Pulsating heat pipe experimental process often need to spend much time, and then in this study reduce experimental time by applied Taguchi method to pulsating heat pipe, explore the pulsating heat pipe optimization in different control factors and levels. In this research, there are three factors which are filling ratio (50%, 60% and 70%), condensate flow rate (0.05, 0.1, 0.15 L/min), and heating power (90W, 120W, 150W), then thermal resistance for quality analysis by using L9 orthogonal array of Taguchi method. The working fluid is water, and 35°C constant temperature water for cooling; evaporator part is heated by the heat coil. The result show that the best combination is 0.05 L/min condensate flow rate with 150W heating power in 60% filling ratio, moreover confirmed by experiment to obtain the best quality for the thermal resistance is 0.187. Using literature experimental data to discuss and compare the best quality by Taguchi method.