This work relates to a new type of ceramic with far infrared rays emitting function for improving fuel efficiency, and more particularly for enhancing the combustion efficiency. According to the far infrared rays absorption properties of fuel, some rare earth is added to the ceramic to radiate some far infrared rays with special wavelength. And the effect of rare earth on the fuel activation of the ceramic was investigated.. It is shown that the rare earth cooperates with the ceramic improving the far infrared rays radiation ability. The radiance can reach 90%. With the device of the invention, the double bonds between carbon atoms in the hydrocarbon fuel are broken down to form smaller hydrocarbon molecules lowering the volatilization point thereby enhancing the combustion efficiency. According to the test results,the fuel consumption rate is improved by 4.4%. At the same time, deleterious gas output is reduced obviously to achieve energy conservation and prevent environmental pollution.
参考文献
[1] | 魏庆堂,孙吉民,汪民生,孙跃斌,刘玉忠.论远红外线在汽车节油降低空气污染方面的原理及实践[J].城市管理与科技,2002(03):25-28. |
[2] | Melendrez;Julian B .Fuel conditioning system for internal combustion engines[P].US:5271369,1993. |
[3] | Luo Xiaochun.The application and analysis on energy saving mechanism of fuel oil magnetization[J].Industry Machine,2002:57. |
[4] | Kim Young S .Device for enhancement of combustion[P].US:5632254,1997. |
[5] | Wey;Albert C .Combustion enhancement device[P].US:6082339,2000. |
[6] | He Zichen;Zhang Chunyan .Study on improving combustion efficiency of oil by using room-temperature farinfrared ceramic materials[J].Laser and Infrared,1993,23(04):42. |
[7] | Shibata Kazuhito .Material activating method and device for carrying out the same[P].US:6653646,2003. |
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