A test rig is built to model the dynamic response of submarine pipelines with an underwater shaking table in the State Key Laboratory of Coastal and Offshore Engineering,Dalian University of Technology,China.Model tests are carried out to consider the effects of exciting wave directions and types.Based on the experimental results,two hydrodynamic force models derived from Morison equation and Wake model are presented respectively.By use of hydrodynamic force models suitable for free spanning submarine pipelines under earthquakes,discretized equations of motion are obtained and finite element models are established to analyze dynamic response of free spanning submarine pipeline subjected to multi-support seismic excitations.The comparison of numerical results with experimental results shows that the improved Morison and Wake hydrodynamic force models could satisfactorily predict dynamic response on the free spanning submarine pipelines subjected to earthquakes. A test rig is built to model the dynamic response of submarine pipelines with an underwater shaking table in the State Key Laboratory of Coastal and Offshore Engineering, Dalian University of Technology, China. Model tests are carried to to consider the effects of exciting wave directions and types.Based on the experimental results, two hydrodynamic force models derived from Morison equation and Wake model are from respectively.By use of hydrodynamic force models suitable for free spanning submarine pipelines under earthquakes, discretized equations of motion are obtained and finite element models are established to analyze dynamic response of free-spanning submarine pipeline subjected to multi-support seismic excitations. the comparison of numerical results with experimental results that the improved Morison and Wake hydrodynamic force models could satisfactorily predict dynamic response on the free spanning submarine pipelines by earthquakes.