässhcher and trouble-free operation can be achieved, especially at use for low pressure gradient chromatographic separation.

Based on the arrangement described above, this object is achieved in that for merging the leads to the pumping line, a mixing container is provided, which the two supply lines are supplied and from which the pump supply line is discharged

According to the invention, it is thus provided to decouple the control valves and the pump with the aid of the mixing container. Figuratively speaking, this means that it is no longer "sucked" by the control valves, but rather by the mixing tank, which means that the mixing bowl is practically a buffer area in front of the control valves.

Based on the method described above for providing a preferably time-varying liquid mixture, the above-described object is achieved in that a mixing container is provided to which the liquids are supplied and from which the liquid mixture is fed to a suction-side connection of a pump. The device according to the invention and the method according to the invention thus make possible an operating mode in which an additional "hold up" volume is introduced with the aid of the mixing vessel, which leads to an additional residence time of the liquid mixture in the mixing vessel According to a preferred development of the invention, it can be provided from the mixing vessel that the liquid mixture continues to be conveyed, for example, to ensure the same residence time of the liquid mixture in the mixing vessel, so that the same process conditions prevail, even with different pumping capacities From the flow of the pump so a different "hold up" volume should be guaranteed in the mixing tank.

The pump used in the process according to the invention for providing a preferably time-varying liquid mixture preferably has at least the possibility of being regulated in respect of a flow signal taken off in it, in its suction-side supply line or in its discharge-side discharge. Particularly preferred is a pump which has a measuring device for Determining the flow includes and their flow in terms of a control at least in response to the signal of the measuring device hm adapts to the desired value

In accordance with a preferred development of the invention, it is provided in this connection that the hold-up volume varies between 10 and 100% of the maximum filling volume of the mixing container In addition, according to a preferred embodiment of the invention, such a regulation is provided which is at least one predetermined one However, a minimum residence time of preferably 3 seconds, preferably 6 seconds, most preferably 10 seconds, is provided for the retention time of the liquid mixture in the mixing container

In principle, the mixing container can follow different geometric shapes and configurations. According to a preferred embodiment of the invention, however, it is provided that the mixing container has a frusto-conical portion. Preferably, this frustoconical portion is designed such that its maximum or minimum filling essentially corresponds to the previously mentioned hold-up volume of 100%. In this way, a particularly compact mixing container, particularly a particularly short one, is achieved, since the shape of a truncated cone entails substantially lower differences in height in comparison to, for example, one exclusively tubular design of the mixing container. In principle, the mixing container can be oriented differently in its design with a truncated cone-shaped section in operation. According to a preferred embodiment of the invention, however, it is provided that the mixing container is oriented during operation in such a way that the frustoconical portion widens upwards. In this connection, according to a preferred embodiment of the invention, it is further provided that the supply lines for supplying the liquids to the mixing container are fed in an upper area. In particular, this z. Example, be realized in that the leads are felt through a flange, which practically forms an upper "lid" for the mixing container Furthermore, in this context according to a preferred embodiment of the invention provides that the pump line discharged from the mixing container in a lower region This can be realized, for example, such that the "bottom" of the mixing container is formed by a, typically smaller, flange. The pumping line can then be led away from the mixing container by the flange which forms the "bottom" a further flange mounted on the side of the lower portion of the outlet end of the frusto-conical mixing container If the discharge of the pumping line from the mixing container takes place through a flange forming the "bottom", the outlet can be in relation to the axis of symmetry of the Truncated cone staggered arrangement take place n, in order to create space for optionally at the "bottom" to be mounted Füllstandsmessemπchtungen Preferred are arrangements with only one flange, which is particularly preferably located on the "bottom" of the mixing bowl

As already mentioned, the mixing container acts practically as a decoupling of the pump from the control valves. In this connection, according to a preferred development of the invention, it is provided that the mixing container is vented, preferably vented upwards. Thus, the mixing container is depressurized and cavitation of the pump is avoided by the decoupling achieved thereby. As already mentioned above, this means that the control valves are no longer "sucked" so that a better adjustability of the control valves is achieved. Overall, this results in improved performance when used, for example, for a chromatographic separation

In principle, the operation of the arrangement according to the invention or the use of the method according to the invention without level measurement in the mixing container is possible. According to a preferred development of the invention, however, provision is made for providing at least one level measuring device in the mixing container. The inventive method thus thus includes a level measurement of the liquid mixture in Mischbehalter means of at least one Füllstandsmesseinπchtung. Thus, a "overflow" and / or a "run-empty" of the mixing container can be avoided by appropriate regulation. The level measurement can be carried out continuously borrowed and / or by discontinuous procedures such as an input and / or Multi-point full-level measurement can be realized with at least one upper and / or at least one lower limit switch.

According to a preferred embodiment of the invention, the filling level measurement is carried out continuously, z B by a continuous level measurement, which is characterized by a arranged as a bypass level measuring tube, or by a continuous level measurement, which directly determines the level of the mixing container by mounting a level sensor on the mixing vessel , so that both arrangements output a continuous signal with respect to the level.

The continuous level measurement is preferred because a continuous signal in the sense of a later-to-use control mechanism allows a high setting accuracy and control speed. In this context, the speed describes the rate of approximation of an actual value determined by a measuring device, eg a foot-mounted measuring device, to one Target value, which is specified as a value and / or obtained by another measuring device after suitable conversion, by changing another process parameter.

As a level sensor for mounting on the mixing container for the direct determination of the level of the mixing container can be e.g. horizontally upward ultrasonic sensors mounted on the "bottom" of the mixing vessel, pressure sensors mounted on the "bottom" of the mixing vessel, or inductive sensors using a float. Preference is given to the "bottom" of the mixing container mounted, horizontally upwardly directed ultrasonic sensors.

In a likewise preferred development of the invention, the level measurement is carried out by means of two one-point level measuring devices in the form of a two-point level measurement Here, the one-point Füllstandsmesseinnchtung is vertically above the other one-point level measuring device in and / or on the mixing container. The one-point Fullstandsmesseinπchtungen give a binary signal on the presence of liquid in one of their vertical orientation on the mixing vessel corresponding horizontal level So "overflow" and "emptying" of Mischbehalters be avoided by appropriate regulation.

The two-point level measurement is preferred because, compared to the continuous floor level measurement, it achieves less setting accuracy and control speed, but is economically advantageous due to the simpler embodiment of the level measuring devices A particularly preferred development of the invention combines a one-point level measurement to avoid "overflow" with a continuous level measurement.

In principle, different control mechanisms are possible in the arrangement or the method for providing the preferably time-variable liquid mixture. GE measure a preferred embodiment of the invention can, for. B. be provided that at least one of the control valves of the supply lines in each case depending on the signal or the signals from the at least one level measuring device continuously and / or discontinuously change the inflow.

A continuous change of the inflow through at least one of the control valves in the present case comprises the continuous adjustment of the volume and / or mass flow through at least one of the control valves, e.g. by continuously changing the free flow cross section in the control valve, as a function of continuous and / or binary signals of the at least one fill level measuring device.

A discontinuous change of the inflow through at least one of the control valves comprises in the present case the binary adjustment of the volume and / or mass flow through at least one of the control valves by m dependence of continuous and / or binary signals of at least one level measuring device at least one of the control valves Switches between two flow settings, so that a flow results from the time average of the two flow settings. A non-exhaustive example of this is switching between the open and closed states of at least one of the control valves so that a mean flow rate is proportional to the ratio of the open to the closed state.

It is also provided according to a preferred embodiment of the invention that the pump is additionally controlled in terms of their capacity in response to the detected by the at least one level measuring device level of the liquid mixture in the mixing vessel. This type of regulation of the volume and / or mass flow would be carried out by a person skilled in the art in terms of a feedforward control to the flow control of the pump.

According to a preferred embodiment of the invention may further be provided that the

Level of the liquid mixture in the mixing container is regulated by means of the control valves and / or the pump. Specifically, z. B. by means of the level measurement of the inflow of liquids via provided in the supply lines mass flow meter and control valves are regulated (Flow control), while in the outflow, the flow rate of the pump is controlled. Alternatively, a cascade control with level on flow-controlled pumps is possible.

The invention will be explained in detail below with reference to two preferred embodiments with reference to the drawing. In the drawing shows

Fig. 1 shows schematically an arrangement according to a first preferred embodiment of the invention for providing a preferably time-varying solvent mixture for a chromatographic separation process in Niederdruckgradientenfahrweise and

2 schematically shows an arrangement according to a second preferred embodiment of the invention for providing a time-varying solvent mixture for a low-pressure gradient-type chromatographic separation process.

FIG. 1 schematically shows an arrangement for providing a time-varying solvent mixture for a low-pressure gradient-type chromatographic separation process according to a first preferred exemplary embodiment of the invention. The two solvents are fed via two supply lines 1, 2 to a mixing container 3. In the supply lines 1, 2 are each a mass flow meter 4, 5 and a control valve 6, 7. In this way, the respective inflow of the various solvents can be adjusted in the mixing container 3.

The supply lines 2, 3 are passed through a lid flange 8 which closes the mixing container 3 at the top. In this way, the supply of the two solvents takes place in the mixing container from above. Through the cover flange 8, a venting tube 9 is also passed, so that a non-pressure mixing container 3 is achieved.

The mixing container 3 itself has a central portion 10, which follows substantially the shape of a truncated cone. In its lower part of the mixing container 3 is closed by means of a bottom flange 15, through which a leading to a pump 11 pumping line 12 is discharged. The pump supply line 12 is offset relative to the axis of symmetry of the mixing container, so that a level gauge 17 is also mounted and the pumping line 12 is connected saugsei tig to the pump 11 so that a required through the mixing container 3 through the solvent mixture by means of the pump 11 of a chromatography column 13 can be supplied. Depending on the desired control concept, the filling level meter may comprise an Em-point level measuring device, giving a binary signal, or a continuously operating level measuring device, giving a continuous signal.

The mixing container 3 further includes a level limit switch 14. This detects the maximum level of the solvent mixture in the mixing container 3, so that it can be ensured that the level reaches a maximum of the height of the level limit switch 14. In this way, overflow of the mixing container 3 can be reliably prevented. The "emptying" of the mixing container can be prevented by regulation according to the signal or the signals originating from the level gauge 17.

In the operation of this arrangement according to the first preferred embodiment of the invention, the procedure is now such that a predetermined residence time of the solvent mixture in the mixing container 3 is achieved by means of a suitable control method. The residence time in the mixing vessel 3 is preferably at least 10 seconds. Depending on the volume flow of the pump 11, which conveys the solvent mixture from the mixing vessel 3 to the chromatography column 13, it is preferable to ensure identical residence times in the mixing vessel 3, so that the same process conditions prevail even with different, adjusted pumping powers. This means that in each case a different "hold up" volume is present in the mixing container 3 as a function of the then predetermined nominal volume flow of the pump 11. With a pump delivery range of 10 to 100% of the pumping capacity, the hold up volume is thereby also between 10 and 100% of the maximum filling volume of the mixing container 3.

From Fig. 2, an arrangement for providing a time-varying solvent mixture according to a second preferred embodiment of the invention can be seen. In contrast to the first preferred embodiment of the invention described above, no level gauge 17 is provided on the bottom flange 15 of the mixing container 3, but it is provided in a bypass circuit, a level tube 16 with a level gauge 17. This construction as a filling tube 16 in bypass circuit has the advantage that fluctuations in the filling level in the mixing container 3, z. B. due to the supply of the two liquids are attenuated, so that in general a stable reading for the level can be determined. For further security against overflow, faulty measurement by level gauge 17 or operation of the level tube 16 (eg by blistering) a level limit switch 14 is still provided.

In the presently described second preferred embodiment of the invention, but also in the first preferred embodiment of the invention, various control mechanisms are possible: Accordingly, the level measurement described above not only ensures that the mixing container 3 is not empty or overflow, but at the same time the control of Inflow of the solvents via the mass flow meters 4, 5 and the control valves 6, 7. In the outflow, the delivery rate of the pump 11 is controlled by a flow measurement in the pump. Alternatively, a disturbance size switching by the level on the flow-controlled pump 11 is possible, as previously mentioned.

As a result, a reliable realization of the low-pressure gradient references in liquid chromatography is made possible, although other uses are conceivable. Namely, the invention can be used in particular whenever a liquid mixture which is variable in time, in particular, is to be realized with only a single pump. Experiments have shown that with the device according to the invention and the method according to the invention up to a quaternary gradient can be implemented in a reliable manner. In principle, however, the invention can of course be used for any number of leads to the mixing vessel.

Claims

claims

1. Arrangement for providing a preferably time-variable liquid mixture of at least two liquids, with at least two supply lines (1, 2) for each supply of one of the liquids, each supply line (1, 2) each having at least one control valve (4, 5) for Setting the assigned

Flow of the respective liquid is provided, and with a pump (11), wherein the supply lines (1, 2) are combined on a common pump supply line (12) and the pump supply line (12) is guided to a suction-side connection of the pump (11), characterized in that for merging the supply lines (1, 2) on the pumping line (12) a mixing container (3) is provided, which the two supply lines (1, 2) are supplied and from which the pump supply line (12) is discharged.

2. Arrangement according to claim 1, characterized in that the mixing container (3) has a truncated cone-shaped portion.

3. Arrangement according to claim 2, characterized in that the mixing container (3) is provided for such orientation during operation, in which the frusto-conical portion widens upwards.

4. Arrangement according to claim 3, characterized in that the supply lines (1, 2) are fed to the mixing container (12) in an upper region.

5. Arrangement according to claim 3 or 4, characterized in that the pumping line (12) is discharged from the mixing container (3) in a lower region.

6. Arrangement according to one of claims 1 to 5, characterized in that the mixing container (3) is vented, preferably upwards.

7. Arrangement according to one of claims 1 to 6, characterized in that in the mixing container (3) a level measuring device is provided.

8. Arrangement according to claim 7, characterized in that the control valves (4, 5) of the supply lines (1, 2) in each case depending on the of the filling level measuring device detected level of the liquid mixture in the mixing vessel (3) can be controlled.

9. Arrangement according to claim 7 or 8, characterized in that the pump (11) in terms of their delivery rate in dependence on the detected by the level measuring device level of the liquid mixture in the mixing vessel (3) is controllable.

10. Arrangement according to one of claims 7 to 9, characterized in that the level of the liquid mixture in the mixing container (3) by means of the control valves (4, 5) and / or the pump (11) is adjustable.

11. A method for providing a preferably time-varying liquid mixture of at least two liquids, in particular by means of an arrangement according to one of claims 1 to 10, characterized in that a mixing container (3) is provided, to which the liquids are supplied and from which the liquid mixture on a suction-side connection of a pump (11) is guided.

12. The method according to claim 11, characterized in that the level of the liquid mixture in the mixing container (3) is measured.

13. The method according to claim 12, characterized in that the Zufiuss the liquids in dependence on the detected by the level measuring device level of the liquid mixture in the mixing vessel (3) is controlled.

14. The method according to claim 12 or 13, characterized in that the pump (11) is controlled in terms of their delivery rate in dependence on the detected by the level measuring device level of the liquid mixture in the mixing container (3).

15. The method according to any one of claims 12 to 14, characterized in that the level of the liquid mixture in the mixing container by means of the Zufiuss the fluid adjusting control valves (4, 5) and / or the pump (11) is regulated.

16. The method according to any one of claims 11 to 15, characterized in that such a regulation is provided which ensures a predetermined minimum residence time, preferably a predetermined residence time, of the liquid mixture in the mixing container (3).

17. The method according to claim 16, characterized in that a minimum residence time of 3 seconds, preferably 6 seconds and most preferably 10 seconds is provided.

18. The method according to any one of claims 11 to 17, characterized in that such a regulation is provided, the change of the "hold up" - volume in the mixing container (3) between 10 and 100% of the maximum filling volume of

Mixing container allows.

19. Use of an arrangement according to one of claims 1 to 10 or / and a method according to any one of claims 11 to 18 for the provision of a, preferably time-varying, solvent mixture for chromatographic separation see, preferably in Niederdruckgradientenfahrweise.