摘要
目前的水纯度异常测试:为未来生产纳米金属或更好的是,水能告诉我们什么?
作者(年代):汉斯Laroo多年来,我的活动包括:确定如何在水介质中使用物理和420nm的光子产生纳米大小的银簇。该波长被银吸收,并已被证明是成功的,从而产生仅6.5 nm宽(3.6至10.1 nm)的窄带分布的原子银簇。然而,不久之后,他们意识到一个更大的挑战正在等待解释:如何正确地测试水的性质?
所谓的胶体银作为一种潜在的杀菌剂只能存在于水中,特别是未受污染的水中。因此,除了使用的银外,水还必须非常纯净。水本身是电介质,因此是绝缘体。它不导电。任何发生的电流传导或电荷携带完全是由水中的离子物质完成的。因此,尽可能使用最纯净的水是一个谨慎的决定。选择去离子水。相比之下,蒸馏水含有很多杂质,允许太多的电流流动,不适合。例如,在测试蒸馏水的特性时,所测得的最低导电率仅为10万欧姆。通常情况下,在56000欧姆时,导电率甚至更高。 This is well short of the expected quality of distilled water at 1 million Ohm. According to the Science of Conductance, 1 micro Siemens/cm should provide an equivalent reciprocal or inverse proportionality of 1 million Ohm resistivity/cm for any type of water and that should include distilled water. It is clear that in the case of distilled water, this is not true. In comparison, good quality deionized water of a purity of between 0.01 and 0.022 Micro Siemens/cm will have a closer resemblance to its Ohmic reciprocals although not exactly. However, the values are close enough in Ohmic resistance to allow current to flow between electrodes at a set voltage of either 300 or 600 Volts DC for a current of 500 and 1, 500 micro ampere/h respectively. It has been noted after numerous batch productions, a steadily increasing carbonation due to carbon dioxide (CO2)下水似乎没有严重的副作用。然而,事情从来没有那么简单!在这篇手稿中,我们将介绍我们的发现,使用西门子或其电阻率的对等概念的传统水纯度测试是有缺陷的,不充分的和混乱的,不包括适当的科学和欧姆定律,特别是忽视电压电位,好像无关。
