Life Safety & Fire Protection

Built in Lockheed Martin’s former rocket assembly building, the GPS III Processing Facility (GPF) spans nearly 50,000 square feet of assembly and test areas for new GPS III satellites. The facility features an industry-leading production line that enables highly efficient manufacturing of GPS III satellites. The facility includes:

A 32,900-square-foot, SCIF-level, Class 100,000 cleanroom high bay that serves as the “factory floor” and houses assembly stations, a solar array test fixture, and a space vehicle transfer fixture
A 960-square-foot thermal vacuum chamber that simulates the conditions of space for testing purposes
A 2,880-square-foot, two-story anechoic test chamber that allows for testing of antennas and telemetry equipment without sound or electromagnetic interference

The GPS III program replaced aging GPS satellites while improving capability to meet the evolving needs of military, commercial, and civilian users worldwide. GPS III satellites deliver enhanced accuracy and improved anti-jamming capability, extend the spacecraft’s design life, and add a new civil signal interoperable with international global navigation satellite systems.

As the project’s electrical engineer, RMH designed normal and backup power systems, lighting, grounding, fire alarm system detection and notification, lightning protection, access control, and public address systems for this critical facility.

Photo credit: Lockheed Martin Space Systems

RMH provided mechanical and electrical engineering services for the LEED Gold-certified CAB Barracks Complex at Fort Carson, Colorado—a $94.9 million design-build project supporting the 13th Combat Aviation Brigade. From the outset, the team prioritized energy efficiency, livability, and cost-effective delivery to achieve net-zero energy performance.

Spanning 370,156 square feet, the complex includes three H-shaped, four-story buildings with apartment-style units for 994 soldiers. The design integrates advanced sustainable systems to reduce energy consumption and enhance occupant comfort.

Key energy-efficient features include:

Radiant heating and cooling with active chilled beams
Heat recovery chiller and 5,000-gallon thermal storage tank
Dedicated outdoor air systems with heat recovery ventilation
Solar thermal panels that meet 30% of domestic hot water demand
Gravity thin-film shower drain heat exchangers
400 kW ground-mounted photovoltaic arrays offsetting 25% of annual energy use
Vacancy and occupancy sensors for lighting control
Automated window sensors and LED lighting throughout

RMH also engineered the adjacent Central Boiler and Chiller Facility (CBCF), which supports the barracks and future development on the Butts Field Plateau. The CBCF includes six condensing boilers, three 400-ton chillers, and over 81,000 feet of hot and chilled water distribution piping.

This project set a new benchmark for sustainable military housing and supports Fort Carson’s transformation into a net-zero energy installation.

The expanded Level III Neonatal Intensive Care Unit (NICU) at St. Francis Medical Center offers an exceptional level of care for infants born before 32 weeks of gestation, those weighing less than 3.3 pounds, or critically ill babies who require breathing assistance. The expanded NICU includes several enhancements:

Increased capacity from 30 to 46 beds
Two couplet rooms, allowing mothers and their babies to stay together while receiving expert, round-the-clock care. At the time, the St. Francis Medical Center’s NICU was the only one in Colorado and only the fourth in the nation to feature couplet rooms.
Additional space for caring for multiples, such as twins and triplets
Advanced room lighting designed to support and stimulate infants’ circadian rhythms
A family sleeping area with privacy partitions and fully private restrooms
An outdoor patio and wellness garden
A NICU family lounge for families of patients to connect with others in similar situations
A dedicated breast milk storage room
A family pre-discharge room to help parents prepare for returning home

The NICU expansion was the first phase of a multi-part project comprising 168,000 square feet and costing $102 million. This project also included a new emergency department, operating rooms, antepartum rooms, and space for future growth. RMH is serving as the project’s mechanical and electrical engineer, as well as the lighting designer.

STAQ Pharma is transforming pediatric healthcare by addressing a critical gap in the pharmaceutical supply chain: the availability of sterile, small-dose medications for children. At its cutting-edge 18,400-square-foot cGMP 503B outsourcing facility in Colorado, this innovative startup repackages adult-dose medications into precise pediatric doses using advanced robotic automation. These smaller doses are essential for pre-operative, operative, and post-operative procedures in pediatric care.
The facility includes 5,000 square feet of highly automated cleanroom space designed to meet the highest standards for sterile-to-sterile drug repackaging. Robotic systems ensure exceptional sterility, accuracy, and efficiency, helping STAQ Pharma deliver safer and more reliable medications for pediatric patients.

To support this pharmaceutical-grade environment, the HVAC system maintains an ISO 7 cleanroom classification through a cascading clean-to-dirty pressure hierarchy. Inside the robotics enclosure, conditions are even more stringent, achieving ISO 5 classification. Energy-efficient design strategies, including variable airflow modes for occupied and idle states, enable significant energy savings while maintaining strict air-change requirements.

The Student Success Building is the first structure in the Metro State “neighborhood” on the Auraria Higher Education Campus, designated exclusively for use by Metro State students and faculty. Metro State shares the Auraria campus with two other institutions: the University of Colorado Denver and the Community College of Denver. This new facility encompasses approximately 145,000 square feet and includes functional spaces for classrooms, offices, critical support services, the Office of the President, as well as special programs and departments.

Metro State is dedicated to reducing carbon emissions associated with campus operations; therefore, sustainability was a key requirement for this building. As the mechanical and electrical design engineer for the project, RMH implemented high-performance building systems, which feature efficient heating and cooling systems, low-water-use fixtures, and reliable power supplies.

This project advances high-power electric vehicle (EV) charging by developing a megawatt-scale battery emulation framework at the Flatirons Campus. The system enables real-time testing of EV charging scenarios, focusing on integration with renewable energy and grid infrastructure.

At its core is a custom-designed MWh-scale lithium-ion battery emulator that replicates the dynamic behavior of various battery chemistries used in heavy-duty vehicles and stationary storage. Using Digital Real-Time Simulators, hardware-in-the-loop techniques, and grid simulators, the team built a robust platform for evaluating charge/discharge cycles and system-level interactions.

This infrastructure supports research in Vehicle Grid Integration, Behind-the-Meter assets, and Distributed Energy Resource applications, paving the way for more innovative and resilient EV-grid ecosystems.

RMH provided comprehensive electrical, mechanical, and plumbing engineering services for a new 43,000-square-foot, two-story facility supporting global scientific field missions. The building, more than twice the size of its 1970s predecessor, includes offices, electronic and wet laboratories, an ITAR-controlled warehouse, and connects to two existing aircraft hangars.

Both hangars support NCAR’s Gulfstream V and C-130 research aircraft. RMH’s electrical design scope included:

Upgrading Hangar A’s electrical service from 120/208V to 277/480V
Power and lighting design for a new locker room in Hangar B
Integrated lighting and controls design throughout the facility

This facility enhances NCAR’s ability to support airborne research and innovation worldwide.

Danone, one of the world’s largest food and beverage companies, completed a renovation to consolidate two separate office spaces into a unified 36,000-square-foot building. This transformation aimed to accommodate the evolving demands of the workplace and to support a growing number of employees working hybrid schedules. The new design provided flexible office spaces for employees, allowing them to work collaboratively regardless of their positions. The project team completed while the facility was fully operational.

RMH delivered comprehensive demolition design drawings and executed electrical load and lighting calculations for the electrical design. Our team designed power systems to support collaborative spaces, a coffee bar, and computer equipment. We also implemented interior lighting and controls that complied with local building codes, updated the existing power distribution system diagram, and prepared a fire alarm performance specification.

On the mechanical side, RMH produced demolition design drawings and conducted HVAC load calculations while modifying air distribution, heating water piping, and DDC controls to accommodate the new layout, including large conference rooms, collaboration areas, and open and individual office spaces. RMH designed the mechanical system to incorporate rooftop units with VAV and fan-powered VAV boxes. Additionally, we developed a fire protection performance specification to ensure the safety and efficiency of the renovated space.

The St. Francis Medical Center in Colorado Springs, Colorado, underwent an expansive project to cater to a 50% increase in patient volume since 2008, aiming to meet the growing community’s needs by expanding its capacity and enhancing care delivery.

The project included the construction of a 250,410-square-foot acute care facility, which features an emergency department, operating rooms, and an upgraded Level III Neonatal Intensive Care Unit (NICU). It also provides additional space for future growth. Key features of the expansion are a 30,000-square-foot parking area, a 34,000-square-foot Emergency Department with adaptable space, two operating theaters, a 22-bay post-anesthesia care unit, and 12,500 square feet for future operating rooms on Level 1. Level 2 has reserved space for surgical expansion, while Level 3 saw a 31,000-square-foot NICU expansion and renovations. Level 4 includes interstitial space for mechanical and electrical infrastructure, and Levels 5 and 6 will accommodate 64 MedSurg beds. RMH also provided the design to update the central utility plant to support the expansion, including a new chiller, boiler, and cooling tower.

The project utilized an Integrated Project Delivery method, completing 56 days early and 2% under budget. RMH introduced innovations such as tunable LED white light technology in the NICU to support infant circadian rhythms, enhancing care quality. Additionally, sustainability and efficiency were emphasized through daylight harvesting and high-efficiency lighting, balancing energy savings with maintaining safe care environments.

The RMH Group delivered comprehensive mechanical, electrical, and plumbing engineering services for the Children’s Hospital North Expansion. This project transformed a 47,000-square-foot clinic into a 236,000-square-foot pediatric hospital, addressing the growing needs of Northern Colorado and Wyoming families.

Key services included HVAC, medical gas, building automation, energy code compliance, and fire protection systems. The project utilized the Integrated Project Delivery (IPD) method, ensuring efficient collaboration and innovation. Notable features include wireless lighting controls and advanced standby power generators, enhancing energy efficiency and reliability. The expansion also added a new medical office building, an outpatient clinic, and critical infrastructure upgrades. This leading-edge facility now offers comprehensive pediatric services, including orthopedics, cancer care, and emergency services.

The collaboration between the project team and the Owner’s staff led to creating a facility that achieved an Energy Use Intensity (EUI) of 150, surpassing the future compliance benchmark of 172 EUI set by the State of Colorado’s Building Performance Standards for hospitals by 2030.