초록 ▼

A particulate mass monitor includes two mass sensors, such as an optical sensor (e.g., a light scattering photometer or nephelometer) and a beta radiation attenuation sensor for substantially continuous monitoring of ambient particulate matter. During operation, the first mass sensor references the

A particulate mass monitor includes two mass sensors, such as an optical sensor (e.g., a light scattering photometer or nephelometer) and a beta radiation attenuation sensor for substantially continuous monitoring of ambient particulate matter. During operation, the first mass sensor references the time-averaged measurement of the second mass sensor such that the second mass sensor calibrates the response of the first mass sensor. If the first sensor is an optical sensor, as it detects the presence of particulate matter within a fluid, the mass concentration measurement (e.g., signal output) provided by the optical sensor is altered using a ratio of concentration measurements of the second mass sensor and the optical sensor. The combined use of the two mass sensors provides accurate mass measurements of ambient particulate matter with a relatively high time resolution.

대표청구항 ▼

What is claimed is: 1. A method for monitoring a mass concentration of particulates within a fluid comprising: receiving a fluid sample; detecting a first mass concentration of particulates within the fluid sample using a first sensor; detecting a second mass concentration of particulates within th

What is claimed is: 1. A method for monitoring a mass concentration of particulates within a fluid comprising: receiving a fluid sample; detecting a first mass concentration of particulates within the fluid sample using a first sensor; detecting a second mass concentration of particulates within the fluid sample using a second sensor; and in response to identifying that at least one of the first mass concentration and the second mass concentration reaches a mass concentration threshold value, determining a final mass concentration level of particulates within the fluid sample based on a mass concentration from the first sensor and a ratio between the second mass concentration and the first mass concentration. 2. The method of claim 1 wherein the step of detecting the first mass concentration comprises: receiving, in a substantially continuous manner, first mass concentration values of particulates within the fluid sample from the first sensor; and averaging, in a substantially continuous manner, the first mass concentration values over a time interval to generate a first average mass concentration value of particulates within the fluid sample. 3. The method of claim 2 wherein the step of detecting a second mass concentration comprises: receiving, in a substantially continuous manner, second mass concentration values of particulates within the fluid sample from the second sensor; and averaging, in a substantially continuous manner, the second mass concentration values over the time interval to generate a second average mass concentration value of particulates within the fluid sample. 4. The method of claim 3 wherein the step of determining the final mass concentration comprises: retrieving an instant mass concentration measurement from the first sensor; calculating a ratio of the second average mass concentration value relative to the first average mass concentration value to form a calibration factor; and applying the calibration factor to the instant mass concentration to generate the final mass concentration relating to the mass concentration of particulates within the fluid sample. 5. The method of claim 3 wherein the step of detecting a first mass concentration of particulates within the fluid sample further comprises: detecting a rate of change of the first mass concentration of the fluid sample; and adjusting the time interval for averaging the first mass concentration of particulates within the fluid sample and for averaging the second mass concentration of particulates within the fluid sample when the rate of change of the first mass concentration reaches a rate threshold. 6. The method of claim 1 further comprising applying heat to the fluid sample based upon a humidity level associated with the fluid sample. 7. The method of claim 6 wherein the step of applying heat to the fluid sample comprises: detecting a relative humidity level of the fluid sample; comparing the relative humidity level of the fluid sample with a threshold humidity value; and when the relative humidity level of the fluid sample reaches the threshold value, heating the fluid sample prior to detecting the second mass concentration of particulates within the fluid sample. 8. The method of claim 7 wherein: the step of comparing comprises comparing the relative humidity level of the fluid sample with a threshold humidity value of approximately 70% relative humidity; and when the relative humidity level of the fluid sample reaches approximately 70% relative humidity, heating the fluid sample prior to detecting the second mass concentration of particulates within the fluid sample. 9. The method of claim 1 wherein the step of determining comprises determining the final mass concentration of particulates within the fluid sample based upon the ratio between the second mass concentration and the first mass concentration when at least one of the first mass concentration and the second mass concentration reaches a mass concentration threshold value. 10. The method of claim 9 wherein the step of determining comprises: retrieving an instant mass concentration measurement from the first sensor; comparing the second mass concentration with a second mass concentration threshold value; and when the second mass concentration reaches the second mass concentration threshold value, (i) calculating a ratio of the second mass concentration relative to the first mass concentration to form a calibration factor and (ii) applying the calibration factor to the instant mass concentration measurement to generate a corrected mass concentration relating to the mass concentration of particulate matter within the fluid sample. 11. The method of claim 1 wherein the step of detecting the second mass concentration of particulates within the fluid sample comprises detecting the second mass concentration of particulates within the fluid sample using a beta radiation attenuation sensor. 12. The method of claim 11 further comprising: comparing the first mass concentration with a first mass concentration threshold value; and adjusting an advancement rate of a filter associated with the beta radiation attenuation detector in response to the first mass concentration reaching the first mass concentration threshold value. 13. The method of claim 1 wherein the step of detecting the second mass concentration of particulates within the fluid sample comprises detecting the second mass concentration of particulates within the fluid sample using a mechanical resonance sensing assembly. 14. The method of claim 1 wherein the step of detecting the first mass concentration of particulates within the fluid sample comprises measuring the first mass concentration of particulates within the fluid sample using an optical sensor. 15. A particulate mass monitor comprising: a first sensor configured to receive a fluid sample; a second sensor configured to receive the fluid sample; and a controller in electrical communication with the first sensor and in electrical communication with the second sensor, the controller configured to: detect a first mass concentration of particulates within the fluid sample using the first sensor; detect a second mass concentration of particulates within the fluid sample using second sensor; and determine a final mass concentration of particulates within the fluid sample based on a mass concentration from the first sensor and a ratio between the second mass concentration and the first mass concentration; and wherein the controller is operable to determine the final mass concentration level of particulates within the fluid sample based upon the ratio between the second mass concentration and the first mass concentration when at least one of the first mass concentration and the second mass concentration reaches a mass concentration threshold value. 16. The particulate mass monitor of claim 15 wherein the controller is operable, when detecting the first mass concentration, to: receive, in a substantially continuous manner, first mass concentration values of particulates within the fluid sample from the first sensor; and average, in a substantially continuous manner, the first mass concentration values over a time interval to generate a first average mass concentration value of particulates within the fluid sample. 17. The particulate mass monitor of claim 16 wherein the controller is operable, when detecting the second mass concentration, to: receive, in a substantially continuous manner, second mass concentration values of particulates within the fluid sample from the second sensor; and average, in a substantially continuous manner, the second mass concentration values over the time interval to generate a second average mass concentration value of particulates within the fluid sample. 18. The particulate mass monitor of claim 17 wherein the controller is operable to retrieve an instant mass concentration measurement from the first sensor and, when determining the final mass concentration, to: calculate a ratio of the second mass concentration value relative to the first mass concentration value to form a calibration factor; and apply the calibration factor to the instant mass concentration measurement to generate the final mass concentration relating to the mass concentration of particulates within the fluid sample. 19. The particulate mass monitor of claim 17 wherein the controller is operable, when detecting the first mass concentration of particulates within the fluid sample, to: detect a rate of change of the first mass concentration of the fluid sample; and adjust the time interval for averaging the first mass concentration of particulates within the fluid sample and for averaging the second mass concentration of particulates within the fluid sample when the rate of change of the first mass concentration reaches a rate threshold. 20. The particulate mass monitor of claim 15 further comprising a heating element and a humidity detector, the heating element operable to apply heat to the fluid sample based upon a humidity level associated with the fluid sample as measured by the humidity detector. 21. The particulate mass monitor of claim 20 wherein the controller is configured to: detect a relative humidity level of the fluid sample using the humidity detector; compare the relative humidity level of the fluid sample with a threshold humidity value; and when the relative humidity level of the fluid sample reaches the threshold value, heat the fluid sample with the heating element prior to detecting the second mass concentration of particulates within the fluid sample. 22. The particulate mass monitor of claim 21 wherein: the controller is operable to compare the relative humidity level of the fluid sample with a threshold humidity value of approximately 70% relative humidity; and when the relative humidity level of the fluid sample reaches approximately 70% relative humidity, the controller is configured to heat the fluid sample with the heating element prior to detecting the second mass concentration of particulates within the fluid sample. 23. The particulate mass monitor of claim 15 wherein the controller is operable to retrieve an instant mass concentration measurement from the first sensor and to: compare the second mass concentration with a second mass concentration threshold value; and when the second mass concentration reaches the second mass concentration threshold value, (i) calculate a ratio of the second mass concentration value relative to the first mass concentration value to form a calibration factor and (ii) apply the calibration factor to the instant mass concentration measurement to generate a corrected mass concentration value relating to the mass concentration of particulate matter within the fluid sample. 24. The particulate mass monitor of claim 15 wherein the second sensor comprises a beta radiation attenuation sensor. 25. The particulate mass monitor of claim 24 wherein the controller is operable, when detecting the first mass concentration of particulates within the fluid sample, to: compare the first mass concentration with a first mass concentration threshold value; and adjust an advancement rate of a filter associated with the beta radiation attenuation sensor in response to the first mass concentration reaching the first mass concentration threshold value. 26. The particulate mass monitor of claim 15 wherein the second sensor comprises a mechanical resonance sensing assembly. 27. The particulate mass monitor of claim 15 wherein the first sensor comprises an optical sensor. 28. A computer program product having a computer-readable medium including computer program logic encoded thereon that, when performed on a controller provides a method for performing the operations of: detecting a first mass concentration of particulates within a fluid sample using a first sensor; detecting a second mass concentration of particulates within the fluid sample using a second sensor; determining a final mass concentration level of particulates within the fluid sample based on a mass concentration from the first sensor, and a ratio between the second mass concentration and the first mass concentration; and wherein determining the final mass concentration level includes multiplying an instant value of mass concentration detected by the first sensor by the ratio, wherein the ratio represents a time-averaged mass concentration value detected by the first sensor divided by a time-averaged mass concentration value detected by the second sensor. 29. A method for characterizing a particulate source for particulate matter within a fluid comprising: receiving a fluid sample; detecting a first mass concentration of particulates within the fluid sample using a first sensor; detecting a second mass concentration of particulates within the fluid sample using a second sensor; calculating a ratio between the first mass concentration value and the second mass concentration value to detect a characteristic of the particulate matter within the fluid sample; and wherein the step of detecting a first mass concentration of particulates within the fluid sample further comprises: detecting a rate of change of the first mass concentration of the fluid sample; and adjusting a time interval for averaging the first mass concentration of particulates within the fluid sample and for averaging the second mass concentration of particulates within the fluid sample when the rate of change of the first mass concentration reaches a rate threshold. 30. The method of claim 29 further comprising correlating the characteristic of the particulate matter with a particulate source. 31. The particulate mass monitor of claim 15 wherein: the first mass sensor is a high speed mass sensor that detects a mass concentration of particles in a relatively fast manner in comparison to the second mass sensor; and the second mass sensor is a low speed mass sensor that detects a mass concentration of particles with high accuracy but in a relatively slow manner in comparison to the first mass sensor. 32. The particulate mass monitor of claim 26 wherein the mechanical resonance sensing assembly includes a tensioned filter having a set resonant frequency upon which particulate matter collects to alter the set resonant frequency. 33. The particulate mass monitor of claim 26 wherein the mechanical resonance sensing assembly includes a tensioned metal foil on which the particulate matter is collected by means of electrostatic precipitation using a point-to-plane corona discharge to alter the set resonant frequency. 34. The particulate mass monitor of claim 27 wherein the optical sensor is a nephelometer. 35. A method for monitoring a mass concentration of particulates within a fluid comprising: receiving a fluid sample; detecting a first mass concentration of particulates within the fluid sample using a first sensor; detecting a second mass concentration of particulates within the fluid sample using a second sensor; determining a final mass concentration level of particulates within the fluid sample based on a mass concentration from the first sensor and a ratio between the second mass concentration and the first mass concentration; and wherein the step of detecting a first mass concentration of particulates within the fluid sample further comprises: utilizing the first sensor to detect a rate of change of the first mass concentration of the fluid sample; and in response to identifying that the rate of change of the first mass concentration reaches a rate threshold value, adjusting a respective time interval for averaging an amount of the first mass concentration of particulates detected by the first sensor. 36. The method of claim 35, further comprising: in response to identifying that the rate of change of the first mass concentration reaches the rate threshold value, adjusting a respective time duration used for averaging an amount of the second mass concentration of particulates detected by the second sensor. 37. A method for monitoring a mass concentration of particulates within a fluid, the method comprising: receiving a fluid sample; detecting a first mass concentration of particulates within the fluid sample using a first sensor; detecting a second mass concentration of particulates within the fluid sample using a second sensor; and determining a final mass concentration level of particulates within the fluid sample based on a mass concentration from the first sensor and a ratio between the second mass concentration and the first mass concentration; wherein the step of determining the final mass concentration level further includes: retrieving an instant mass concentration measurement from the first sensor; comparing the second mass concentration with a mass concentration threshold value. 38. The method of claim 37, wherein the step of determining the final mass concentration level further includes: in response to detecting that the second mass concentration reaches the mass concentration threshold value, initiating operations of: (i) calculating a ratio of the second mass concentration relative to the first mass concentration to form a calibration factor and (ii) applying the calibration factor to the instant mass concentration measurement to generate a corrected mass concentration value indicating a respective mass concentration of particulate matter within the fluid sample. 39. A method for monitoring a mass concentration of particulates within a fluid, the method comprising: receiving a fluid sample; detecting a first mass concentration of particulates within the fluid sample using a first sensor; detecting a second mass concentration of particulates within the fluid sample using a second sensor; determining a final mass concentration level of particulates within the fluid sample based on a mass concentration from the first sensor and a ratio between the second mass concentration and the first mass concentration; and wherein determining the final mass concentration level includes multiplying an instant value of mass concentration detected by the first sensor by the ratio, wherein the ratio represents a time-averaged mass concentration value detected by the first sensor divided by a time-averaged mass concentration value detected by the second sensor. 40. The method of claim 39, further comprising: repeatedly updating the ratio over a sampling time to provide a running correction for purposes of determining the final mass concentration level of particulates within the fluid sample. 41. The method as in claim 1 further comprising: in response to identifying that the second mass concentration level as detected by the second sensor over a duration of time is less than a given threshold value, ignoring use of the ratio and report that an instant mass concentration value sensed by the first sensor as a respective mass concentration level of particulates in the fluid sample.