Dry Water

Discovered in 1968, "dry water" consists of 95% water, yet it is a dry powder which resembles powdered sugar at room temperature and pressure. Each powder particle contains a water droplet surrounded by modified silica. The silica coating prevents the water droplets from combining and turning back into liquid water. The result is a fine powder that can slurp up gases which combine with the water molecules to form hydrates.

Dry water can absorb over three times as much carbon dioxide gas as ordinary uncombined water and silica in the same length of time. This ability to absorb large amounts of carbon dioxide gas as a hydrate could make it useful in helping to reduce global warming since carbon dioxide gas is a major contributor to global warming.

Dry water can also be used to store methane, a component of natural gas. This could provide a safer, more convenient way to store methane fuel for use in vehicles powered by natural gas.

Reference:
American Chemical Society (2010, August 25). 'Dry water' could make a big splash commercially. ScienceDaily. Retrieved August 26, 2010, from http://www.sciencedaily.com­ /releases/2010/08/100825174102.htm

Study Questions

1. Write the chemical formula for each of the following compounds:


• water


• silica


• carbon dioxide


• methane




2. Draw a diagram to represent the molecular structure of dry water powder.
3. Draw a diagram to represent the structure of hydrated carbon dioxide.
4. Explain how water can absorb carbon dioxide.
5. Explain how silica can absorb carbon dioxide.
6. Explain why dry water is so much better at absorbing carbon dioxide than either pure water or silica.
7. Write a chemical equation to represent the production of hydrated methane.
8. Using the equation above, discuss how dry water could be used to store and release methane for use in vehicles powered by natural gas.