Washing water

"Torch" technology aims to zap contaminates


Blackfeet entrepreneur Damon Schlenske keeps his fingers in a lot of pots.

Schlenske is the founder and president of the Helena-based Native American Trading Corporation and Native American Research Center; he runs the Soaring Eagle and Native American Medical firms; and for the past several years, he’s worked to strengthen trade ties between American Indians and the Far East, among many other endeavors.

Now Schlenske is embarking on a new project—helping reservations clean up pollution through the use of glow-discharge plasma technology, which involves forcing jolts of electricity through tainted water to separate and/or destroy organic and inorganic contaminants.

Working with researchers around the country, Schlenske hopes to soon demonstrate the technology’s effectiveness in the field. Key potential targets include the Zortman-Landusky mine complex in eastern Montana, where the nearby Fort Belknap Tribes are pushing for extensive clean-up measures, the Berkeley Pit in Butte and scores of other sites laden with toxic chemicals and mine wastes.

“This is not just for Montana,” Schlenske says. It can be used any place “suffering from the outfalls of American industry.”

Irving Backman, a Massachusetts consultant who holds North American marketing rights to the so-called Torch technology, says glow-discharge plasma treatment was originally developed about 15 years ago at research centers in the former Soviet Union. The “activation” process entails placing electrodes into units of polluted water and pulsing measured amounts of electricity into it for fractions of a second.

“You can see it,” Backman says. “It’s like blue lightning bolts in there. That pulsing of the molecules breaks up the structure of the water itself. You destroy the organics, but you don’t destroy the inorganics. They remain as a type of sludge. But even if it’s toxic, the sludge is easier to dispose of. The water itself will be pure.”

“Activated water is the thing of the future,” adds Schlenske. “I don’t believe the Torch system is a panacea, but it’s a workable tool. The process is solid. It does what it says it’s going to do.”

After the political breakup of the Soviet Union, Backman says Russian scientists working on the technology soon saw their funding disappear. Some of the technicians later teamed up to form Water Works Global Inc., a Netherlands-based research, development and marketing firm that is also incorporated in the United States.

In recent years, Backman says, the technology has advanced to the point where glow-discharge reactors can be built to fit projects of all sizes. For example, he says, a mobile unit that fits onto the back of a pickup truck can treat approximately 100,000 gallons of tainted water a day, while a unit that can be hauled by a semi-truck has about a million-gallon-a-day capacity.

The technology, Backman and Schlenske predict, could eventually be used for treatment in municipal water systems, at all types of settlement and holding ponds, and at mining leach sites, where cyanide is often used to separate precious metals like gold from surrounding ore.

“The heavier the metals, the better it works,” Backman explains. Even better, Backman and Schlenske say, the Torch system can potentially reduce the use of cyanide in mining applications, because the activated water could be used instead to separate the targeted metals.

“If we can open up the mining business even in a small way, everyone will benefit,” Schlenske says. He adds, however, that one of the first goals should be addressing mining and other industrial pollution that already exists, especially on reservations.

Schlenske, 53, is also working on other ventures that can help tribes economically, including the establishment of various “trading marts” across the nation. In the past, he’s toiled as a city firefighter in Great Falls and as an adjunct Native American studies professor at Helena’s Carroll College, where he also earned undergraduate degrees. He has been trained as a nutrition counselor and holds a master’s degree in criminal justice from the University of Alabama.

“It turns out that Indian tribes are taking it in the shorts when it comes to pollution,” he says. “Almost nothing is happening in Indian Country about clean-up. Tribes have to take the lead in cleaning up these situations. If we’re going to wait for the federal government to hand-feed us, it’s going to backfire.” As a federally certified minority businessman, Schlenske says he can “deal directly” with the needs of tribes and their homelands.

Craig French, who helps oversee Superfund restoration sites for the Montana Department of Environmental Quality, says he’s aware of the glow-discharge plasma technology.

“I like the idea of it,” says French, who has a background in chemistry. “On its face value, it makes sense to me that it would work.” French adds, however, that he has not seen any cost-analysis when it comes to comparing glow-discharge to techniques already being used to treat contaminated water.

Schlenske and Backman maintain the Torch system is extremely cost-effective, in part because it can deal with both inorganic and organic compounds in one sweep, instead of subjecting the water to several types of processing. They also say many current methods being used to treat polluted water don’t work, which ends up perpetuating the problems.

Schlenske and Backman say there are also other promising possibilities for the technology, including the use of activated water in cosmetics, as a way to kill harmful mosquito larvae and even as a possible replacement for chlorine in swimming pools and other disinfectants. Backman says the Canadian paper industry is looking at glow-discharge plasma as a way to reduce or even eliminate bleaching.

“We’re excited about the Torch technology,” Backman says. “We think it can do some good.”

Backman, Schlenske and others gathered in Massachusetts in April to participate in additional live testing of the system. The backers say they’re also working with various government agencies to help move the product from the testing stage to commercial viability. According to Backman, five U.S. patents on the system are pending.

“This technology is real, and we want to get it out in the marketplace to show what it can do,” he adds. “We want to get models out to show they can meet the need.”


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