Based on the novel active heat dissipation method of high power LEDs cooled by dual synthetic jets actuator, the flow field and temperature field on the surface of the LED lamp were simulated using Ansys. Combining with the test results, the relationship of the temperature and jet velocity was shown. The relation between pn junction temperature and jet velocity was fitted using Gauss curve by Matlab. The relation between the LED lamp life with pn junction temperature was forecasted by Arrhenius model, and the common mathematical relation of LED lamp life with pn junction temperature was given, and then the mathematical relation of LED lamp life with dual synthetic jets velocity was deduced. A cost model on active heat dissipation for high power LEDs using dual synthetic jets was established besed on the relations and the LED lamp economical requirements. The model can be used to determine the lowest expense of LED lamp, the best velocity of dual synthetic jets and the life of LED lamp accordingly.