A study on improving electric energy result by using composition wavelength

The energy loss in electric motors, electric heaters, and lighting operated by electric energy, and in the conductor resistance of electric wire, are generated due to irregular movement of electrons caused by heat and vibration. Synthetic infrared rays mitigate the vibration of electrons, one of the reason causing energy loss, by relieving the friction of electrons. Therefore, they stabilize electric systems and reduce power consumption by maximizing the efficiency of electric energy. To change the property of electron movement, a energy source which can be a particular wave is needed. The particular wave is made by visible light at 500 nm∼600 nm and infrared rays at 1,000 nm∼10,000 nm, using infrared and visible light filters which adjust light intensity. When the wave, stored in a semiconductor, flows into electric wire, it can reduce Joule heat by mitigating the collision of spinning electrons. Therefore, the decrease in specific resistance of the conductor improves conductivity, and electric resistance caused by mobile electrons is reduced so it significantly affects electric energy by Joule heat. The basic experiment resulted in a 10 to 15% electric energy reduction by using a developed photosynthetic irradiation facility to generate these particular infrared rays, and semiconductor or supplying equipment to store the synthetic infrared wave. The research has been carried out by experiments based on theory until now; however, the correlation between the change of electron movement and energy efficiency, synthetic wave and capacity of power consumption are continuously researched.