The purpose of this study is to develop an eccentric blade rotor rotary engine with four main components including the compressor rotor, the combustion chamber, the power rotor and swing leaves on the rotor. The combustion chamber in the compression section of the rotary valve orifice and the power of the rotary valve port are not connected, the ignition broke out, then the power of the rotary valve orifice rotation to the docking chamber outlet, the outbreak of high pressure gas from the rotary valve airway rushed into the power of the rotor, driving the power of the rotor swing leaves, to promote the rotor rotation, can be achieved equivalent horsepower to multi-cylinder piston internal combustion engine. In this study, we have established the calculation trajectory formula of the eccentric rotor engine and the volume of working chamber, which will be the base for the subsequent calculation of power output, energy saving efficiency, and carbon emission. Since this eccentric blade rotor rotary engine is only one-fifth of the capacity of a multi-cylinder piston internal combustion engine and weighs only one in six, it allows the vehicle to be more mobile, higher fuel efficient, and reduce CO2 emissions.