FIELD: transport.
SUBSTANCE: device for aerosol detection includes an aircraft with dielectric element such as window (10) located in its body (12) so that dielectric element surface forms part of aircraft outer surface. The detecting device (16) such as static electricity control device is located inside aircraft and is intended to detect electric field generated as a result of dielectric element polarization inside the aircraft. Output data of static electricity control device or data change rate is characterized by close correlation with particle concentration when the aircraft flies through an aerosol, for instance through volcanic ash cloud.
EFFECT: simplified device design, as well as in use of any general-purpose aircraft, aerosol particles can be detected and plotted on a map with help of the device as per proposed invention by simpler and quicker method than by means of such devices as optical spectrometers installed on special research aircrafts, or static electricity control devices installed on the exterior of aircraft.
15 cl, 6 dwg
| Title | Year | Author | Number |
|---|---|---|---|
| METHOD AND APPARATUS FOR DETERMINING THE ZONE AND COEFFICIENT OF ENTRAPMENT WHEN PARTICLES ARE SETTLING ON OBSTACLE | 0 |
|
SU1520397A1 |
| METHOD FOR MONITORING AIRSPACE IN ZONES OF DISTRIBUTION OF VOLCANIC ASH CLOUDS | 2015 |
|
RU2650850C2 |
| DEVICE FOR GENERATING ELECTRIC CHARGES IN THE ATMOSPHERE | 2021 |
|
RU2763511C1 |
| X-RAY AND GAMMA-RAY PHOTODIODE | 2018 |
|
RU2797929C2 |
| METHOD FOR DEPOSITION OF AEROSOL CLOUD PARTICLES | 2022 |
|
RU2793455C1 |
| COMBINED DEVICE FOR GRAVIMETRIC AND CHEMICAL ANALYSIS OF AEROSOLS | 2019 |
|
RU2706420C1 |
| BATTERY WITH BUILT-IN REGULATOR | 1999 |
|
RU2242065C2 |
| LASER-TYPE SPECTROMETER OF AEROSOLS | 0 |
|
SU1584552A1 |
| TEST METHOD ISOLATED OBJECTS (AIRCRAFTS) FOR CORONA EFFECT ON AND DEVICE FOR ITS IMPLEMENTATION | 2013 |
|
RU2523422C1 |
| FIRE EXTINGUISHING SYSTEM | 2001 |
|
RU2229911C2 |
