FIELD: transport.
SUBSTANCE: proposed method incorporated new technology of producing velocity components at airflow boundaries that correspond to unlimited airflow at tested model. Said technology is based on using inclined bores, valves and surfaces in the wall that allow bleeding pressure chamber air from the flow and forcing it therein in counterflow to acting local static pressure difference which is required at separate sections of current lines at unlimited airflow. Invention covers also the device to implement above said method.
EFFECT: adapting wind tunnel to noninductive airflow.
2 cl, 7 dwg
| Title | Year | Author | Number |
|---|---|---|---|
| WORKING SECTION OF TRANSONIC AERODYNAMIC TUNNEL (VERSIONS) | 2009 |
|
RU2393449C1 |
| TEST SECTION OF WIND TUNNEL | 2013 |
|
RU2547473C1 |
| 0 |
|
SU1779970A1 | |
| 0 |
|
SU1779829A1 | |
| METHOD OF DECREASING INDUCTION OF WORKING SECTION WALLS OF THE AERODYNAMIC TUNNEL AND SUBSONIC AND TRANSONIC AERODYNAMIC TUNNEL SPEEDS | 0 |
|
SU1746236A1 |
| HYPERSONIC SHOCK AERODYNAMIC PIPE | 2016 |
|
RU2621367C1 |
| METHOD OF GAS FLOW CREATION IN AERODYNAMIC TUNNEL AND AERODYNAMIC TUNNEL | 2013 |
|
RU2526505C1 |
| METHOD FOR ELIMINATING VIBRATIONS OF THE SHOCK WAVE ON THE WING PROFILE OF A CIVIL AIRCRAFT AT TRANSONIC FLIGHT SPEEDS | 2022 |
|
RU2789419C1 |
| OPTICAL DEVICE FOR DETERMINING THE DISPLACEMENT RELATIVE TO EACH OTHER OF HOLES OF ADJACENT SURFACES | 2020 |
|
RU2749180C1 |
| WIND-TUNNEL | 2013 |
|
RU2526515C1 |
