Abstract: After 10+ years of exploration and development of the T Gas Field in the Xihu Sag in East China Sea, it is urgent to find potential targets in the Oligocene Huagang Formation. To identify channel sand body and its boundary accurately, 3D seismic data were used based on data of several offshore wells. The petrophysical properties of the target stratum were analyzed based on isochronous stratigraphic division, and the sedimentary microfacies were preliminarily specified by seismic sedimentology and logging data. In total, 48 seismic attributes were extracted in six categories. Correlation analysis was conducted on sand thickness and each attribute, from which three most meaningful seismic attributes were determined and selected. The three seismic attributes could well reflect the geological body boundaries and ideal lithology. In addition, multi-attribute clustering analysis based on the FCM (Fuzzy C-Means clustering) algorithm was performed, by which the effect of data dimension and redundancy were reduced. In addition, the distribution of distributary channel depositional system was studied, and RGB fusion display was carried out to highlight channel sand body boundaries. By combining the comprehensive analysis on geological structure and predicted sand body thickness, the favorable target area was proposed, which provides a basis for the subsequent rolling development of oilfield and the well location deployment.