NL8401558A - Device to take and analyse samples in or from closed reaction vessel - has tube with closable sampling space in reaction fluid and contg. changeable rod with micro-bore to micro-porous element at end in space - Google Patents

Abstract

The device is intended for taking and analysing samples of fluid in a closed reaction vessel during operation. It is secured in a short upwardly inclined connector stub arranged on the side wall of the vessel and comprises a tube of which the lower end extends into the reaction chamber. This lower end can be opened and closed by a disc carried by a stem which extends co-axially through the tube and can be moved up-and-down via a swivel lever against a spring arranged at the upper outer end of the tube. An interchangeable axial rod extending eccentrically through the tube contains a 0.2 mm diameter bore connecting to a small cavity at its lower end which contains a removable micro-porous element.

Description

-1- ''

Feature: 84-26 Int, Class .: C 07 B

G 01 N

Device for taking and examining samples of fluids during operation in closed reactor vessels.

Applicant: Gerrit Maarten Jansen, in Tilburg.

The invention relates to a device for taking and examining samples of fluids during operation in closed reactors.

In particular, but not exclusively, it serves to determine the properties of axenic solutions and suspensions during conversion and in bioreactors, such as fermentations and enzymatic reactions (online analysis).

There is a need for continuous and intermittent chemical and / or physical determinations at fixed times to monitor the progress of the reaction. Sterile operating conditions are often required, while certain parameters of pressure and temperature in the reactor must be maintained.

Microorganisms that participate in the reaction can interfere with the analysis, as can solid metabolites. Especially with small reactors it is required that the total volume of the reaction mixture will be influenced as little as possible by the sampling.

Since in the closed reactors different phases, which in addition are agitated by stirring or as a result of the conversion, occur, and changing temperatures and pressures have to be taken into account during the course of the reaction, taking samples yields the known wise problems.

The sample space and the components used for the measurements must remain sterile and aseptic, especially in biochemical reactions, and the taking and examination of samples, which takes place in situ or externally, must not affect the composition and parameters of the reaction. -'25 exercise fluids.

In Μϊ, Ρ.Ε., "Design and Applications of Process Aaalyzer Systems" (Wiley-Interscience, New York, 1984), sampling devices are described that allow samples to be taken for analysis during the reaction, but their positioning and construction does not provide 30 guarantee against sepsis, contamination or loss of homogeneity,

In Seiyama, T., "Chemical Sensors", Analytical Chemistry Symposia Series, 8401558 -2-

Vol.17 (Elsevier, Amsterdam-New York, 1983), various sensor systems have been described which convert the characteristic signal into a quantity that is measurable and displayed analog or digital.

However, these can often not be used in reactors as referred to herein, since a by-pass line then has to be used, which requires a pump and which can disturb the state of the reactants.

The search was on for a device with which all these drawbacks can be overcome and which is suitable for very different circumstances.

The main objectives were non-influence of the reactants and reproducibility of the results.

The device, as referred to in the preamble, is characterized according to the present invention by a short stub, which is placed obliquely upwards on the side wall of the reaction vessel, and in which a tube is fixed, the bottom end of which extends into the reaction chamber. which bottom end can be opened and closed by a bottom shaped like a flat circular valve, in that this bottom is extended by means of a stem which extends upwards in the axis of the tube and is attached to an externally hinged lever with cylindrical compression spring attached, can be moved up and down, while parallel to this stem, but centrally near the inner wall, an interchangeable rod with a precision bore of about 0.2 mm diameter extends in its centerline through the entire tube, which rod is attached to its bottom end has a small cavity, which is closed by a removable very fine filter material.

This bore rod serves either as a probe for taking the sample, which is drawn through the bore and passed to the analyzer, or as a sensor for taking measurements and converting it into a signal.

The hollow rod serving as a sensor or probe is interchangeable.

An identical rod may contain electrodes for pH measurement, redox determination, or polarography, or optical glass fiber for colorimetry or fluorescence analysis, where the light beam is passed through the fiber to the lenticular end and the secondary through a specular prism goes to the measuring instrument.

The entire sample space with valve and hollow bar enclosed by the bottom of the tube can be sterilized by steam or, if permissible, by a sterilizing agent such as methyl bromide or ethylene oxide, the sterilizing agent being parallel to the stem. of the valve and on. the hollow rod running feed tube 8401558 7- -s -3-% is introduced and is discharged through a parallel discharge tube.

The drain tube is connected for steam sterilization with a small condensate with thermodynamic control (bimetal element or valve).

With closed bottom valve, intermittent steam for sterilization of sample space and filter can be introduced, but purified compressed air can also be introduced, to pressurize a small sample volume through the filter and the bore of the probe rod into an external analyzer transport.

The upper part of the device has a larger external diameter than the tube and it comprises the lever, the cylindrical compression spring, seals by O-rings and the passageways for the stem of the bottom valve, the probe or sensor rod and for the supply of steam or compressed air or sterilizing agent and for its discharge, and it is closed by a cap with union nut.

The probe can also be used as a supply line for the sample to a high-pressure liquid chromatograph.

Since the equipment for the probe or sensor is interchangeable, these can be exchanged with the bottom flap closed / so that various analysis methods can be used in succession.

20 According to a program, the bottom flap can be opened and closed automatically by moving the lever in time intervals.

During the open phase, flow of the fluid occurs radially in the sample space, which is amplified by agitation in the reactor. The filter element in the underside of the hollow rod 25 is hereby kept free of solid particles and, for example, of anto-organisms.

The filter element consists of the filter holder with removable filter of microporous material, such as, for example, sinter steel, cellulose or synthetic fiber, which can be hydrophilic or hydrophobic, depending on the nature of the medium.

Properties of particular importance for monitoring and controlling chemical and bioprocesses, such as dissolved oxygen, acidity CpH), redox potential, cation and anion content, viscosity, etc. can be measured by means of the probe or sensor. small volume, which is located in the sample space (ca. 20ytol), can be periodically determined without disturbance of the processes in the reactor.

The data obtained can be processed on a connected computer.

Feedback can be used to automatically control the parameters of the process.

The parts of the device, with the exception of the filter, are preferably made of rust-resistant steel.

The invention also includes the application of the method with the aid of the described device. Examples are yeast processes, preparation of streptomycin, gas separation, desalination, etc.

The invention is further elucidated with reference to the annexed drawings.

Figure 1 shows a view of the tube being inserted into the stub seen from the side. (1) is the wall of the tube, (2) is the top part with closure lid (3), lateral connection (4) for the tube for steam, sterilizing agent or compressed air; (5) is the top protruding part of sensor or probe, (6) is the articulated lever. The lower part of the tube is mounted in a stub on the reactor (not shown) and extends into the reactor space.

Figure 2 shows a view from a position 90 ° different from the position of Figure 1.

The tube for supplying steam, sterilizing agent or compressed air is not visible here. The other position numbers have the same meaning as shown in figure 1.

Figure 3 shows a cross section of the tube without the wider upper part.

In this figure (1) is the wall of the tube and (5) is the top end of the sensor or probe; (7) is the bottom of the sample chamber, which acts as a valve and is attached to the ορ and down movable stem (8).

(9) is the supply and (10) the sterilant or compressed air discharge tube, (11) is the bore in the rod of sensor or probe; furthermore (12) is the small cavity at the bottom of this rod and (13) the fine filter material.

ψ (Conclusions).

3401558

Claims (7)

Device for taking and examining samples of fluids during operation in a closed reaction vessel, characterized in that a tube is fixed in a short stub, which is placed obliquely upwards on the side wall of the reaction vessel, the tube of which is the lower end 5 extends into the reaction space, which lower end can be opened by a bottom formed as a closed and flat circular valve, because this bottom extends upwards by means of a stem extending in the axis of the tube and is attached to an externally hinged lever with cylindrical compression spring, can be moved up and down, parallel to this stem, but centrally adjacent to the inner wall, an interchangeable rod with a precision bore of approximately 0.2 mm diameter in its centerline throughout tube, which rod has a small cavity at its lower end, which is closed by a removable very fine filter material. Device according to claim 1, characterized in that the bore rod serves as a probe for taking samples which are transported through the bore to an analysis device. 3. Device as claimed in claims 1 or 2, characterized in that the space within the tube is connected to a supply and an outlet tube for a sterilizing agent, for steam or compressed air. Device according to claims 1 and 3, characterized in that the exchangeable precision bore rod as sensor for analytical or evaluation determinations in situ is equipped with electrical or optical conducting means for conducting characteristic signals. 5. Apparatus for taking samples and examining them in situ or externally, characterized in that the apparatus comprises a tube (1) with an upper part (2) with closing lid (3), lateral connections (4) for sterilizing agents or compressed air inside the tube includes a centrally drilled rod (5), and at the top a hinged lever (6) 30 with an up and down movable stem (8) on a bottom valve (7). 6. Device according to claims 1-5, characterized in that the parts 8401558 * 'ν' -6- with the exception of the filter are made of rust-resistant steel. Method for determining properties of fluids in a closed reaction vessel, characterized in that an apparatus according to any one of claims 1-6 is used. (Figures). 9401558