Here’s a report from a tour of Stagecoach Dam from Matt Stensland writing for Steamboat Today. Click through for the cool photo of the drain system from inside the dam. Here’s an excerpt:
It is a careful balancing act at the Stagecoach Dam, where electricity is generated for homes, fish habitat is managed and water is stored for a time when cities, ranchers and industry need it.
Behind the steel door, mineralized sludge covers the concrete walls and incandescent bulbs dimly light the narrow corridor.
These are the guts of the Stagecoach Dam southeast of Steamboat Springs, and it can be a little unnerving knowing that at the other side of the wall, 9,360 pounds of pressure push against each square foot of concrete.
Water drips from the ceiling and falls from drain pipes that collect water from the seeping concrete.
“All dams get water into them,” said Kevin McBride, adding that not having a system to drain the water would create pressure and put the dam’s integrity at risk…
“It’s pretty much paradise here,” said Blankenship, who most recently worked at a coal mine and previously worked in the power house of the USS Enterprise for the U.S. Navy.
Rogers has an electrical engineering degree from the Colorado School of Mines.
In addition to monitoring the integrity of the dam, they oversee the hydroelectric power plant, which was named the John Fetcher Power Plant in 1997. He pushed to make electricity generation part of the dam design.
“I think John was a natural conservationist and to have this capability in a project that size and not do it was a bad thing,” said McBride, referring to Fetcher, who died in 2009 at age 97 after being recognized as one of the state’s water leaders.
Above the loud turbine in the power house sits a sign warning people not to stand underneath. That is because above, there is a large, weighted steel lever that will come crashing down if the power generated at the plant needs to immediately come off the grid.
On Tuesday afternoon, the electrical turbine was generating upwards of 500 kilowatts. The system can generate as much as 800 kilowatts, but generation is limited by the amount of water that is flowing into the reservoir.
“The generation, it fluctuates wildly,” said Andi Rossi, the water district’s engineer. “If the flows get too low, we shut down for power generation. In a big wet year, we’ll make a lot of power.”
The water district had been selling the power to Xcel Energy, but Yampa Valley Electric Association began buying the power last year for six cents per kilowatt hour. In 2016, YVEA paid more than $230,000 for the 3.85 million kilowatt hours generated at the dam. That is enough energy to power about 355 homes.
Power generation varies and is dependent on runoff. During the drought year of 2002, only 1.85 million kilowatt hours was produced. When there was abundant snowfall in 2011, 4.7 million kilowatt hours was produced. Since 1999, an average of 3.8 million kilowatt hours has been made each year…
A tower of concrete in the reservoir beside the dam has three gates that allow different temperatures of water to be mixed and sent through a pipe under the dam toward the generator.
From there, the water is either sent through the generator or through a pipe called a jet flow, which shoots water out of the power plant and helps oxygenate the water for fish habitat in the section of river in front of the dam known as the tailwaters.
The area is an angler’s delight and can only be accessed by snowmobile from the Catamount area or by hiking along a county road from Stagecoach State Park.
“It’s phenomenal,” Colorado Park and Wildlife fish biologist Billy Atkinson said.
With improvements by Parks and Wildlife to the river habitat, the area has thrived for fishing, partly because of the dam and reservoir. Relatively warm water released from the dam keeps the section of river from freezing over, and the water from the reservoir is rich in nutrients for the fish.
“The system is very productive,” Atkinson said.
In 2016, 25 percent more people visited the section of river, and 4,000 trout were measured per mile.
Not all tailwaters below dams in Colorado are experiencing similar success.
“It depends on the dam and the operations of the dam,” Atkinson said.