QuantumSphere Files Patent for New Purification Method

p>QuantumSphere, Inc., a developer of advanced catalyst materials, high-performance electrode systems, and related process chemistries for portable power and clean-tech applications, on Jan. 14 filed for a U.S. patent on a water purification process that serves as an alternative to current desalination methods.

The company intends to commercialize the forward osmosis technology to address the challenge of growing demand for potable water. According to Lux Research, the world's water needs are expected to grow 40 percent by 2030, and today's stressed water resources and systems are unsustainable. Water cultivation systems are expected to see market growth from $522 billion in 2007 to nearly $1 trillion in 2020.

The forward osmosis process developed by QuantumSphere uses certain organic solutions to separate water from salt water or polluted water in an osmotic purification process. The company has constructed a prototype system that can purify several gallons of water a day for demonstration purposes and intends to scale the process with large development partners to serve large-scale municipal drinking supplies.

The process will provide an alternative to thermal desalination and reverse osmosis desalination processes that require more energy than the forward osmosis process it has developed.

"Today, most high-volume thermal desalination is conducted at complex plants in the Middle East, where an inexpensive oil supply makes it more practical than most other parts of the world," said Subra Iyer, principal technologist for QuantumSphere. "The reverse osmosis process also requires tremendous amounts of energy for desalination. The forward osmosis process we've developed can purify water at less than 3,000 kWh per acre foot, which is approximately 70 percent cheaper than the energy cost of traditional reverse osmosis processes."

Forward osmosis using QuantumSphere's proprietary process can also purify brackish and polluted water. The process uses a semi-permeable membrane to separate water from salt water into a special organic solution across the membrane. The diluted organic solution is then warmed to cause the specially formulated organic solute to drop out, leaving only fresh drinking water after a final purification step through activated charcoal.

Within three years, the company will address larger engineering challenges to bring the rate up to a million gallons a day, or enough to supply a small municipality.

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