On the Feasibility and Applications of Extracting Energy From the Air and the Human Body

• Main Authors: Sheng-Hang Chou, 周聖航
• Other Authors: Chung-pin Liao
• Format: Others
• Language: zh-TW
• Published: 2011
• Online Access: http://ndltd.ncl.edu.tw/handle/4k2mvv

碩士 === 國立虎尾科技大學 === 光電與材料科技研究所 === 99 === In the practice of traditional theory of electrical circuitry, it is well-known that a current cannot flow along an unlooped circuit and hence there will not be any voltage across a load element (or, storage of charges on a capacitor) on such a circuit. Nevertheless, there are theories proposed internationally that advocate energy can be extracted from vacuum through the delivery of “gradient potentials” to electrons on conductor electrodes by virtual photons through the quantum scattering process. Consequently, as they claimed, unlimited energy can be secured in principle by such kind of practices. Additionally, it is also well-known that the space around us is filled with all types of electromagnetic radiations, such as the common 60 Hz waves, lights and heats. Even human body is an infrared source, in addition to being an intermediate heat absorber occasionally. Hence, both the academia and the industrial society are showing great interest in ways of utilizing energy of such kind. This current research aims to explore the feasibility and applications of both the vacuum energy extraction concept, as well as to attempt to tap electricity from free space radiations and human bodies, via an indirect unlooped circuit construction. Effort is also spent on investigating the real cause of the detected energy in each experimental case.