NEPHELOMETER WITH CONCENTRATION-MODULATED SAMPLE FLOW

US 20110317162A1
Filed: 06/24/2010
Published: 12/29/2011
Est. Priority Date: 06/24/2010
Status: Active Grant

First Claim

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1. A nephelometer, comprising:

an optical sensor unit having a light source and a detector positioned to detect light scattered from a view volume;

a flow path coupled to an inlet of the optical sensor, the flow path having a junction with a first inlet branch coupled to receive an aerosol sample and a second inlet branch coupled to receive a supply of a clean gas, at least one of the inlet branches coupled to a pump and adapted to periodically supply the aerosol sample or clean gas in that branch at a specified modulation rate, an outlet of the junction providing a concentration-modulated stream that is variable blend of the aerosol sample and clean gas to the view volume of the optical sensor; and

the optical sensor unit further having a signal processor adapted, synchronous with the modulation rate for the concentration-modulated stream, to filter a signal from the detector to remove a background parasitic instrument scattering level and obtain a modulation amplitude of the signal representing a particulate volume in the aerosol sample.

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Abstract

A nephelometer for detecting the concentration of particulates in a sample aerosol is provided with a branched flow path with a sample aerosol input, a clean gas input and an output leading to an optical sensor unit. At least one of the inputs has periodic variable flow so that a concentration-modulated gas stream is supplied to the optical sensor unit. The detector output of the sensor unit is processed in synchrony with the concentration modulation to filter out DC components, such as 1/f noise and parasitic instrument noise.

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20 Claims

1. A nephelometer, comprising:
- an optical sensor unit having a light source and a detector positioned to detect light scattered from a view volume;
  
  a flow path coupled to an inlet of the optical sensor, the flow path having a junction with a first inlet branch coupled to receive an aerosol sample and a second inlet branch coupled to receive a supply of a clean gas, at least one of the inlet branches coupled to a pump and adapted to periodically supply the aerosol sample or clean gas in that branch at a specified modulation rate, an outlet of the junction providing a concentration-modulated stream that is variable blend of the aerosol sample and clean gas to the view volume of the optical sensor; and
  
  the optical sensor unit further having a signal processor adapted, synchronous with the modulation rate for the concentration-modulated stream, to filter a signal from the detector to remove a background parasitic instrument scattering level and obtain a modulation amplitude of the signal representing a particulate volume in the aerosol sample.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. A nephelometer as in claim 1, wherein a variable pump modulates the periodic supply.
  - 3. A nephelometer as in claim 1, wherein a variable flow valve modulates the periodic supply.
  - 4. A nephelometer as in claim 1, wherein the second inlet branch periodically supplies clean gas.
  - 5. A nephelometer as in claim 1, wherein a HEPA filter is provided in the flow path for the clean gas.
  - 6. A nephelometer as in claim 1, wherein the signal processor associated with the optical sensor unit includes a lock-in amplifier coupled to receive an output of the detector, the lock-in amplifier mixing the detector output with a reference signal of the same frequency as the modulation rate of the concentration-modulated stream.
  - 7. A nephelometer as in claim 6, wherein the reference signal also serves as a variable flow control for the periodic supply.
  - 8. A nephelometer as in claim 1, wherein the concentration-modulated stream varies between all aerosol sample to all clean gas.
  - 9. A nephelometer as in claim 1, wherein the concentration-modulated stream varies between a mixture of more aerosol sample than clean gas to another mixture of more clean gas than aerosol sample.

10. A method of operating a nephelometer for particle detection in an aerosol sample, the method comprising:
- providing a concentration-modulated stream that is a variable blend of a first stream of the aerosol sample and a second stream of clean gas, the flow of at least one of the first and second streams varying periodically at a specified modulation rate;
  
  directing the flow of the concentration-modulated stream into a view volume of an optical sensor unit having a light source and a detector positioned to detect light scattered from the view volume; and
  
  processing a detector output from the optical sensor unit to filter the detector output, synchronous with the modulation rate for the concentration-modulated stream, so as to remove a background parasitic instrument scattering level and obtain a modulation amplitude of the signal representing a particulate volume in the aerosol sample.
- View Dependent Claims (11, 12, 13, 14, 15, 16)
- - 11. A method as in claim 10, wherein providing a concentration-modulated stream includes modulating a periodic supply of at least one of the aerosol sample and clean gas by means of a variable pump.
  - 12. A method as in claim 10, wherein providing a concentration-modulated stream includes modulating a periodic supply of at least one of the aerosol sample and clean gas by means of a variable flow valve.
  - 13. A method as in claim 10, wherein the concentration-modulated stream varies between all aerosol sample and all clean gas.
  - 14. A method as in claim 10, wherein the concentration-modulated stream varies between a mixture of more aerosol sample than clean gas to another mixture of more clean gas than aerosol sample.
  - 15. A method as in claim 10, wherein processing the detector output from the optical sensor unit includes supplying the detector output to a lock-in amplifier mixing a reference signal with a frequency synchronized to the concentration modulation.
  - 16. A method as in claim 15, wherein the reference signal doubles as a control for the flow of the at least one periodically varying stream.

17. A method of particle detection, comprising:
- modulating a flow of particle-laden gas with clean gas at a reference frequency to produce a modulated flow of particle-laden gas;
  
  monitoring a light scattering electrical signal from the modulated flow of particle-laden gas, the electrical signal including a noise component; and
  
  applying the reference frequency to the monitored light scattering electrical signal and subtracting the noise component from the electrical signal.
- View Dependent Claims (18, 19, 20)
- - 18. The method as in claim 17, wherein the modulating of the flow of particle-laden gas is by applying the reference frequency to control a variable flow valve.
  - 19. The method as in claim 17, wherein the modulating of the flow of particle-laden gas is by applying the reference frequency to control a diaphragm pump.
  - 20. The method as in claim 17, wherein applying the reference frequency to the monitored light scattering electrical signal and subtracting the noise component is carried out using a lock-in amplifier.

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Current Assignee
Met One Instruments Incorporated (01db-Metravib SAS)
Original Assignee
Met One Instruments Incorporated (01db-Metravib SAS)
Inventors
DeFreez, Richard K., Potter, Michael A., Pottberg, Thomas L.

Granted Patent

US 8,284,398 B2
Time in Patent Office

Days
Field of Search
US Class Current

356/338
CPC Class Codes

G01N 15/06   Investigating concentration...

G01N 15/075   by optical means

G01N 21/53   within a flowing fluid, e.g...

NEPHELOMETER WITH CONCENTRATION-MODULATED SAMPLE FLOW

First Claim

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Abstract

8 Citations

20 Claims

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NEPHELOMETER WITH CONCENTRATION-MODULATED SAMPLE FLOW

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

8 Citations

20 Claims

Specification

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Solutions

Use Cases

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