LionGlass is a new family of glass developed by researchers at Penn State University that does not require the same carbon-containing batch materials (soda ash and limestone) and significantly lowers the melting temperatures required during the manufacturing process. Both these differences mean the production of LionGlass is likely result in nearly half the emissions of conventional glass, for a product which is reportedly also significantly less breakable. https://www.psu.edu/news/research/story/new-glass-cuts-carbon-footprint-nearly-half-and-10x-more-damage-resistant/
White hydrogen is formed by various natural geochemical processes deep underground. However, because H2 molecules don't like existing by themselves, they are always seeking to bond with other molecules. This means to get larger and purer amounts of hydrogen, for example 90%, you have to go deeper. And while the oil & gas industry is used to drilling at depths, H2 poses a range of pretty unique engineering challenges. (msn.com)https://www.msn.com/en-us/news/technology/limitless-white-hydrogen-under-our-feet-may-soon-shatter-all-energy-assumptions/ar-AA1dPluA
Consumers and companies demanding full traceability in their financial dealings, as well as many of their consumer product purchases is nothing new. But it's still not common in the energy sector. So typically, even if you are paying for green power, the actual electrons delivered into your home may still be from fossil fuel sources.Enosi are introducing full traceability for green electrons from source to socket, delivering consumer confidence the electrons they have purchased & are using are 100% green. Importantly, it can all apparently be done without energy intensive block-chain tech - just a smart meter and Powertracer software.
