JP2004518960A - Chromatography column assembly, chromatography cartridge and chromatography method - Google Patents

Abstract

A chromatography column assembly including a single-sided cartridge containing a sorbent, a column housing for receiving the cartridge, and a compression head for closing the cartridge. The cartridge 14 is disposed in an open end and a closed end, an introduction pipe 50 extending from the open end to the closed end of the cartridge housing 12, a cartridge housing 30 communicating with the introduction pipe 50, and an internal space of the cartridge housing 30. Containing sorbent. Filter elements 52, 64 can be located at opposite ends of the sorbent, respectively. The compression head 16 may include a flow distribution device 80 that provides fluid communication between the upper end of the cartridge 14 and the outlet 32.
[Effect] The used cartridge 14 can be disposed as a unit without the operator touching the dangerous substance.
[Selection diagram] Fig. 1

Description

[0001]
This application claims the benefit of US Provisional Application No. 60 / 266,338, filed February 2, 2001, which is incorporated herein by reference.
FIELD OF THE INVENTION
The present invention relates to chromatography columns, and more particularly to process chromatography columns having disposable cartridges, thereby limiting exposure of operators to hazardous materials.
[0002]
BACKGROUND OF THE INVENTION
Chromatography is a well-known method for the separation and analysis of mixtures of chemicals. The solvent stream containing the mixture differentially migrates each component of the mixture in a porous, insoluble chromatographic sorbent. Chromatography allows each component of a mixture of chemicals to be purified, separated and compared.
[0003]
A major part of a chromatography system is a chromatography column. Conventional chromatography columns typically include a tube or housing containing a chromatographic sorbent and having an inlet at one end and an outlet at the other end. The sorbent can be loaded into the column by pressure. The solvent containing the sample flows through the sorbent and is discharged from the outlet. The column can include a flow distribution device to facilitate uniform flow of the solvent through the sorbent. Examples of chromatography columns are disclosed in U.S. Pat. No. 4,582,608, filed on April 15, 1986 to Ritacco, and U.S. Pat. No. 4,737,292, issued to Ritacco et al.
[0004]
In some applications, chromatography columns are used to purify samples containing hazardous substances. After the purification process, the hazardous substances remain in the sorbent. Conventional columns are packed with a sorbent and the operator discards the contents after use. The operator is thus exposed to solvents and sorbents and to sorbents contaminated with potentially harmful chemicals after being used in the purification process. Such exposure is, of course, undesirable. This problem is particularly acute in the case of mass-produced chromatography columns.
[0005]
It is therefore desirable to provide a chromatography column that is easy to use and that limits operator exposure to hazardous substances.
[0006]
Summary of the Invention
According to a first aspect of the present invention, there is provided a chromatography column assembly. The chromatography column assembly comprises a chromatography-sorbent, a single-ended cartridge having an inlet, a column housing for receiving the cartridge, and a compression head for closing the cartridge, wherein the compression head comprises: Has an outlet.
[0007]
According to another aspect of the present invention, there is provided a chromatography cartridge. The chromatography cartridge has a cartridge housing having an open end and a closed end, an introduction tube extending from the open end of the cartridge housing toward the closed end, and a chromatography tube disposed at the closed end of the cartridge housing and communicated with the introduction tube. It comprises a flow distribution device and a chromatography sorbent located in the interior space of the cartridge housing.
[0008]
The cartridge may further have first and second filter elements located at opposite ends of the chromatography sorbent. The cartridge may be cylindrical and the inlet tube may be centrally located in the cartridge housing.
The chromatography column may further have one or more inflatable seals between the column housing and the cartridge. A liquid may be arranged between the column housing and the cartridge.
[0009]
The compression head can include a flow distribution device that provides fluid communication between the open end of the cartridge housing and the outlet. The compression head may further include a seal sealing the compression head to the cartridge housing and another seal sealing the compression head to the inlet tube.
According to another aspect of the present invention, there is provided a chromatography method. The chromatography method comprises the steps of providing a cartridge housing having an open end and a closed end for containing a chromatographic sorbent; flowing a solvent through an inlet tube toward the closed end of the cartridge housing; Distributing the solvent flow from the tubes over the closed end of the cartridge housing and flowing the solvent through the chromatography sorbent from the closed end to the open end of the cartridge housing. Solvent flow may be directed from the open end of the cartridge housing to the outlet.
[0010]
For ease of understanding the present invention, reference is made to the accompanying drawings.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
A chromatography column assembly 10 according to one embodiment of the present invention is shown in FIG. The chromatography column assembly 10 includes a column housing 12, a cartridge 14 located within the column housing 12, and a compression head 16. For easy understanding of the structure, the compression head 16 is shown pulled up above the cartridge 14. However, during use, the compression head 16 is sealed at the upper end of the cartridge 14, as described below. The structure shown in FIG. 1 is particularly suitable for large chromatography columns, but is not limited in size.
[0012]
Preferably, the chromatography column is cylindrical. The column housing 12 includes a relatively thick and rigid base 20 and a cylindrical side wall 22. The column housing 12 is made of, for example, stainless steel. The column housing 12 has an open upper end 24.
The cartridge 14 includes a cartridge housing 30 having a cylindrical side wall 32, a bottom wall 34 closing one end of the housing 30, and an open upper end 36. The cartridge housing 30 can be made of, for example, stainless steel or ultra-high molecular weight polyethylene and is dimensioned to form a space 40 between the side wall 22 of the housing 12 and the side wall 32 of the cartridge housing 30. Each of the column housing 12 and the cartridge housing 30 is open at only one end and has the shape of a barrel or drum.
[0013]
A sintered filter element 52 or frit and a flow distribution device 54 are located in the bottom cartridge housing 30 adjacent the bottom wall 34. An inlet tube 50 extends from just below the open upper end 36 of the cartridge housing 30 to the flow distribution device 54. The inlet tube 50 provides an inlet 48 for the cartridge 14. Preferably, the inlet tube 50 is located in the center of the cartridge housing 30. The filter element 52 is a sintered porous material having a desired porosity. Flow distributor 54 ensures a relatively uniform flow of solvent into the chromatographic sorbent. Filter elements and flow distribution devices for chromatography columns are known in the art, for example, as described in the aforementioned U.S. Pat. Nos. 4,582,608 and 4,737,292. A support plate 56 can be located between the bottom wall 34 of the cartridge housing 30 and the flow distribution device 54. The chromatography sorbent, such as silica gel, fills the internal space 60 of the cartridge housing 30 around the introduction tube 50. The filter element and holder 64 covers the top of the sorbent leaving sufficient space between the filter element and holder 64 and the open end 36 of the cartridge housing 30 to attach the compression head 16 as described below. Is possible. Filter element and holder 64 includes a central hole and seal of appropriate dimensions to fit and seal the inlet tube 50.
[0014]
The compression head 16 covers the upper end 36 of the cartridge housing 30 and is configured to compress the sorbent in the internal space 60. The compression head 16 includes a disk-shaped cover 70 having a seal 72 around its outer circumference. The cover 70 is dimensioned to fit inside and seal the upper end 36 of the cartridge housing 30. The cover 70 further includes a central opening 74 for receiving the inlet tube 50 and a seal 76 for forming a seal between the cover 70 and the inlet tube 50. Compression head 16 further includes a flow distribution device 80 mounted on the underside of cover 70. The flow distribution device 80 directs the flow of the solvent discharged through the filter element and the holder 64 to the outlet 82. The compression head 16 further includes a structure 86 that transmits a compression force, indicated by arrow 88, to the cover 70 to compress the sorbent in the interior space 69.
[0015]
The cartridge 14 is located within the column housing 12 and the compression head 16 is located within the upper end of the cartridge 14 and seals the upper end 36 of the cartridge housing 30. In particular, a seal is formed between the outer periphery of the cover 70 and the inner surface of the cartridge housing 30. The introduction tube 50 also extends through the opening 74 and is sealed with the cover 70. The inflatable seal 90 located near the top and bottom of the column housing 12 is activated, and a suitable liquid, such as water, is introduced into the space between the cartridge housing 30 and the column housing 12. This feature allows the cartridge 14 to operate without material fatigue, since the liquid is almost incompressible.
[0016]
During use, the sample to be purified and the solvent are introduced into the column through the inlet 48. The sample and solvent flow down through the inlet tube as indicated by arrow 92 to the lower end of the cartridge. The sample and solvent are dispensed over the closed end of cartridge 14 by flow dispenser 54 as indicated by arrow 93 and then flow upward through the chromatographic sorbent as indicated by arrow 94. The solvent passes through the filter element and holder 64 and is caused to flow by the flow distributor 80 toward the outlet 82. When the purification process is complete and the sorbent is spent, the compression head 16 is removed from the cartridge 14 and the cartridge 14 is removed from the column housing 12 and capped and disposed of appropriately. According to the configuration illustrated in FIG. 1 and described above, the chromatography column can be operated from one end, limiting exposure of the hazardous substance to the operator. Further, there is no need to remove the sorbent from the cartridge housing 30 and the cartridge 14 can be disposed of as a unit. After removing the used cartridge, a new cartridge 14 can be installed in the column housing 12.
[0017]
In one embodiment, the cartridge housing 30 is 45 cm inside diameter and 38 cm long, and thus can accommodate 35 kg of silica having a density of 0.6 grams per cubic cm. It will be understood that these dimensions are merely examples and do not limit the invention. Various other configurations and dimensions can be utilized within the scope of the present invention.
Various variations and modifications of the illustrated and described embodiments are possible within the spirit and scope of the invention. Accordingly, all content described above and shown in the accompanying drawings are intended to be illustrative and not limiting. The invention is limited only as defined in the following claims, and equivalents thereof.
[Brief description of the drawings]
FIG.
1 is a partially exploded sectional view of a chromatography column according to an embodiment of the present invention.

Claims (19)

A cartridge containing a chromatographic sorbent and having one end terminated with an inlet,
A column housing for receiving the cartridge,
A compression head for closing the cartridge, the compression head having an outlet. Wherein the cartridge is
A cartridge housing having an open end and a closed end;
An introduction pipe extending from the open end of the cartridge housing toward the closed end,
A flow distribution device disposed at the closed end of the cartridge housing and communicated with the introduction pipe;
The chromatography column assembly according to claim 1, wherein the chromatography sorbent is disposed within an interior space of the cartridge housing. 3. The chromatography column assembly according to claim 2, wherein said cartridge further comprises first and second filter elements located at opposite ends of said chromatography sorbent. The chromatography column assembly according to claim 1, further comprising one or more inflatable seals between the column housing and the cartridge. The chromatography column assembly according to claim 4, further comprising a liquid between the column housing and the cartridge. 3. The chromatography column assembly according to claim 2, wherein said compression head further comprises a flow distribution device for providing fluid communication between an open end of said cartridge housing and said outlet. 3. The chromatography column assembly according to claim 2, wherein said compression head further comprises a seal sealing said compression head to said cartridge housing. 3. The chromatography column assembly according to claim 2, wherein said compression head further comprises a seal sealing said compression head against said inlet. The chromatography column assembly according to claim 2, wherein the flow distribution device is configured to distribute a flow of solvent from the inlet over a closed end of the cartridge housing. A cartridge housing having an open end and a closed end;
An introduction pipe extending from the open end of the cartridge housing toward the closed end,
A flow distribution device disposed at a closed end of the cartridge housing and communicating with the introduction pipe;
A chromatography cartridge comprising a chromatography sorbent disposed in an internal space of the cartridge housing. The chromatography cartridge according to claim 10, further comprising first and second filter elements disposed at opposite ends of the chromatography sorbent. The chromatography cartridge according to claim 11, wherein the cartridge housing is made of stainless steel. The chromatography cartridge according to claim 11, wherein the cartridge housing is made of ultra high molecular weight polyethylene. The chromatography cartridge according to claim 11, wherein the cartridge housing has a cylindrical shape, and the introduction tube is disposed at the center of the cartridge housing. The chromatography cartridge of claim 11, further comprising a support plate disposed at a closed end of the cartridge housing and supporting one of the flow distribution device and the filter element. The chromatography cartridge of claim 10, wherein the flow distribution device is configured to dispense solvent from the inlet end onto a closed end of the cartridge housing. A cartridge housing containing the chromatography sorbent and having an open end and a closed end is provided,
Create a flow of solvent through the inlet tube towards the sealed end of the cartridge housing,
Distributing the flow of solvent through the inlet tube over the sealed end of the cartridge housing;
A chromatography method comprising flowing a solvent through a chromatography sorbent from a closed end to an open end of a cartridge housing. 18. The chromatography method of claim 17, further comprising directing a flow of solvent from an open end of the cartridge housing to an outlet. 18. The chromatography method according to claim 17, further comprising the step of compressing the chromatography sorbent.

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