A novel method of multilevel optimization design is proposed for laminated composite plates at the variation of material parameters and structural pavameters.

The volumetric mass transfer coefficients in different operating conditions were measured by means of chemical absorption on a self-developed multistaged spraying rotating packed bed.

A mathematical model of the energy consumption for the multistaged spraying rotating packed bed was presented by theoretical analyses, and was then verified by experiments carried out on a self-developed rotating packed bed by way of measuring the power consumption with an ammeter.

In order to understand more about the multistage atomization process, the modes of liquid multistage atomization are investigated through simulation experiments by photographic observation.

In order to understand more about the multistage atomization process, the effect of nozzle diameter on the mass median size of tin powders is investigated at first and then the orthogonal experiments are adopted to study the effect of other important processing factors on the multistage atomization of pure tin by using the MSA-RS powder-making device.

The method,the powder-making theory and the direction of further study of multistage atomization are described.