Add to ORKGThe difficulties of modeling the complex recirculating flow fields produced by multiple jet STOVL aircraft close to the ground have led to extensive use of experimental model tests to predict intake Hot Gas Reingestion (HGR). Model test results reliability is dependent on a satisfactory set of scaling rules which must be validated by fully comparable full scale tests. Scaling rules devised in the U.K. in the mid 60's gave good model/full scale agreement for the BAe P1127 aircraft. Until recently no opportunity has occurred to check the applicability of the rules to the high energy exhaust of current ASTOVL aircraft projects. Such an opportunity has arisen following tests on a Tethered Harrier. Comparison of this full scale data and results ...
A numerical procedure is presented for the scaling of lean aeronautical gas turbine combustors to di...
Reingestion of exhaust gas into engine inlets during hover, and inlet flow distortion with the assoc...
The overall objective of the Turbine Engine Hot Section Technology Combustion Project is to develop ...
Jet VTOL fighter-type model inlet-air temperature rise analysis with various exhaust pressure ratios...
Empirically determined wind and scale effects on hot gas recirculation characteristics of jet V/STOL...
Wind tunnel model tests of hot gas ingestion and jet interference on jet V/STOL aircraf
Hot gas ingestion (HGI) can be a problematic feature of short take-off vertical landing (STOVL) air...
Hot gas ingestion investigation of large scale jet vertical takeoff fighter type aircraf
Advanced Short Takeoff/Vertical Landing (STOVL) aircraft which can operate from remote locations, da...
Hot gas ingestion problems for Short Take-Off, Vertical Landing (STOVL) aircraft are typically appro...
Engine 0209, the certification engine for the new Phase 2+ Hot Gas Manifold (HGM), showed severe det...
A 9.2 percent scale short takeoff and vertical landing (STOVL) hot gas ingestion model was designed ...
The results of a low speed wind tunnel test of 0.046 scale model target thrust reversers installed o...
While typically analysed through ground-based impulse facilities, scramjets experience significant h...
Engineering methods for predicting temperatures and velocities in vicinity of vertical lift engines ...
A numerical procedure is presented for the scaling of lean aeronautical gas turbine combustors to di...
Reingestion of exhaust gas into engine inlets during hover, and inlet flow distortion with the assoc...
The overall objective of the Turbine Engine Hot Section Technology Combustion Project is to develop ...
Jet VTOL fighter-type model inlet-air temperature rise analysis with various exhaust pressure ratios...
Empirically determined wind and scale effects on hot gas recirculation characteristics of jet V/STOL...
Wind tunnel model tests of hot gas ingestion and jet interference on jet V/STOL aircraf
Hot gas ingestion (HGI) can be a problematic feature of short take-off vertical landing (STOVL) air...
Hot gas ingestion investigation of large scale jet vertical takeoff fighter type aircraf
Advanced Short Takeoff/Vertical Landing (STOVL) aircraft which can operate from remote locations, da...
Hot gas ingestion problems for Short Take-Off, Vertical Landing (STOVL) aircraft are typically appro...
Engine 0209, the certification engine for the new Phase 2+ Hot Gas Manifold (HGM), showed severe det...
A 9.2 percent scale short takeoff and vertical landing (STOVL) hot gas ingestion model was designed ...
The results of a low speed wind tunnel test of 0.046 scale model target thrust reversers installed o...
While typically analysed through ground-based impulse facilities, scramjets experience significant h...
Engineering methods for predicting temperatures and velocities in vicinity of vertical lift engines ...
A numerical procedure is presented for the scaling of lean aeronautical gas turbine combustors to di...
Reingestion of exhaust gas into engine inlets during hover, and inlet flow distortion with the assoc...
The overall objective of the Turbine Engine Hot Section Technology Combustion Project is to develop ...