通过对传统的Ｂｅａｍ－Ｗａｒｍｉｎｇ隐式格式的并行化尝试，实现了无粘和粘性空气动力学方程的并行求解。计算中采用了ＳＰＭＤ并行编程模式，并将静态非重叠网格区域分裂技术用于建立计算区域和并行处理系统处理器节点之间的映射。结果表明原等价串行算法的稳定性和收敛性被基本保留，获得的加速比和并行效率较为满意。 By parallelizing the traditional Beam-Warming implicit scheme, a parallel solution to the viscous and viscous aerodynamic equation is achieved. The SPMD parallel programming model was used in the calculations and the static non-overlapping grid-area splitting technique was used to establish the mapping between the compute area and the parallel processing system processor node. The results show that the stability and convergence of the original equivalent serial algorithm are basically preserved, and the obtained speedup and parallel efficiency are satisfactory.