Clean water visionary
Barnett Shale recycles up to 80 percent of “flowback”wastewater for future useDATA 2017-07-13
New use of old technology keeps clean water flowing to gas wells in the Barnett Shale in Texas and recycles up to 80 percent of “flowback” wastewater for future use – protecting a valuable natural resource while maximizing gas production.
The good news? A 13,000-square-kilometre region of North Central Texas lies atop the Barnett Shale – the largest single shale gas play currently under development in North America. Estimates say the area contains 700 to 1,000 billion cubic metres of natural gas, enough to feed US domestic natural gas needs for the next dozen years or more.
Since the first exploratory well was drilled in the Barnett more than 25 years ago, a number of exploration and production companies have developed technologies, including horizontal drilling, to economically extract gas from the highly dense shale formation. Producers are currently drawing in the range of 71 million cubic metres per day through 8,000 producing wells.
The not-so-good news? The key to making the Barnett Shale economically viable is hydraulic “fracturing” (or “fraccing”), a process that involves forcing high volumes of freshwater into gas wells under enormous pressure to create fissures in the shale. These fissures allow the trapped gas to flow into the well bore and to the surface, some 2.5 kilometres upward to the Texas prairie, an area with limited water and periodic droughts.
Each well drilled in the Barnett Shale requires between 4 and 19 million litres of water for fraccing. The water supply comes largely from regional reservoirs, municipal water supplies and wells drilled into the Trinity River and Woodbine aquifers that lie between the Barnett and the surface.
After fraccing, the residual wastewater – usually containing high levels of salt, polymers, friction reducers and surfactants – has traditionally been pumped down disposal wells drilled far beneath the Barnett layer, never to be seen (or used) again. This scenario involved thousands of individual truck trips over the region’s dusty rural roads to haul water from gas wells to disposal sites.
The really great news? Devon Energy, which accounts for roughly 30 percent of all Barnett wells, has teamed up with Canada-based Aqua-Pure Ventures to develop a purposebuilt recycling system that reclaims 80 percent or more of the initial “flowback” water used in the overall fraccing process. Aqua-Pure Ventures, through its Texas-based operating company, Fountain Quail Water Management, has decades of experience in industrial and municipal wastewater treatment innovation.
This “flowback” water – which is ejected from the well due to the initial pressure – typically makes up about 20 to 30 percent of the total water used in the process. The remaining water is extracted along with the natural gas over the lifetime of the well. The ability to recycle four-fifths of the flowback water means that Devon is able to reduce its total water needs by 16 to 24 percent – a significant savings, both in water costs and environmental impact.
“Technology for cleaning water through MVR [mechanical vapour recompression] evaporation goes back a hundred years or more,” says Aqua-Pure’s Brent Halldorson, chief operating officer and driver of the Fountain Quail team in Texas. “You boil the wastewater and get pure distilled water as an output, leaving a small concentrated salt solution behind. In this case, that means all the subsurface contaminants and residual materials used in the raccing process.”
Aqua-Pure found a way to develop the old idea of MVR evaporation into something that could efficiently and economically handle the large volumes of water used in the gasfields.
The initial prototype was designed for cleaning the water associated with landfill leachate. “It seemed a logical next step to take our technology a bit further to process wastewater associated with oil and gas production,” says Halldorson. “By making our systems mobile we could take MVR evaporator technology into a new arena – highly variable oilfield wastewater.”
The solution was the NOMAD 2000 Mobile Evaporator – a three-stage portable platform that could move from field to field and use Aqua-Pure’s improved MVR technology to process a well’s wastewater on the spot. Basic MVR technology, which recovers the heat lost in the evaporation/condensation process and reuses it to fuel additional evaporation, could provide considerable efficiencies. But a compact, two-phase heat exchanger was needed that could keep up with the messy, high-volume process of converting nearly 2.3 million litres of wastewater per day into highly pure distillate.
The challenge that Aqua-Pure faced was that most conventional standard heat exchangers available were not designed for two-phase service and fouled too often, requiring countless hours of physical dismantling and cleaning. “They simply weren’t up to the rigours of the gas production world,” says Halldorson.
Enter Alfa Laval. “I saw the things we did with our AlfaVap evaporator and couldn’t stop thinking of all the other possible uses,” recalls Tomas Kovacs, marketing manager and technologist at Alfa-Laval. “And the AlfaVap is the very heart of what the NOMAD does.” When Kovacs introduced to Aqua-Pure the range of solutions that could be developed using new designs and materials for the NOMAD process, it was an ideal match from the very beginning.
Working with Alfa Laval, Aqua-Pure was able to incorporate the AlfaVap into the NOMAD design, using titanium that is immune to the highly caustic briny conditions of gasfield recycling.
“Not only is it highly efficient,” Halldorson says, “but it also needs very little other than routine maintenance and the occasional scale removal. Once you get it fired up, using local gas directly from the site to power a start-up boiler, it’s basically an exercise in balancing energy.”
For Devon, whose production plans included 600 wells for 2008 and exploration of an additional 7,500 sites for 2009 and beyond, using the NOMAD is a great long-term investment. The NOMAD solution costs from 50 to 75 percent more than just pumping wastewater back down into the ground, says Jay Ewing, Devon’s point person on the project. “But,” he says, “we believe the economics will work out over the long run, because we’ll save money by reusing our own water and not having to truck water all over North Texas. Water is a finite resource here. More important, this is absolutely the right thing to do, both to provide ourselves with the water we need for fraccing and also to minimize our impact on the environment.”
The first NOMAD unit went into full operation in 2005. Now there are nine complete NOMAD systems in operation, each consisting of three 40-foot modules. Aqua-Pure, Devon and Alfa Laval have worked closely to fine-tune these systems to deliver maximum performance. “We’ve learned a few things as we’ve gone along,” says Ewing.
While water recycling in the Barnett Shale gives Aqua-Pure plenty of room for future expansion, the company is also looking to apply its NOMAD technology as other fields open. One example is the Marcellus Shale, which runs from upstate New York hundreds of miles south through the Appalachians. The Marcellus, many geologists predict, could be the largest single shale field in North America, but it is also among the most environmentally sensitive.
“We’ll be ready to go with as many NOMADs as we need when the time comes to go there,” says Halldorson. “We’re looking at almost unlimited opportunity over the coming decades. Once we discovered Alfa Laval’s AlfaVap technology and saw what it could do for our patented process technology, we’ve never looked back.” And that’s good news for everyone.
We believe the economics will work out over the long run, because we’ll save money by reusing our own water and not having to truck water all over North Texas. Water is a finite resource here. More important, this is absolutely the right thing to do, both to provide ourselves with the water we need for fraccing and also to minimize our impact on the environment.
Jay Ewing, Completion Construction Manager, Devon Energy
Not only is the NOMAD mobile evaporator incorporating AlfaVap highly efficient, but it also needs very little other than routine maintenance and the occasional scale removal.
Brent Halldorson, Chief Operating Officer, Aqua-Pure
Alfa Laval AlfaVap semi-welded heat exchangers are tailor-made, rising film plate evaporators and are suitable when concentration and viscosity of media are high.
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