THz radiation can be generated in many ways. Tsinghua University Accelerator Laboratory is committed to the development of high peak power THz radiation sources based on the relativistic electron bunches. This paper introduces the broadband THz radiation with high-gradient electric field based on single electron bunch of high peak current, and the tunable single-frequency THz radiation based on bunch train. The electron bunches are generated from the photocathode RF gun, and are accelerated to ~50 MeV after a 3 m SLAC type TW accelerating tube. Bunches are compressed to sub-picosecond by velocity bunching scheme and then used to generate intense THz pulses through Coherent Transition Radiation (CTR). Recently, experimental results have shown that the energy of CTR THz is up to 18 μJ per pulse. Besides, a new velocity bunching scheme is proposed by combining under-compression mode and drift compression, which is a promising way to further compress the electron bunch to tens of femtoseconds and to obtain ultra-broadband THz radiation ranging from 0.1 THz to 30 THz. The experimental results of electron bunch train are also introduced. Simulation results have verified the feasibility of generating tunable narrow-band THz radiation with short bunch train, and the related experiments are designed.