Meanwhile,the wind field under the height of 100 km was obtained by the geostrophic wind and thermal wind formulas according to the temperature data from Nimbus-7.

With this method, the grid output data of NWP were used to calculate three parameters: storm-relative thickness symmetry (B), low-level (-V TL) and upper-level thermal wind (-V TU).

First, we make the Boussinesq approximation and study the effects of non-thermal wind and its spatial distribution on the superiority development of Mesoscale symmetric disturbance .

The existence of non-thermal wind gradients on the right side of the entrance region of the upper level jet (ULJ) and the left of the LLJ,leads to the unstable amplitude of mesoscale waves.

First, we make the Boussinesq approximation and study the effects of non-thermal wind and its spatial distribution on the superiority development of Mesoscale symmetric disturbance .

Divergence, divergence wind, thermal divergence, kinetic energy of divergen- ce wind and its change with time, are pointed to be related closely with the stro- ngly convective weather.