EP0434723A1

EP0434723A1 - Flow control

Info

Publication number: EP0434723A1
Application number: EP19890910216
Authority: EP
Inventors: Lage Brodefors; Lars Irstam
Original assignee: Individual
Current assignee: Individual
Priority date: 1988-09-16
Filing date: 1989-09-15
Publication date: 1991-07-03
Also published as: WO1990002988A1; SE8803272L; SE464599B; SE8803272D0

Abstract

On peut produire, tout en utilisant des procédés de fabrication conventionnels, des corps poreux frittés faits de poudre compacte et ayant la forme de cylindres droits, qui présentent de très faibles variations de résistance à la circulation de liquides. L'invention prévoit de produire de tels corps en série, de sorte que, pour un fluide donné et pour une chute de pression donnée en amont du corps, on peut pré-établir un débit que l'on peut aisément réguler au moyen d'un dispositif simple de régulation de pression permettant de contrôler la chute de pression. L'appareil comprend un tube muni de dispositifs régulateurs de pression, un récipient pour le corps tel que décrit dans l'invention, et une série de corps qui présentant des résistances à la circulation différentes, permettant ainsi de fixer des écarts de débit différents dans le tube pour des fluides donnés. On décrit également un procédé permettant de fixer un débit précis, pour un fluide donné à une pression donnée, et l'utilisation de corps poreux bien définis permettant de fixer la pression désirée en régulant la chute de pression dans le corps.Sintered porous bodies made of compact powder in the form of straight cylinders can be produced, while using conventional manufacturing methods, which have very small variations in resistance to the circulation of liquids. The invention provides for producing such bodies in series, so that, for a given fluid and for a given pressure drop upstream of the body, it is possible to pre-establish a flow rate which can easily be regulated by means of a simple pressure regulation device for controlling the pressure drop. The apparatus comprises a tube fitted with pressure regulating devices, a container for the body as described in the invention, and a series of bodies which have different circulation resistances, thus making it possible to fix different flow differences in the tube for given fluids. A method is also described making it possible to fix a precise flow rate, for a given fluid at a given pressure, and the use of well-defined porous bodies making it possible to fix the desired pressure by regulating the pressure drop in the body.

Description

Flow Control

The method according to the invention serves to set a specific flow for a specific fluid flowing through a pipe, and the method is characterised by causing the fluid to flow through a porous body having predetermined flow resistance characteristics, and being selected to permit a through-flow in the desired flow interval, and also by setting the specific desired flow by adjusting the fluid pressure drop across the body.

It has proved possible to produce porous bodies for performing the method, these bodies having predictible fluid through-flow characteristics and, using conventional methods, a series of bodies of this type can be mass- produced which have almost identical fluid through-flow characteristics. This enables a desired flow to be obtained without calibration or the like, using the method according to the invention.

One embodiment of the method comprises prefabricating various series of porous bodies having fluid through-flow characteristics, carefully predetermined within each series, designed to produce a predetermined flow for a specific fluid and a predetermined fluid pressure differ¬ ence above the body.

The method according to the invention also entails the advantage that many impurities in the fluid can be filtered out by the body. If the body becomes clogged by such impurities, this will result in the flow being re¬ stricted which in most applications is an advantage, if any deviation from rated flow appears.

The method according to the invention also permits the use of one body for each occasion, i.e. the bodies are of disposable nature. The various series of bodies can thus be provided with markings corresponding to a certain flow interval. Furthermore, the container in which the body is to be placed may be transparent to enable the marking on the body to be inspected after insertion in the container. The container is naturally inserted in the pipe through which the fluid is flowing, its two ends suitably being joined to respective parts of the pipe, and a casing tightly sealed to the casing of the body, thus causing the fluid to flow through the body in predetermined manner.

The method as claimed is also based on the realization that porous bodies having all the properties mentioned above can be produced by sintering a compacted body made from a suitable powder. A sintered body of stainless metallic powder is thus suitable and conventional methods of manufacturing such bodies give very slight variations in the flow characteristics for each type of body. It has been found, for instance, that sintered compacted bodies made of powder from stainless billets (e.g. steel or titanium) have predictable properties at compacting- and sintering, which are suitable and conventional for the materials in question. It has thus been found that a standard deviation curve with substantially vertical flanks can be obtained in the bodies, indicating that the charact- eristics in the bodies are extremely similar.

These porous bodies are manufactured in extremely clean surroundings and can easily be sterilized.

The bodies do not release any free particles which can be flushed away by the fluid flowing through them.

The porous bodies may advantageously be shaped as straight cylinders. It is of course desirable for the flow distri¬ bution to be constant across the fluid through-flow cross βection of the body and it is relatively simple to achieve this by suitably chosen geometry for the body and suitable compacting conditions.

An apparatus for setting a desired flow for a specific fluid flowing through a pipe, is characterised by a container with fluid flowing through it connected into the pipe, and a porous body inserted in the container, said body having predetermined fluid through-flow characteristics, and means for regulating the pressure difference across the body. In a preferred embodiment the porous body is a sintered compacted body of powder, particularly stainless metallic powder. The body is suitabl of disposable nature and it is therefore advantageous to be able with simple means to produce a series of bodies with predetermined flow-resistance characterised, all the bodies in practice having almost identical through- flow characteristics, so that the pressure can be used as control magnitude to set a predetermined flow, particularly without any calibration of the bodies. The apparatus may thus include at least two series of bodies, the bodies in each group having substantially constant flow characteristics and the bodies in the various groups having different and predetermined flow characteristics. The bodies are suitably provided with markings corresponding to their flow characteristics.

The invention also encompasses the use of porous bodies with well defined flow-resistance characteristics, offering simple control of fluid flowing through them, by means of pressure-control equipment.

The invention can be described by stating that, thanks to its properties, the porous body determines the size of the flow due to the pressure drop over the body. The flow can thus be controlled, using relatively simple means to control the pressure, provided the porous bodies are manufactured having identical fluid through-flow characteristics, particularly bodies having flow characteristics which can be predetermined.

This method gives exteremely high flow-control precision

—8 3 and a lower limit of about 1 x 10 cm /sec may be stated as a sort of limit value for gas control. In this case the bodies are normally a few mm long and have a diameter of 3 - 8 mm.

For porous bodies of approximately the same dimensions intended for measuring out liquids, limit values for liquids similar to water, for instance, may be stated as

3 0.5 - 5 cm /min. However, considerably higher values can of course be achieved depending on the choice of powder sintered.

It is not necessary to use stainless steel in the sintered bodies, but this is often preferable for technical reasons and reasons of cost. Titanium is the alternative and this may be preferred if sterile porous bodies are required.

The limit values stated above are entirely dependent on the pressure and fluid properties. However, these values are applicable as limit value for dosing equipment used so far.

When being used for gas, the bodies may be provided with a sealing casing, ensuring that the flow will pass axially through the whole body. When being used for liquid, the seal between the casing of the body and the surroundings (chamber wall or the like) is more efficient and the sintered bodies can therefore be used as they are. When manufacturing bodies according to the invention, predetermined porosity can be produced with great certaint if a specific fraction or distribution of grain size is used. Compacting the powder bodies will then result in a specified porosity within wide compacting pressure limits (e.g. up to about 4000 bar) and under normal sintering conditions for the material selected.

Bodies according to the invention may be cylindrical in shape with a length of about 3 - 6 mm and a diameter of about 3 - 6 mm.

A cylindrical body with diameter 6 mm, length 4 mm and porosity about 2 micron, using a glucose solution (Ringer-solution) will give a through-flow of 1.4-28 cc/min at a pressure drop of. 100 cm water column. A flow of up to 60 cc/min was obtained in some tests. In general it can be stated that bodies according to the invention having diameter 3 - 6 mm and length 3 - 6 mm produce a

2 —8 gas through-flow in the region 10 - 10 cc/sec, or a liquid flow-through of 1 - 50 cc/min for a liquid equi- valent to water. The bodies can be used to advantage as main components in simple, robust new designs for dosing equipment. The complicated dosing pumps currently used for dosing insulin, cytotoxins, etc. can therefore perhaps be entirely avoided.

The bodies can also be used, for instance, for supplying gas to liquid, e.g. for oxygenating liquid (0₂ to water in fish farms) .

Claims

C l a i m s

i. A method of setting an adjustable flow for a specific fluid flowing through a pipe, c o m p r i s i n g causing the fluid to flow through a porous body having predetermined fluid through-flow characteristics, said body being selected to permit a through-flow in the desired flow interval, and comprising setting the specific desired flow by adjusting the fluid pressure drop across the body.

2. A method as claimed in claim 1, c o m p r i s i n g setting the body for a flow-control operation, in a container fitted in the pipe, said container corresponding to the body and a fluid flowing therethrough.

3. A method as claimed in claim 1 or 2, c o m p r i s ¬ i n g prefabricating various series of porous bodies having fluid through-flow characteristics, carefully predetermined within each series, designed to produce a predetermined flow for a specific fluid and a pre¬ determined fluid pressure difference across the body.

4. A method as* claimed in claim 3, c o m p r i s i n g providing the various series of bodies with markings corresponding to a certain maximum flow.

5. A method as claimed in claim 4, w h e r e i n the container for the body is transparent to enable the marking on the body to be inspected after insertion in the container.

6. A method as claimed in any of claims 1 - 5, c o m p r i s i n g the use of a compacted and sintered body produced from granular material.

7. A method as claimed in claim 6, c o m p r i s i n g the use of a body of sintered, stainless metal powder.

8. An apparatus for setting a desired flow for a specific fluid flowing through a pipe, comprising a container v/ith fluid flowing through it connected into the pipe, and a porous body inserted in the container, said body having predetermined fluid through-flow characteristics, and means for regulating the fluid pressure difference across the body.

9. An apparatus as claimed in claim 8, w h e r e i n the porous body is a sintered compacted body of a powder such as a stainless metallic powder.

10. An apparatus as claimed in claim 8 or 9, c o m p ¬ r i s i n g at least two series of bodies, the bodies in each series having substantially constant flow- resistance characteristics and the bodies in each group having predetermined flow resistance.

11. An apparatus as claimed in claim 10, w h e r e i n the bodies are provided with markings corresponding to their flow characteristics.

12. The use of porous bodies v/ith well defined flow- resistance characteristics, in flow-control equipment, for adjusting a defined flow by means of the pressure drop above the body.

13. The use as claimed in claim 12, w h e r e i n the porous body used consists of a sintered compacted body of powder such as stainless metal powder.