A liquid jet maybe curved due to the influence of wind or gravity but more commonly, as is the case in industrial prilling, due to the rotation of the container from which it emerges. in prilling, pellets are manufactured by utilising the breakup of a curved liquid jet, and liquids commonly used in prilling are non-Newtonian. In this paper we investigate the influence of rotation, surface tension and viscosity on the breakup of a spiralling slender power-law liquid jet with applications to industrial prilling. The non-linear evolution equations for the jet radius and axial velocity are solved numerically using the method of finite differences. Numerical simulations allow us to explore the effects of changing the amplitude (or alternatively ...
The dynamics of the break-up of spiralling jets of Newtonian liquids were visualised. The jets were ...
A mathematical model of the dynamics of an inviscid liquid jet, subjected to both gravity and surfac...
We experimentally and numerically study the dynamics of a liquid jet issued from a rotating orifice,...
A liquid jet maybe curved due to the influence of wind or gravity but more commonly, as is the case ...
Applications of the breakup of a liquid jet into droplets are common in a variety of different indus...
The industrial prilling process provides a quick and reliable method for producing small pellets. Th...
A pilot-scale study of the dynamics of break-up of curved jets is presented. The jets emanate from a...
The dynamics of the break-up of curved jets produced by the prilling process vere studied. The effec...
A spiralling slender non-Newtonian liquid jet emerging from a rapidly rotating orifice is examined. ...
A liquid jet follows a curved trajectory when the orifice from which the jet emerges is rotating. Su...
We describe the nonlinear evolution of a travelling wave disturbance on a spiralling slender invisci...
We examine the dynamics of a spiralling slender liquid jet which emerges from a rotating cylindrical...
The creation of drops from the growth of surface tension instabilities on the surface of liquid jets...
It has long been known that the presence of surfactants on the free surface of a liquid jet can crea...
The dynamics of the break-up of spiralling jets of Newtonian liquids were visualised. The jets were ...
A mathematical model of the dynamics of an inviscid liquid jet, subjected to both gravity and surfac...
We experimentally and numerically study the dynamics of a liquid jet issued from a rotating orifice,...
A liquid jet maybe curved due to the influence of wind or gravity but more commonly, as is the case ...
Applications of the breakup of a liquid jet into droplets are common in a variety of different indus...
The industrial prilling process provides a quick and reliable method for producing small pellets. Th...
A pilot-scale study of the dynamics of break-up of curved jets is presented. The jets emanate from a...
The dynamics of the break-up of curved jets produced by the prilling process vere studied. The effec...
A spiralling slender non-Newtonian liquid jet emerging from a rapidly rotating orifice is examined. ...
A liquid jet follows a curved trajectory when the orifice from which the jet emerges is rotating. Su...
We describe the nonlinear evolution of a travelling wave disturbance on a spiralling slender invisci...
We examine the dynamics of a spiralling slender liquid jet which emerges from a rotating cylindrical...
The creation of drops from the growth of surface tension instabilities on the surface of liquid jets...
It has long been known that the presence of surfactants on the free surface of a liquid jet can crea...
The dynamics of the break-up of spiralling jets of Newtonian liquids were visualised. The jets were ...
A mathematical model of the dynamics of an inviscid liquid jet, subjected to both gravity and surfac...
We experimentally and numerically study the dynamics of a liquid jet issued from a rotating orifice,...