Magnetohydrodynamic (MHD) propulsion involves the interaction between magnetic fields and conductive fluids to generate thrust, a technology with potential applications in advanced marine and aerospace vehicles. This thesis focuses on designing and analyzing MHD propulsion systems that utilize superconducting magnets, which offer significant advantages in terms of magnetic field strength and efficiency compared to conventional electromagnets. The thesis includes theoretical modeling of the propulsion system, evaluating how superconducting magnets can enhance the magnetic field intensity and improve thrust performance. The goal is to understand the potential benefits and limitations of using superconducting magnets in MHD propulsion, including efficiency, thrust generation, and practical implementation challenges.