Double-diffusive convection in a solutally stratified fluid destabilized by
lateral heating and cooling two-layer was studied experimentally. In the r
ange of initial buoyancy ratio N-0=0.54 - 7.17, details of double-diffusive
phenomena were investigated by visualization of temperature and flow field
s using encapsulated liquid crystals and polystyrene particles.
On starting the experiment, roll cell convection of two layer was formed by
double-diffusion of heat and solute, and the interface broke after thermal
ly quasi-steady state. Attention was focused on the undulation of the inter
face which occurred before interface breaks. The detailed structure and occ
urrence condition of undulation were elucidated. It is found that the time
when the mixing of the two layer starts is determined by the buoyancy ratio
No though it changed largely by experimental conditions.