FR2735037A1 - Selective filter for controlled dosing of toxic gas - Google Patents

Abstract

The filter comprises a cylindrical chamber (1) sealed by end covers (2) and equipped with an inlet (3) at one end and an outlet (4) at the other. The chamber contains an absorbent material made from fine strips of a bivalent metal, held in place by two grilles. The two ends of the chamber are filled with pads of PTFE wool which ensure an even distribution of gas in the filter. The absorbent material can be of zinc 0.2 mm thick, and the chamber, which is 40 mm in dia. by 200 mm long, is made of glass or a transparent plastic material.

Description

SELECTIVE GAS FILTER FOR DOSING
QUANTITATIVE AND QUALITATIVE TOXIC GAS
The present invention relates to a selective gas filter for the quantitative and qualitative dosing of toxic gas.

 It relates to a chemical filter for selective absorption of a gas or a family of gases simultaneously present or not with a single determined gas, the quantity of which it is desired to reveal using a non-selective analyzer.

 In the known forms of selective filtering, it is common to associate with the non-selective analyzer a time separation filter consisting of a column called chromatography. This widespread practice has the drawback of increasing the time for revealing the gas to be detected, of not ensuring continuous measurement of the constituent, and of requiring the servitude of particularly pure carrier gas.

 For example, in certain specific applications, it is necessary to detect traces of phosgene CO C12 in an atmosphere to be monitored which may contain significant quantities of HC1 hydrochloric acid vapor in a significant ratio (0.1 ppm of COC12 and 1000 ppm of HC1).

 The continuous operation gas analyzers available today do not provide the qualitative selectivity necessary to determine the COC12 content.

 The device according to the present invention aims to remedy this state of affairs. I1 indeed allows the metering of a constituent in real time, even diluted with other constituents capable of reacting on the gas analyzer. In addition, the presence of this type of filter hardly affects the content of the constituent to be measured, and the filtering efficiency remains constant during the life of the filter. In addition, its chemical principle gives it a complete absence of salting out of the constituents absorbed whatever the environmental conditions such as temperature change, variation of atmospheric pressure or storage.

 I1 consists of a transparent cylindrical container having a gas inlet at one of its ends and a gas outlet at the other end, and containing an absorbent material consisting of a bivalent sheet metal, held in the part central by two stainless steel grids, the internal zones of the container corresponding to the arrival and departure of the gas being filled with polytetrafluoroethylene wool.

In the attached drawings, given by way of non-limiting example:
FIG. 1 represents an axial section of a selective filter according to the invention,
FIGS. 2 and 3 are curves established by means of a non-selective gas analyzer, obtained respectively without and with a selective filter,
FIG. 4 represents a curve obtained with a selective filter and illustrating the operation of this over time.

 The device, FIG. 1, consists of a cylindrical enclosure having for example 40 mm of internal diameter and 200 mm in length, composed of a tube 1, closed by two sealed plugs 2 and provided at its ends with nozzles 3, 4 for the connection of the inlet, respectively the outlet, of the gas to be filtered.

 During use, the enclosure is positioned vertically, the gas to be filtered entering from below and emerging from above.

 Selective filtration is obtained by means of an absorbent material 5 having a large contact surface and maintained in the central part of the tube 1 by means of two grids 6 preferably made of stainless steel. To ensure a homogeneous distribution of the gas in the filter, plugs 7 made of PTFE (polytetrafluoroethylene) wool are placed in the zones corresponding to the inlet and outlet of the gas.

 The tube 1, preferably made of transparent material, will be made of glass or a plastic material such as polymethyl methacylate.

 The absorbent material 5 consists of a bivalent metal, and is presented in thin strips of 0.2 mm thickness approximately placed in a ball. Under the conditions of use, this reaction is not reversible.

The metal is consumed by passing to the state of salt.

In the case mentioned above, the metal will advantageously be Zinc Zn ++. Its affinity for certain oxidizing substances gives it the qualities required to react quickly from ordinary temperature with hydrochloric acid vapors according to the formula:
Zn + (HCL) 2 = Zn C12 + H2
The amount of zinc depends on the desired autonomy in the context of the intended application, i.e. 1000 ppm of HC1 / 24 hours, 150 grams are necessary.

 During tests, the use of the selective absorption chemical filter described above allowed the precise measurement of phosgene in the presence or not of hydrochloric acid vapors.

 In Figure 2, we can see successively curves 8 and 9 respectively indicating the presence of hydrochloric acid and phosgene, obtained by an analyzer without selective filtration, while in Figure 3, we see the curves obtained under the same conditions using the selective filter.

 The positioning of the various constituent elements gives the object of the invention a maximum of useful effects which had not, to date, been obtained by similar devices.

Claims (4)

 10. Selective gas filter for the quantitative and qualitative dosing of toxic gas, intended for the selective absorption of a gas or a family of gases simultaneously present or not with a single specific gas whose concentration is to be measured at l using a non-selective analyzer,  characterized by the combination of a cylindrical enclosure formed by a tube (1) closed by two sealed plugs (2) and comprising an inlet nozzle (3) for the gas at one of its ends and an outlet nozzle ( 4) gas at the other end, said enclosure containing an absorbent material (5) consisting of a bivalent metal in thin strips placed in a ball and held in the central part by two grids (6), the internal zones of the corresponding container at the gas inlet and outlet being filled with polytetrafluoroethylene wool forming buffers (7) capable of ensuring a homogeneous distribution of the gas in the filter.  20. Gas filter according to claim 1, characterized in that the tube (1) is made of glass or a transparent plastic.  30. Gas filter according to any one of the preceding claims, characterized in that the metal strips constituting the absorbent material (5) have a thickness of approximately 0.2 millimeters.  40. Gas filter according to any one of the preceding claims, characterized in that the cylindrical enclosure has an internal diameter substantially equal to 40 millimeters and a length close to 200 millimeters.  5. Gas filter according to any one of the preceding claims, characterized in that the absorption of gas takes place by an irreversible chemical reaction in which the said gas combines with the absorbent material (5) to form a salt.  60. Gas filter according to any one of the preceding claims, characterized in that the absorbent material (5) consists of zinc strips (Zn ++) 0.2 mm thick put in a ball.