Tag Archives: water

Grand Flood

Grand Canyon photo by John Hunter

Model analysis helps protect river’s ecosystem

The goal of the high-flow experiment, the third since 1996, is to see if such high flows can help reconstruct some of the canyon’s beaches and sand bars that are instrumental to ecological systems and native fishes that have suffered since the building of the Glen Canyon Dam in 1963.

By allowing flow of water that, at its peak, will be more than three times its normal rate (to a volume of 41,500 cubic feet per second), researchers hope to flush some of the dam system of its backed-up sediment and reconstruct habitat downstream. It is expected that the high water-flows will rebuild eroded beaches downstream of the dam by moving sand accumulated in the riverbed onto sandbars.

That in turn will allow the re-establishment of eddy sandbars that provide the slow moving, backwater channels vital for native fish species. The sand bars also provide camping areas for river runners and hikers, and the beaches provide sand to the canyon that helps preserve archaeological resources.

Related: Grand Canyon photos by John HunterHow to Date the Grand CanyonSurfing a Wave for 12 kmMegaflood Created the English Channel

Clouds Alive With Bacteria

Clouds above the Mesa Trail by John Hunter

Earth’s Clouds Alive With Bacteria

Clouds are alive with tiny bacteria that grab up water vapor in the atmosphere to make cloud droplets, especially at warmer temperatures, a new study shows.

The water droplets and ice crystals that make up clouds don’t usually form spontaneously in the atmosphere – they need a solid or liquid surface to collect on. Tiny particles of dust, soot and airplane exhaust – and even bacteria – are known to provide these surfaces, becoming what atmospheric scientists call cloud condensation nuclei (CCN).

These microbes could be carried into the atmosphere from an infected plant by winds, strong updrafts or the dust clouds that follow tractors harvesting a field. Christner and others suspect that becoming cloud nuclei is a strategy for the pathogen to get from plant to plant, since it can be carried for long distances in the atmosphere and come down with a cloud’s rain.

The next step in determining how big a role biological particles play in cloud droplet formation is to directly sample the clouds themselves, Christner says.

Related: What’s Up With the Weather?20 Things You Didn’t Know About SnowRare “Rainbow” Over IdahoBacteria Living in Glacier – photo by John Hunter, on the Mesa Trail, Colorado

50 Species of Diatoms

photo of 50 diatom species

Photo of diatoms by Randolph Femmer (sadly the government deleted the site, breaking the link, so I removed it).

A photomicrograph depicting the siliceous frustules of fifty species of diatoms arranged within a circular shape. The image has been inverted to white on black to bring out details. Diatoms form the base of many marine and aquatic foodchains and upon death, their glassy frustules form sediments known as diatomaceous earth.

Related: 2006 Nikon Small World PhotosArt of Science 2006Scanning Electron Microscope Rose Art

Write on Water

Photo of writing on water

Device uses waves to “print” on water surface

Ok I don’t exactly understand the practical advantages of this but it is cool.

Researchers at Akishima Laboratories (Mitsui Zosen), working in conjunction with professor Shigeru Naito of Osaka University, have developed a device that uses waves to draw text and pictures on the surface of water.

Each letter or picture remains on the water surface only for a moment, but they can be produced in succession on the surface every 3 seconds.

Source, in Japanese

Cheap Drinking Water From Seawater

Image of process to get cheap drinking water from seawater

New membrane technology offers cheap drinking water from seawater

The consumption of drinking water is still increasing, while the availability of drinking water decreases. About 1 billion people in the world have no access to enough clean drinking water, while 70% of the Earth is covered with water.

Other techniques to convert seawater into drinking water, like RO, MSF, or MED, use a lot of energy to vaporize the water or push the water through a membrane under high pressure. Memstill uses cheap waste-energy, which cuts down the energy consumption and CO2 emissions. The cost of desalination of one cubic meter water with Memstill could be under $0.50, where other distillation techniques cost about 1 dollar for the same amount of water.

State-of-the-art desalination technology – more information on the memstill web site.

Related Posts:

Better Way To Desalinate Water

NJIT Professor Discovers Better Way To Desalinate Water – NJIT broke the link to their press release so I removed it 🙁 A university breaking news release web link, sigh. At least far fewer web sites are run by pointy haired bosses that don’t understand extremely basic rules like web pages must live forever.

Chemical engineer Kamalesh Sirkar, PhD, a distinguished professor at New Jersey Institute of Technology (NJIT) and an expert in membrane separation technology, is leading a team of researchers to develop a breakthrough method to desalinate water. Sirkar, who holds more than 20 patents in the field of membrane separation, said that using his technology, engineers will be able to recover water from brines with the highest salt concentrations.

Water and Electricity for All

Segway Creator Unveils His Next Act

Water and Electricity may not seem like something to wish for if you are reading this post. However for over 1 billion people that do without both it is.

Dean Kamen, the engineer who invented the Segway, is puzzling over a new equation these days. An estimated 1.1 billion people in the world don’t have access to clean drinking water, and an estimated 1.6 billion don’t have electricity. Those figures add up to a big problem for the world and an equally big opportunity for entrepreneurs.

To solve the problem, he’s invented two devices, each about the size of a washing machine that can provide much-needed power and clean water in rural villages.

“Eighty percent of all the diseases you could name would be wiped out if you just gave people clean water,” says Kamen. “The water purifier makes 1,000 liters of clean water a day, and we don’t care what goes into it. And the power generator makes a kilowatt off of anything that burns.”

Kamen’s goal is to produce machines that cost $1,000 to $2,000 each. That’s a far cry from the $100,000 that each hand-machined prototype cost to build.

Quadir is going to try and see if the machines can be produced economically by a factory in Bangladesh. If the numbers work out, not only does he think that distributing them in a decentralized fashion will be good business — he also thinks it will be good public policy. Instead of putting up a 500-megawatt power plant in a developing country, he argues, it would be much better to place 500,000 one-kilowatt power plants in villages all over the place, because then you would create 500,000 entrepreneurs.

More products from his company, Deka Research & Development Corp, including: Hydroflexâ„¢ Irrigation Pump, IBOTâ„¢ Mobility System and Intravascular Stent.

Dean Kamen understands what engineering can do. “Today, almost 200 engineers, technicians, and machinists work in our electronics and software engineering labs, machine shop, and on CAD stations.”

DEKA’s mission, first and foremost, is to foster innovation. It is a company where the questioning of conventional thinking is encouraged and practiced by everyone—engineers and non-engineers alike—because open minds are more likely to arrive at workable solutions. This has been our formula for success since we began, and it will continue to drive our success in the future.

Dean Kamen founded For Inspiration and Recognition of Science and Technology (FIRST)