APPARATUS AND METHOD FOR MEASURING ODOURS

Abstract

Described is an apparatus (1) for measuring odours comprising: a measuring chamber (2); an intake duct (4) having two ends, an inlet end (4a) in communication with the outside environment and an outlet end (4b) in connection with the measuring chamber; at least one sensor (3), positioned inside the measuring chamber (2) and designed for measuring the olfactory properties of a gas; a control unit (6) designed for processing signals coming from the at least one sensor (3) and providing a parameter representing the odours measured in the gas to be analysed; a suction device (5), positioned inside the intake duct (4) and designed to circulate the gas inside the apparatus (1); a cleaning device designed for restoring the characteristics of the at least one sensor (3) following a measurement, wherein the cleaning device is designed for generating ozone inside the apparatus (1).

Claims

1. An apparatus for measuring odours comprising: a measuring chamber; an intake duct having two ends, an inlet end in communication with the outside environment and an outlet end in connection with the measuring chamber; at least one sensor, positioned inside the measuring chamber and configured for measuring olfactory properties of a gas; a control unit designed for processing signals coming from the at least one sensor and providing a parameter representing the odours measured in the gas. a suction device configured to circulate the gas in the measuring chamber; a cleaning device configured for cleaning the intake duct and the measuring chamber of olfactory residue, in order to restore the characteristics of the at least one sensor following a measurement, wherein the cleaning device is configured to generate a flow of ozone inside the intake duct and the measuring chamber.

2. The apparatus according to claim 1, wherein the cleaning device is configured to generate a controlled flow of ozone.

3. The apparatus according to claim 1, wherein the cleaning device comprises an ozone generator positioned within the apparatus.

4. The apparatus according to claim 3, wherein the control unit is connected to the ozone generator for varying in a controlled fashion the rate of production of ozone.

5. The apparatus according to claim 3, wherein the ozone generator comprises at least a cathode and a anode located at a predetermined distance and connected to a high voltage generator.

6. The apparatus according to claim 5, wherein the cathode is connected to a high voltage generator in direct current.

7. The apparatus according to claim 5, wherein the cathode and the anode are in a point plane configuration.

8. The apparatus according to claim 5, wherein the cathode and the anode are facing each other inside the intake duct.

9. The apparatus according to claim 5, wherein the control unit is connected to a current measuring device for measuring an electrical current delivered by the high voltage generator and is programmed for comparing the measured value of the electrical current with a reference value for the electrical current delivered by the high voltage generator, and is programmed for varying the voltage between the electrodes in response to said comparison, for varying the ozone production rate.

10. The apparatus according to claim 1, wherein the cleaning device is located at the inlet end of the intake duct.

11. The apparatus according to claim 1, wherein the cleaning device comprises an ozone generator positioned inside the apparatus and configured to generate ozone inside the intake duct.

12. The apparatus according to claim 11, wherein the ozone generator comprises a cathode and the anode which protrude inside the intake duct.

13. The apparatus according to claim 1, wherein the cleaning device comprises an ozone generator having a electrical current generator, wherein the control unit is connected to the current generator to control the electrical current delivered by the electrical current generator.

14. A method for measuring odours comprising the following steps: introducing a gas, by means of an intake duct connected to a suction device, inside a measuring chamber; measuring odours in the gas using at least one sensor located inside the measuring chamber; cleaning the intake duct and the measuring chamber of olfactory residue, in order to restore the characteristics of the at least one sensor following a measurement, characterised in that wherein the cleaning step comprises a flushing of ozone in the intake duct and in the measuring chamber.

15. The method according to claim 14, wherein the flushing of ozone occurs in a controlled manner, to control a quantity of ozone circulating in the measuring chamber.

16. The method according to claim 14, wherein the cleaning step comprises generating ozone, by two electrodes facing each other inside the intake duct and connected to a high voltage generator to form a cathode and an anode.

17. The method according to claim 16, comprising the following steps: measuring an electrical current delivered by the high voltage generator; variation of a voltage between cathode and anode as a function of a deviation of the measured electrical current relative to a current reference value, for controlling the ozone production rate.

18. The method according to claim 14, comprising the following steps: picking a sample of gas having a first concentration of odour; introducing the sample of gas inside the measuring chamber, for estimating the concentration of odour in the sample, using the at least one sensor; diluting the sample of gas to reduce the concentration of odour to a nominal value smaller than said first concentration of odour; cleaning the intake duct and the measuring chamber by flushing ozone inside the apparatus; introducing the gas obtained in the diluting step inside the measuring chamber for training the control unit of the apparatus to recognise the characteristic odour of the sample of gas, with a control unit configured to identify the odour measured set up in a training mode.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0061] This and other features of the disclosure will become more apparent from the following detailed description of a preferred, non-limiting example embodiment of it, with reference to the accompanying drawings, in which:

[0062] FIG. 1 is a schematic representation of an apparatus according to this disclosure;

[0063] FIG. 2 is a side view in cross section of a detail of the apparatus of FIG. 1;

[0064] FIG. 3 is a diagram of the steps which characterise a method for measuring odours according to this disclosure.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS OF THE INVENTION

[0065] With reference to the drawings, the numeral 1 denotes an apparatus for measuring odours.

[0066] The apparatus 1 comprises a measuring chamber 2. At least one sensor 3, positioned inside the measuring chamber 2, is designed for measuring the odours and the olfactory properties of a gas. In the embodiment illustrated, the measuring chamber 2 comprises a plurality of sensors 3, positioned in proximity to the walls of the measuring chamber 2. The apparatus 1 also comprises an intake duct 4 having two ends. A first end 4a (that is, the inlet end) is in communication with the outside environment. In one particular embodiment, the first end 4a is connected to a sample holder. A second end 4b (that is, the outlet end) is in connection with the measuring chamber 2.

[0067] The apparatus 1 also comprises a suction device, designed to circulate the gas inside the apparatus. Preferably, the suction device is located inside the intake duct. In the embodiment illustrated, the apparatus 1 comprises a suction device 5 (for example a pump or a fan) located downstream of the measuring chamber 2 for drawing gas to be analysed through the intake duct 4 inside the measuring chamber 2.

[0068] The apparatus 1 for measuring odours comprises a control unit 6 designed for processing the signals coming from the at least one sensor 3 and providing a parameter representing the odours measured in the gas.

[0069] In the embodiment illustrated, the apparatus 1 comprises an ozone generator 7. The ozone generator is designed for producing the ozone at a predetermined point of the apparatus 1. The suction device 5 circulates the ozone produced by the ozone generator 7 generating a flow of ozone inside the apparatus 1.

[0070] In the embodiment illustrated, the ozone generator 7 is positioned in the intake duct 4, in the proximity of the inlet end 4a. The ozone generator 7 comprises a body 8, having an inlet hole 8a and an outlet hole 8b, which houses a cathode 9 and an anode 10 located at a predetermined distance, in a point-to-plane configuration. Cathode 9 and anode 10 are connected to a high-voltage generator 11. More specifically, the electrodes 9, 10 are connected to the high voltage generator 11 by a first connector 12 and a second connector 13.

[0071] In the embodiment illustrated, the control unit 6 is connected to the high voltage generator 11. More specifically, the control unit 6 varies the voltage between the electrodes 9, 10 on the basis of the value of the current delivered by the high voltage generator 11 and consequently adjusts the rate of production of ozone.

[0072] This disclosure also relates to a method for measuring odours comprising the steps of: [0073] introducing gas inside the measuring chamber 2, by means of an intake duct 4 connected to the suction device 5; [0074] measuring any odours in the gas using the at least one sensor 3 located inside the measuring chamber 2; [0075] flushing ozone inside the apparatus 1, to reset the at least one sensor 3.

[0076] Preferably, the control unit 6 is designed to control the rate of production of ozone. Even more preferably, in the embodiment wherein the apparatus comprises the ozone generator 7, the control unit 6 controls the step of activating the ozone generator 7, for generating ozone inside the apparatus 1.

[0077] More specifically, in the embodiment wherein the ozone generator 7 comprises two electrodes 9, 10 connected to a high voltage generator 11 to define a cathode 9 and an anode 10 in a point-to-plane configuration, the control unit controls the high voltage generator and therefore the generation of an electric field between cathode 9 and anode 10.

[0078] Preferably, the control of the rate of generation of ozone comprises the measurement of a current delivered by the high voltage generator 11 and the variation of the voltage between cathode 9 and anode 10.

[0079] During training, the method for measuring odours comprises the steps of: [0080] picking a sample of gas characterised by a high concentration of odour (step schematically labelled 14 in FIG. 3); [0081] estimating the concentration of odour using the at least one sensor 3 located inside the measuring chamber 2 (step schematically labelled 15 in FIG. 3); [0082] diluting the sample of gas (step indicated schematically with 16 in FIG. 3) to reduce the concentration of odour; [0083] flushing ozone (step indicated schematically with 17 in FIG. 3) inside the apparatus 1, to allow the at least one sensor 3 to be reset; [0084] introducing diluted gas inside the measuring chamber 2 for training (step indicated schematically with 18 in FIG. 3) the control unit 6 of the apparatus for recognising the characteristic odour of the gas sample.

[0085] Preferably, the ozone flushing step 17 inside the apparatus 1 is controlled by a feedback control (indicated schematically with 17d in FIG. 3) which comprises the steps of: [0086] activating the suction device 5 (step indicated schematically with 17a in FIG. 3); [0087] activating the ozone generator 7 (step indicated schematically with 17b in FIG. 3); [0088] measuring the concentration of residual odour (step indicated schematically with 17c in FIG. 3) until reaching a predetermined value indicating the resetting of the at least one sensor 3.

[0089] If the concentration of residual odour exceeds the predetermined value, the flushing of ozone 17 continues with the production of ozone by the ozone generator 7 and the generation of a flow of ozone by the suction device 5.

[0090] After reaching the predetermined value and resetting the at least one sensor 3, the apparatus 1 is ready for introducing diluted gas, for training 18 the apparatus 1 to recognise the characteristic odour of the gas sample.