Mechanical systems define how spaces feel and function. From hospitals and labs to data centers and arenas, we design systems that balance comfort, efficiency, and reliability. Every detail, from concept to post-occupancy tuning, is modeled, coordinated, and proven to perform. The result: buildings that work as intended from day one and scale seamlessly for tomorrow.
Forecasts utility and thermal loads for multi-phase sites, ensuring plants and distribution systems can expand without redesign.
Performs on-site ground testing to size geothermal fields accurately. Data is logged, analyzed, and used directly in loop and pump design.
Measures hydrant capacity and water pressure to inform plumbing and fire protection system sizing.
Evaluates vapor barriers, pressurization, and envelope performance to prevent condensation and meet code-driven pressure criteria.
Analyzes first cost versus long-term operation to help owners make informed decisions about system types and sustainability goals.
By measuring and modeling before drawing, we give owners and architects data-driven direction that prevents redesigns and ensures reliable performance.
Variable air volume with hydronic reheat for controllable, efficient comfort. Includes load diversity modeling, boiler and chiller coordination, and lifecycle optimization.
Recovers heat from exhaust air to pre-condition incoming air. Configured for climate, frost control, and service access; often paired with geothermal or VRF systems.
Gas or all-electric units designed with economizer logic, ventilation controls, and curbs coordinated for fast installation and maintenance.
Heat pump and heat recovery networks that deliver simultaneous heating and cooling. Designed for zoning, manifold strategy, and energy recovery.
Closed-loop systems using the earth as a thermal source. Includes antifreeze selection, loop tempering, and drilling plans validated by thermal conductivity testing.
Air-to-water and air-to-air systems optimized for low-ambient climates and electrification goals.
Four-pipe fan coil systems with precise coil and pump sizing for simplified balancing and long-term reliability.
Active and passive designs integrated with dedicated outdoor air systems for quiet, efficient cooling and condensation control.
Packaged systems for hospitality or multifamily and stratified air delivery for improved air quality in classrooms and auditoriums.
Process ventilation for shops and labs, including welding hoods, sawdust collection, and filtration systems designed for safety and code compliance.
CRAC and CRAH selections, containment planning, and future rack-density coordination to keep mission-critical spaces cool and efficient.
Campus-scale chilled water, steam, and hot water plants with redundancy, staging logic, and hydraulic balancing.
Underground routing, expansion compensation, and insulation design for safe, maintainable networks.
Integrated generation and distribution with safety and control devices for institutional and industrial applications.
Bulk storage, polishing, and leak detection systems designed to meet codes for generators and boilers.
Indoor and outdoor rink refrigeration designed for consistent ice quality, energy performance, and control integration.
Designs for oxygen, vacuum, nitrous oxide, nitrogen, and waste anesthesia gas per healthcare codes, complete with alarms and source equipment selection.
BSL-1 through BSL-3 planning, fume hood exhaust, room pressure control, and acid waste management integrated with casework and architecture.
Medical and industrial compressed air with filtration, drying, and receiver sizing for stable pressure and air quality.
Field assessments that compare retrofit paths by cost, performance, and lifecycle. Owners receive clear pros and cons for each solution.
Reconfigures existing systems to meet new occupancy and functional requirements.
Connects new construction to existing plants or builds independent systems when phasing or budget require.
Modernizes legacy platforms, adds trending, and verifies new sequences of operation to improve control and monitoring.
Every system, whether for a data center or a classroom, is designed for performance, maintainability, and efficiency that lasts.
Verifies installed systems align with mechanical drawings, equipment specifications, and sequences of operation.
Tests hydronic, air, and control systems under live load to confirm stability, setpoint accuracy, and responsiveness.
Works with contractors to sequence equipment startup and record performance data for future reference.
Provides hands-on sessions for facilities teams to understand daily operation, alarms, and preventive maintenance.
Through detailed testing and tuning, we ensure every system works as designed, efficiently, safely, and predictably.
Provide modeled data for code compliance and LEED documentation, including annual energy use and peak demand forecasts.
Demonstrate how systems perform financially over time, supporting investment decisions based on total ownership cost.
Prepares documentation for state, federal, or green building requirements, simplifying review and approval.
Our deliverables don’t just check boxes; they empower owners to manage their systems intelligently and sustainably.
Revit, Bluebeam, BIM and CAD platforms, HVAC Solutions, Elite CHVAC, Comcheck, Autodesk Construction Cloud, and Procore.
Laser thermometers, LIDAR scanners, wet-bulb measurement, and data loggers for verifying performance and existing conditions.
Spec builder templates, observation apps, and Revit plug-ins that streamline modeling and documentation.
Licensed Professional Engineers, LEED-accredited team members, and experience delivering net-zero and high-efficiency designs across multiple climates.
We combine advanced modeling with real-world insight so every design is accurate, coordinated, and ready to build.
We design for comfort, reliability, and performance that lasts. From central plants to specialty labs, our mechanical team delivers clarity, coordination, and results that owners can trust. Every project benefits from technical rigor, responsive service, and systems that simply work.
