Air Fuel Synthesis | Renewable energy | Air to Liquid Fuels | carbon neutral | aviation fuel | low carbon | electricity | hydrogen | atmospheric carbon dioxide.
SPARROW Surface Water-Quality Modeling. LASER FUSION. OpAquaLiberate. Secret Water Freedom Webinar. Lake Vostok. Lake Vostok Lake Vostok is huge lake beneath the Antacrtic ice, sealed off from the rest of the world for so long that it may contain unique evolved lifeforms. Shown below :Microbes in ice above Lake Vostok click for larger image Lake Vostok is a large (10,000km2), presumably fresh water body located beneath four km of ice at 77oS105oE in East Antarctica. The lake is approximately 250km long and 50km wide, with depths ranging from 500-10m. The overlying ice provides a continuous paleoclimatic record of 400,000 years, although the lake may have been isolated for a much longer time. Image: ABC News: ) (For an impressive slide show on Lake Vostok, visit ) For a longer introduction to Lake Vostok and the issues, read this ASOC paper on options for Lake Vostok.
So what's the problem? Can we penetrate Lake Vostok without disturbing the water? Out in the cold. Making (Unlimited) Hydrogen From Salt Water And Wastewater. Hydrogen has potential as a clean-burning fuel. It leaves behind only water as it burns. But as a scalable alternative to fossil fuels, it's yet to make good: most methods of making large amounts of hyrdrogen require energy (often from fossil fuels) to power its production, which sort of defeats the purpose. But a new energy-efficient way to make hydrogen using wastewater and sea water could turn a energy-intensive water treatment plant into a source of hydrogen. Bruce Logan, professor of environmental engineering at Penn State University, has been working on bacteria that can serve as a cog in a fuel cell.
This early technology has been bubbling slowly in Logan's lab for a while now, as his team has determined just the right combination of bacteria that create the desired effect. Now his team has found a way to make hydrogen without consuming that electric energy. Desalination--extracting salt from water--soaks up energy. WATER CORP. Zinc Oxide H2O - H2 + O Cattalist - Wiki. Zinc oxide is an inorganic compound with the formula ZnO. ZnO is a white powder that is insoluble in water, and it is widely used as an additive in numerous materials and products including rubbers, plastics, ceramics, glass, cement, lubricants,[2] paints, ointments, adhesives, sealants, pigments, foods (source of Zn nutrient), batteries, ferrites, fire retardants, and first-aid tapes.
It occurs naturally as the mineral zincite, but most zinc oxide is produced synthetically.[3] Chemical properties[edit] ZnO occurs as a white powder. The mineral zincite usually contains manganese and other impurities that confer a yellow to red color.[5] Crystalline zinc oxide is thermochromic, changing from white to yellow when heated and in air reverting to white on cooling.[6] This color change is caused by a small loss of oxygen to the environment at high temperatures to form the non-stoichiometric Zn1+xO, where at 800 °C, x = 0.00007.[6] Zinc oxide is an amphoteric oxide.
ZnO + 2 HCl → ZnCl2 + H2O.