Pre-construction site conditions at Desert National Wildlife Refuge Fire Cache Station, Corn Creek Station, Nevada

Desert National Wildlife Refuge – Fire Cache & Bunkhouse

Desert National Wildlife Refuge – Fire Cache & Bunkhouse

Corn Creek Station, Lincoln County, Nevada

HCF served as the civil engineering design lead for the U.S. Fish and Wildlife Service (USFWS) Nevada Fire Zone Fire Complex, a federal design-build project located within the Desert National Wildlife Refuge at Corn Creek Field Station in Nevada. The project supports wildfire operations serving approximately 1.7 million acres of federally managed refuge lands and includes a new fire cache station and associated bunkhouse facilities.

HCF’s civil engineering scope included site grading, drainage analysis, utility infrastructure design, access roads, parking areas, concrete sidewalks, erosion control measures, and preparation of civil site development plans. HCF coordinated closely with the design-build contractor and a multi-disciplinary team (architect, MEP, structural, and archeology) through phased federal submittals at the 50%, 90%, and 100% design milestones. Additional services included design and permitting of the onsite septic system through the Southern Nevada Health District, wastewater demand calculations, and domestic water distribution system design using EPANet 2.2 hydraulic modeling to support reliable service in a remote refuge environment.

Site Photo with cliff and rocks with a steep embankment

Little Cottonwood Creek Tributary

Little Cottonwood Creek Tributary – Slope Mitigation

Cottonwood Heights, Utah

HCF provided an engineering evaluation of slope stability and structural support for an existing residence in Cottonwood Heights, Utah, in response to City review under the Sensitive Lands ordinance. Field observations and survey data were used to assess the relationship between the hillside, existing improvements, and the home’s structural zone of influence, confirming that slope conditions do not adversely affect the support of the residence. Based on conservative geometric assumptions and stability criteria, the home was determined to meet accepted static and seismic safety factors.

HCF’s scope also included preparation of grading and erosion control plans, development of rockery stability calculations, and coordination with project stakeholders to support City review and approval. The project emphasized restoring long-term slope stability through appropriate erosion control measures and revegetation of the disturbed hillside adjacent to the Little Cottonwood Creek tributary.