This research is based on the second order synthesis method, utilizing graphene oxide （GO） and reduced graphene oxide （rGO）, to produce graphene oxide nano coolant （GONC） and reduced graphene oxide nano gear oil （RGONGO） with the expectation that the aforementioned nanofluids can obtain the characteristics of GO and rGO, optimizing original manufacturer’s coolant and gear oil quality, achieving the ultimate objectives of energy consumption improvement. In order to prove the two nanofluids can optimize original fluid manufacturer’s quality, basic experiment, simulation on cooling platform, and field test were conducted respectively. Basic experiment included sedimentation, viscosity, specific heat, thermal conductivity and tribology testing; the field test was conducted applying constant speed and gear shifting variable speed for electricity consumption and gradeability respectively on leveled road and on upslope road, and all temperature changes were recorded throughout the course of the field test. The prepared GONC and RGONGO concentration were 0.025 wt.%, 0.05 wt.%, 0.1 wt.%, and 0.2 wt.%, the optimal concentration of GONC from the basic experiment results was 0.05 wt.%; whereas RGONGO’s optimal concentration was 0.1 wt.% From the specific heat test with the original manufacturer’s fluid, the GONC improved by 45 %, and RGONGO also improved by 9.1 % From the thermal conductivity aspect, GONC and RGONGO improvement rates reached 9.1 % and 47.4 % respectively. From the tribology test, GONC improved 36.1 % and RGONGO reached an excellent improvement rate of 48.4 % Besides adding the GONC and RGONGO separately in the field test, at the same time, experiment was conducted by adding both GONC and RGONGO; the experiment proved that regardless NFs were added separately or with more than two NFs added together, the results showed positive impact in terms of vehicle’s energy saving or climbing capability, especially when applying both GONC and RGONGO in the field test electric vehicle in constant speed, the travel distance improved by 4.6 % on leveled road and 2.2 % on upslope road; as for that in gear shift variable speed, the electricity consumption reduced by 3.9 % on leveled road and 3 % on upslope road. The temperatures measurement results showed that when added GONC and RGONGO at the same time during the field test, the components’ temperature rising rate decreased. In summary, applying GONC and RGONGO, in terms of reducing energy consumption, proves to have positive and significant effects.