ABSTRACT
ABST R AC T In the design of micro chemical devices, the shape of microchannels is an important design factor for achieving high performance. Computational uid dynamics (CFD) is often used to rigorously examine the inuence of the shape of microchannels on heat and mass transport phenomena in the ow eld. However, the rash combination of CFD and the optimization technique based on evaluating gradients of the cost function requires enormous computation time when the number of design variables is large. Recently, the adjoint variable method has attracted the attention as an efcient sensitivity analysis method, particularly for aeronautical shape design, since it allows one to successfully obtain the shape gradient functions independently of the number of design variables. In this research, an automatic shape optimization system based on the adjoint variable method is developed. To validate the effectiveness of the developed system, pressure drop minimization problems of a 180° curved microchannel are solved. These design examples illustrate that the pressure drop of the optimally designed microchannels is decreased by 20 % ~ 40 % as compared with that of the initial shape.
