The phase-separation kinetics of liquid-crystalline polymer/flexible polymer blends was studied by the coupled time-dependent Ginzberg-Landau equations for compositional order parameter phi and orientational order parameter S-ij. The computer simulations of phase-separated structures of the blends were performed by means of the cell dynamical system in two dimensions. The compositional ordering processes of phase separation are demonstrated by the time evolution of (h. The influence of orientational ordering on compositional ordering is discussed. The small-angle light scattering patterns are numerically reproduced by means of the optical Fourier transformation of spatial variation of the polarizability tensor alpha (ij), and the azimuthal dependence of the scattering intensity distribution is interpreted.