JP7215565B2 - Solvent consumption management system - Google Patents

Description

The present invention relates to a solvent usage management device in a liquid chromatography analysis system.

Various solvents are used as mobile phases in liquid chromatography analysis. In particular, a large amount of solvent is used in preparative applications in which separated sample components are fractionated and collected. Managing the remaining amount of solvent in the analysis system is important for efficient ordering of solvents and reduction of downtime due to depletion of the mobile phase. Therefore, it has been proposed to manage how much mobile phase is used by monitoring the state of a switching valve and the operation of a liquid transfer pump in an analysis system (see Patent Document 1).

JP 2015-194434 A

Solvents used as mobile phases in liquid chromatography analysis include organic solvents such as methanol and acetonitrile. Considering the impact on the environment, it is desirable that the consumption of these organic solvents be appropriately controlled. With the technique disclosed in Patent Document 1, it is not possible to manage how much specific solvents such as methanol and acetonitrile are consumed in total.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to appropriately manage the consumption of an organic solvent.

The solvent consumption management system according to the present invention is a liquid that injects a sample into an analysis channel through which a mobile phase flows, separates the sample into components by a separation column provided on the analysis channel, and performs chromatographic analysis. A solvent consumption management system network-connected to a chromatography analysis system for managing solvent consumption in the liquid chromatography analysis system, wherein Obtain composition information on the composition of the solution used as the mobile phase from the management device that manages the liquid chromatography analysis system, and obtain the composition information and the remaining amount by the remaining amount meter A solvent consumption calculator configured to individually calculate the consumption of a solvent containing at least an organic solvent among the solvents forming the solution, using the detected remaining amount of the solution.

The solvent consumption management system according to the present invention uses the composition information of the solution used as the mobile phase and the remaining amount of the solution detected by the remaining amount of the solution. Since the solvent consumption calculator is configured to individually calculate the consumption of the organic solvent, it is possible to appropriately manage the consumption of the organic solvent in the liquid chromatography analysis system.

1 is a schematic configuration diagram showing an example of a solvent consumption management system that manages solvent consumption in a plurality of liquid chromatography analysis systems; FIG. 1 is a schematic configuration diagram showing an embodiment of a solvent consumption management system that manages solvent consumption of a plurality of liquid chromatography analysis systems arranged in the same area; FIG. 4 is a flow chart showing an example of a consumption amount management operation of each solvent.

Hereinafter, an embodiment of a solvent consumption management system for a liquid chromatography analysis system will be described with reference to the drawings.

The solvent consumption management system 2 is realized by a computer network-connected to a plurality of liquid chromatography analysis systems (hereinafter referred to as analysis systems) 10-1 to 10-n via a network line such as the Internet line. be.

Each analysis system 10-1 to 10-n injects a sample into an analysis channel through which a mobile phase flows, separates the injected sample with a separation column provided on the analysis channel, and performs chromatographic analysis. system. Each analysis system 10-1 to 10-n contains elements such as a liquid-sending pump, an autosampler, a separation column, and a detector (both not shown), as well as a solution sent as a mobile phase by the liquid-sending pump. A container 18, a remaining amount gauge 12 for detecting the remaining amount of the solution in the container 18, a system controller 14 for controlling the operation of the liquid transfer pump, the autosampler, the separation column, and the detector, and communicably connected to the system controller 14. A management device 16 is provided.

In FIG. 1, each analysis system 10-1 to 10-n is depicted as having four fuel gauges 12 and four containers 18, but any number of fuel gauges 12 and containers 18 may be used. , may vary from analysis system to analysis system. In this embodiment, the remaining amount gauge 12 is a weight sensor for measuring the weight of the container 18, but any sensor that can measure the remaining amount of solution in the container 18 may be used. A signal from each remaining amount meter 12 is taken into the solvent consumption management system 2 via the system controller 14 and the management device 16 . The management device 16 is implemented by a computer circuit including a central processing unit (CPU), a storage device, and the like.

A composition information storage unit 20 is provided in the management device 16 of each of the analysis systems 10-1 to 10-n. The composition information storage unit 20 is a storage area that stores information about the composition of the solution contained in each container 18 . A user of each analysis system 10-1 to 10-n inputs information on the composition of the solution in the container 18 placed on the remaining amount gauge 12 to the management device 16. FIG. The composition information of the solution in the container 18 input by the user is stored in the composition information storage unit 20 .

The solvent consumption management system 2 includes a solvent consumption calculator 4 and an accumulation period setting unit 6 . The solvent consumption calculation unit 4 and the integration period setting unit 6 are functions obtained by the CPU of the solvent consumption management system 2 executing a predetermined program.

The solvent consumption calculation unit 4 obtains the composition information of each container 18 held in the composition information holding unit 20 of each analysis system 10-1 to 10-n and the composition information from each analysis system 10-1 to 10-n for a certain period of time. Using the signal of each remaining amount meter 12 captured at intervals, the consumption amount of each type of solvent in each analysis system 10-1 to 10-n is calculated, and integrated for each analysis system 10-1 to 10-n is configured to

The integration period setting unit 6 is configured to prompt the user to input a period (for example, one month) over which the consumption of each solvent should be integrated, and to set the period input by the user as the integration period. The solvent consumption calculation unit 4 is configured to integrate the consumption of each solvent for the integration period set by the integration period setting unit 6 .

The amount of solution consumed in each container 18 of each analysis system 10-1 to 10-n can be obtained from the difference between the current signal value and the previous signal value of the remaining amount gauge 12. FIG. When the composition of the solution in a certain container 18 is acetonitrile: water = 8: 2, the solvent consumption calculation unit 4 multiplies the consumption of the solution by the composition ratio 0.8 to obtain the consumption of acetonitrile, The consumption of water is obtained by multiplying the consumption of the solution by the composition ratio of 0.2. Note that the solvent consumption calculator 4 does not necessarily need to calculate the consumption of water, and may be configured to calculate only the consumption of organic solvents such as methanol and acetonitrile.

Also, as shown in FIG. 2, a plurality of analysis systems 10-1, 10-2 may be installed in a common area 100 (eg, a laboratory) and may be controlled by a common management device 16'. It is managed comprehensively. The management device 16' has a composition information holding unit 20' that holds the composition information of the solution in the container 18 provided in each of the analysis systems 10-1 and 10-2 managed by the management device 16'. be provided.

In the above case, the solvent consumption management system 2 receives signals from the remaining amount gauges 12 of the analysis systems 10-1 and 10-2 via the system controller 14 and the management device 16'. The solvent consumption calculation unit 4 of the solvent consumption management system 2 receives signals from the remaining amount gauges 12 and the composition information held in the composition information holding unit 20' via the management device 16' at regular intervals. are used to calculate the consumption of each solvent in each of the analysis systems 10-1 and 10-2, and are integrated for a certain period of time.

In addition, the solvent consumption calculation unit 4 adds up the consumption of solvents in the analysis systems 10-1 and 10-2 managed by the common management device 16' for each type of solvent, and may be configured to calculate the consumption of each solvent of By doing so, the amount of organic solvent discharged in units of area 100 can be comprehensively managed in the solvent consumption management system 2 .

Although FIG. 2 shows a configuration in which two analysis systems 10-1 and 10-2 are managed by a shared management device 16', an analysis system managed by a common management device 16' Any number of units may be used.

The operation of managing the solvent consumption in the embodiment shown in FIGS. 1 and 2 will be described below with reference to the flow chart of FIG.

The solvent consumption management system 2 receives signals from the remaining amount gauges 12 of the analysis systems 10-1 to 10-n at regular intervals. At a predetermined timing (step 101), the signal of the remaining amount gauge 12 of each analysis system 10-1 to 10-n is taken into the solvent consumption management system 2 (step 102). The solvent consumption calculation unit 4 obtains the difference between the signal value of each remaining amount gauge 12 captured this time and the signal value of each remaining amount gauge 12 captured last time, and calculates the amount of change in the remaining amount of the solution in each container 18. (step 103). The determined amount of change is the amount of consumption of the solution in each container 18 . The solvent consumption calculation unit 4 multiplies the amount of change by the composition ratio of each solvent in each solution to obtain the consumption of each solvent (step 104), and integrates the consumption obtained for each solvent individually ( step 105).

Here, as shown in FIG. 2, when a plurality of analysis systems are centrally managed by a common management device 16' in a certain area 100, the area 100 is managed by the management device 16'. The consumption of each solvent for each area 100 may be obtained by adding up the consumption of each solvent in a plurality of analysis systems.

The examples described above are merely examples of embodiments of the solvent consumption management system according to the present invention. Embodiments of the solvent consumption management system according to the present invention are as follows.

In an embodiment of the solvent consumption management system (2) according to the present invention, a sample is injected into an analysis channel through which a mobile phase flows, and the sample is separated into components by a separation column provided on the analysis channel. A solvent consumption amount that is network-connected to a liquid chromatography analysis system (10-1 to 10-n) that performs chromatography analysis and that manages the solvent consumption in the liquid chromatography analysis system (10-1 to 10-n). A management system (2), wherein the liquid chromatography analysis system (10-1 to 10-n) includes a remaining amount meter (12) for detecting the remaining amount in a container (18) containing the solution. comprising, acquiring composition information on the composition of the solution used as the mobile phase from the management device (16; 16') that manages the liquid chromatography analysis system (10-1 to 10-n), and obtaining the composition information, and a solvent configured to individually calculate the consumption of a solvent containing at least an organic solvent among the solvents constituting the solution, using the remaining amount of the solution detected by the remaining amount meter (12). A consumption calculator (4) is provided.

In the first aspect of the above-described embodiment of the solvent consumption management device (2) according to the present invention, the solvent consumption calculation unit (4) calculates the remaining amount of the solution detected by the remaining amount meter per a certain period of time. is calculated from the amount of change in the amount of consumption per fixed time for each solvent, and the calculated consumption amount for each solvent is integrated for each solvent. With such an aspect, the consumption of each solvent within a certain period of time can be calculated.

In the first aspect, an integration period setting unit (6) configured to set an integration period of solvent consumption based on a user input is provided, and the solvent consumption calculation unit (4) sets the integration period. The consumption amount of each solvent may be integrated for the integration period set by the section (6). Then, the consumption of each solvent within a period desired by the user can be calculated.

In a second aspect of the above embodiment of the solvent consumption management device (2) according to the present invention, the remaining amount gauge (12) is a weight sensor for measuring the weight of the container (18).

In the third aspect of the above embodiment of the solvent consumption management device (2) according to the present invention, the solvent consumption management system is network-connected with a plurality of liquid chromatography analysis systems (10-1 to 10-n). The solvent consumption calculator (4) is configured to calculate the solvent consumption for each liquid chromatography analysis system (10-1 to 10-n). With this aspect, it is possible to individually manage the consumption of each solvent for a plurality of liquid chromatography analysis systems (10-1 to 10-n).

In the third aspect, the management device (16') comprehensively manages a plurality of liquid chromatography analysis systems (10-1, 10-2), and the solvent consumption calculation unit (4) may be configured to calculate the total solvent consumption in a plurality of liquid chromatography analysis systems (10-1, 10-2) managed by the management device (16'). By doing so, it is possible to manage the consumption of each solvent for each specific area (100) in which a plurality of liquid chromatography analysis systems (10-1, 10-2) are installed.

2 solvent consumption management system 4 solvent consumption calculation unit 6 integration period setting unit 10-1 to 10-n liquid chromatography analysis system 12 remaining amount gauge 14 system controller 16, 16' management device 18 container 20, 20' composition information holding part

Claims (6)

A sample is injected into an analysis channel through which a mobile phase flows, and a separation column provided on the analysis channel separates the sample into components and is network-connected to a liquid chromatography analysis system for performing chromatographic analysis. A solvent consumption management system for managing solvent consumption in a chromatography analysis system,
The liquid chromatography analysis system comprises a remaining amount meter for detecting the remaining amount in the container containing the solution used as the mobile phase ,
Obtaining composition information about the composition of the solution from a management device that manages the liquid chromatography analysis system, and using the composition information and the remaining amount of the solution detected by the remaining amount meter, the solution A solvent consumption calculation unit configured to individually calculate the consumption of a solvent containing at least an organic solvent among the solvents that compose the
The solvent consumption management system is networked with a plurality of liquid chromatography analysis systems,
The management device comprehensively manages a plurality of liquid chromatography analysis systems,
The solvent consumption management system, wherein the solvent consumption calculator is configured to calculate a total solvent consumption in a plurality of liquid chromatography analysis systems managed by the management device . The solvent consumption calculation unit calculates the consumption of each solvent per fixed time from the amount of change per fixed time in the remaining amount of the solution detected by the remaining amount meter, and calculates the calculated consumption of each solvent. 2. The solvent consumption management system of claim 1, configured to integrate for each solvent. an integration period setting unit configured to set an integration period for solvent consumption based on a user input;
3. The solvent consumption management system according to claim 2, wherein said solvent consumption calculation unit is configured to integrate the consumption of each solvent for the integration period set by said integration period setting unit. 2. The solvent consumption management system according to claim 1, wherein said remaining amount gauge is a weight sensor for measuring the weight of said container. 2. The solvent consumption management system according to claim 1, wherein the solvent consumption calculation unit is configured to calculate the consumption of the solvent for each liquid chromatography analysis system. 2. The solvent consumption management system according to claim 1, wherein said solvent consumption calculation unit is configured to calculate the consumption of each solvent for each area in which said liquid chromatography analysis system is installed .

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