Add to ORKGA simplified model for the prediction of the amplitude of the oscillation in a flue organ pipe is developed. The model is based on a flow visualisation study of the interaction of the jet with the labium in a small flue organ pipe with a recorder-like geometry. Experiments and theoretical analysis demonstrate that flow separation and subsequent vortex shedding at the edge of the labium is essential for the determination of the sound amplitude and spectral distribution. Further research should now investigate the validity of those conclusions for other flue instruments
Recently, the influence of structural vibrations on the sound quality of flue organ pipes has been t...
Flow visualization of the initial transient in a small recorderlike flue organ pipe is presented and...
In order to investigate the physical processes involved in the build-up of the sound signal in a lab...
A simplified model for the prediction of the amplitude of the oscillation in a flue organ pipe is de...
A simplified model for the prediction of the amplitude of the oscillation in a flue organ pipe is de...
A simplified model for the prediction of the amplitude of the oscillation in a flue organ pipe is de...
cote interne IRCAM: Verge95c/National audienceFlow visualization of the initial transient in a small...
cote interne IRCAM: Verge95c/National audienceFlow visualization of the initial transient in a small...
Flow visualization of the initial transient in a small recorderlike flue organ pipe is presented and...
\u3cp\u3eFlow visualization of the initial transient in a small recorderlike flue organ pipe is pres...
Sound generation in flue organ pipes is caused by the non-linear interaction between an instable jet...
Sound generation in flue organ pipes is caused by the non-linear interaction between an instable jet...
A flue organ pipe can be excited in various acoustic modes by changing the air pressure supplied to ...
Recently, the influence of structural vibrations on the sound quality of flue organ pipes has been t...
A flue organ pipe can be excited in various acoustic modes by changing the air pressure supplied to ...
Recently, the influence of structural vibrations on the sound quality of flue organ pipes has been t...
Flow visualization of the initial transient in a small recorderlike flue organ pipe is presented and...
In order to investigate the physical processes involved in the build-up of the sound signal in a lab...
A simplified model for the prediction of the amplitude of the oscillation in a flue organ pipe is de...
A simplified model for the prediction of the amplitude of the oscillation in a flue organ pipe is de...
A simplified model for the prediction of the amplitude of the oscillation in a flue organ pipe is de...
cote interne IRCAM: Verge95c/National audienceFlow visualization of the initial transient in a small...
cote interne IRCAM: Verge95c/National audienceFlow visualization of the initial transient in a small...
Flow visualization of the initial transient in a small recorderlike flue organ pipe is presented and...
\u3cp\u3eFlow visualization of the initial transient in a small recorderlike flue organ pipe is pres...
Sound generation in flue organ pipes is caused by the non-linear interaction between an instable jet...
Sound generation in flue organ pipes is caused by the non-linear interaction between an instable jet...
A flue organ pipe can be excited in various acoustic modes by changing the air pressure supplied to ...
Recently, the influence of structural vibrations on the sound quality of flue organ pipes has been t...
A flue organ pipe can be excited in various acoustic modes by changing the air pressure supplied to ...
Recently, the influence of structural vibrations on the sound quality of flue organ pipes has been t...
Flow visualization of the initial transient in a small recorderlike flue organ pipe is presented and...
In order to investigate the physical processes involved in the build-up of the sound signal in a lab...