Several projects are under way at Sanford Underground Research Facility (Sanford Lab) to improve the reliability of the facility’s infrastructure. Crews are improving the facility for its role as the far site for Fermi National Accelerator Laboratory’s Long-Baseline Neutrino Facility, which will house the largest physics experiment on United States soil: the Deep Underground Neutrino Experiment.
The LBNF project recently completed an upgrade of the Oro Hondo fan, replacing its variable-frequency drive, or VFD. The Oro Hondo fan is the main ventilation fan for the underground facility and is located on the surface along Kirk Road near Lead, South Dakota. This upgrade, completed with the support of Sanford Lab and four local contractors, ensures dependable ventilation in the underground spaces at Sanford Lab.
“This project puts a modern, reliable VFD in control of the Oro Hondo fan’s motor,” said Mike Headley, executive director of Sanford Lab.
The project included the removal of the former VFD and the stick-built structure that housed it. These were replaced by a prefabricated electrical house and VFD, specifically designed for use at the Oro Hondo Shaft.
At Sanford Lab, air comes underground via the Yates and Ross shafts and is drawn horizontally and vertically through a matrix of underground passageways or drifts. The air current is then drawn up to the surface through the two exhaust shafts, the Oro Hondo Shaft and #5 Shaft. When exhaust fans spin in the Oro Hondo Shaft and #5 Shaft, they draw fresh air through this underground circuit.
As the main exhaust shaft for Sanford Lab’s underground ventilation system, the Oro Hondo Shaft’s fan is responsible for most of the underground’s fresh air current. The new VFD is connected to a 3,000-horsepower AC motor and will draw an average of 220,000 cubic feet of fresh air per minute through the Oro Hondo Shaft alone.
Josh Willhite, Fermilab’s LBNF conventional facilities manager for the work in South Dakota, explained that this upgrade increases the reliability of the underground ventilation system; such dependability is critical for future LBNF excavation and construction, as well as DUNE science.
“With the use of diesel-powered excavation equipment, followed by world-class science underground, we need to make sure there is no preventable disruption to airflow or to our work,” Willhite said.
“Other experiments will benefit from this upgrade as well, as it pulls in more fresh air through these ventilation systems,” Headley said.
Local contractors, including Border States Electric, RCS Construction, Muth Electric and Elite Industrial, participated in the upgrade project.
“As is always the case when coordinating these efforts with Sanford Lab, the coordination and integration of all parties has been very good,” Willhite said.
DUNE, which is hosted by Fermilab, will consist of two neutrino detectors placed in the world’s most intense neutrino beam. One detector will record particle interactions near the source of the beam, at Fermilab in Batavia, Illinois. A second, much larger, detector will be installed more than a kilometer underground at Sanford Lab — 1,300 kilometers downstream of the source. These detectors will enable scientists to search for new subatomic phenomena and potentially transform our understanding of neutrinos and their role in the universe.
The Long-Baseline Neutrino Facility will provide the neutrino beamline and the infrastructure that will support the DUNE detectors. Funding for the LBNF construction prep work comes from the Department of Energy Office of Science.
This article was originally published by Sanford Underground Research Facility.