Add to ORKGThe mass transfer enhancement from two liquid surfaces placed inside a strong, high temperature, oscillating flow field was investigated. The device used for creating this flow field was a "Helmholtz type" pulse combustor. These devices operate in resonance with velocity oscillation amplitudes typically ranging between 20 and 100 m/s, frequencies between 50 and 200 Hz, and tailpipe gas-phase temperatures between 700-1500 K. To quantify the mass transport enhancement under various operating conditions, and to model a realistic drying application, attention is focused on the evaporation rates from two different surfaces: a cylindrical surface placed transverse to the tailpipe flow and a flat plate surface placed against the tailpipe wall. The...
Understanding of heat transfer processes between a solid boundary and an oscillatory gas flow is imp...
This thesis reports on the effects of imposed flow oscillations on the mass transfer coefficient and...
Experiments are conducted to study the influence of mass flow rate on heat and mass transfer coeffic...
The need for efficient combustion systems has led to active research in pulse combustion. One advant...
For pulse combustors of the Helmholtz type, a heat transfer of the order two to five times higher th...
Heat transfer rates in pulse combustor tail pipes and in other reversing, oscillating, turbulent flo...
A commonly cited advantage of pulse combustors is a high rate of heat transfer in the tail pipe. Pas...
It has been observed and reported that in pulse combustors of Helmholtz type the heat transfer is tw...
Mass transfer from wetted surfaces on one-inch cylinders with unwetted approach sections was studied...
The previous experimental and theoretical work on the relationships between the rates of heat and ma...
On the basis of the numerical calculations it is shows that flow, heat transfer and diffusive mass t...
Although the benefits of pulsating multiphase flows and the concomitant opportunity to intensify hea...
Heat transfer techniques that can be cost effectively applied to industrial processes hav...
The convective mass transfer coefficient is determined for evaporation in a horizontal rectangular d...
A numerical study of the heat and mass transfer from an evaporating fuel droplet in oscillatory flow...
Understanding of heat transfer processes between a solid boundary and an oscillatory gas flow is imp...
This thesis reports on the effects of imposed flow oscillations on the mass transfer coefficient and...
Experiments are conducted to study the influence of mass flow rate on heat and mass transfer coeffic...
The need for efficient combustion systems has led to active research in pulse combustion. One advant...
For pulse combustors of the Helmholtz type, a heat transfer of the order two to five times higher th...
Heat transfer rates in pulse combustor tail pipes and in other reversing, oscillating, turbulent flo...
A commonly cited advantage of pulse combustors is a high rate of heat transfer in the tail pipe. Pas...
It has been observed and reported that in pulse combustors of Helmholtz type the heat transfer is tw...
Mass transfer from wetted surfaces on one-inch cylinders with unwetted approach sections was studied...
The previous experimental and theoretical work on the relationships between the rates of heat and ma...
On the basis of the numerical calculations it is shows that flow, heat transfer and diffusive mass t...
Although the benefits of pulsating multiphase flows and the concomitant opportunity to intensify hea...
Heat transfer techniques that can be cost effectively applied to industrial processes hav...
The convective mass transfer coefficient is determined for evaporation in a horizontal rectangular d...
A numerical study of the heat and mass transfer from an evaporating fuel droplet in oscillatory flow...
Understanding of heat transfer processes between a solid boundary and an oscillatory gas flow is imp...
This thesis reports on the effects of imposed flow oscillations on the mass transfer coefficient and...
Experiments are conducted to study the influence of mass flow rate on heat and mass transfer coeffic...