Battling the complexity of designing government facilities: HVAC

The government can be a tough customer, and the projects that state, municipal, federal, and military entities approach engineers about are highly complex. Here, engineers with experience tackling such tall orders offer advice regarding HVAC systems.

12/29/2016


Mohamed Abdelmoneim, PE, Peng, LEED AP BD+C, Senior Electrical Engineer, EYP, Washington, D.C. Courtesy: EYPRaymond Krick III, PE, LEED AP, Project Manager, RMF Engineering, Baltimore. Courtesy: RMF EngineeringAllen Poppe, PE, MBA, Principal Mechanical Engineer, Mechanical & Chemical Group, Manager, Stanley Consultants, Muscatine, Iowa. Courtesy: Stanley ConsultantsRick H. Troberman Jr., PE, LEED AP, CBCP, Mechanical Engineer, EEA Consulting Engineers, Austin, Texas. Courtesy: EEA Consulting EngineersLindsay Zanders, PE, PMP, Sr. Project Manager/Director of Projects, Primera Engineers Ltd., Chicago. Courtesy: Primera Engineers


Respondents:

Mohamed Abdelmoneim, PE, Peng, LEED AP BD+C, Senior Electrical Engineer, EYP, Washington, D.C.

Raymond Krick III, PE, LEED AP, Project Manager, RMF Engineering, Baltimore

Allen Poppe, PE, MBA, Principal Mechanical Engineer, Mechanical & Chemical Group, Manager, Stanley Consultants, Muscatine, Iowa

Rick H. Troberman Jr., PE, LEED AP, CBCP, Mechanical Engineer, EEA Consulting Engineers, Austin, Texas Lindsay

Zanders, PE, PMP, Sr. Project Manager/Director of Projects, Primera Engineers Ltd., Chicago 


CSE: Have you specified distinctive HVAC systems on any government, state, municipal, federal, or military facilities? What unusual or infrequently specified products or systems did you use to meet challenging HVAC needs?

Troberman: For the barracks project at Fort Sam Houston in Texas, we specified DOAS that required much lower dew points than what we would typically specify in other facilities. This was driven by a specific requirement by the U.S. Army Corps of Engineers due to the army's struggle with dehumidification and mold issues in barracks facilities where there is a higher density of personnel with moisture conditions, such as showering facilities and sometimes moisture-ridden clothing and equipment following missions or training activities.

Krick: We were recently tasked with adding energy recovery to an existing HVAC system at a biosafety level 4 (BSL-4) lab for a federal client. We specified a customized, high-performance energy-recovery system that included energy-recovery coils, automated controls, and a skid-mounted hydronic unit. The energy-recovery coils that were installed in the existing air handling units (AHUs) served as both preheat and energy-recovery coils. The hydronic coil replacement also helped solve some controllability issues the client was having with the existing steam preheat coils. This specialized system allowed us to integrate energy recovery into an existing AHU that did not have space for an additional energy-recovery coil.

Zanders: Since government buildings tend to be older and with aging infrastructure, they have likely undergone several renovations over time. Renovating these existing buildings presents a unique set of challenges with the HVAC systems. Due to their age, these systems often fail to meet current codes. Meanwhile, existing infrastructure limits space for the introduction of new equipment and systems. Modular and scalable equipment and systems are then specified for these tight renovations. Additionally, decentralized systems, like VRF, allow a team to reuse some existing air-distribution infrastructure in a new purpose and only introduce small piping to the already crowded above-ceiling space.

CSE: Have you specified variable refrigerant flow systems, chilled beams, or other unique HVAC systems into a government, state, municipal, federal, or military building? If so, describe its challenges and solutions.

Poppe: We used a VRF system for a recent design. This military facility included barracks with small rooms. Complying with ASHRAE 15: Safety Code for Mechanical Refrigeration required careful attention. We had to divide the VRF system into smaller zones to limit the refrigerant charge to acceptable quantities. We are also using chilled beams on a current design project with an aggressive energy goal. The challenge with this system is designing a cost-effective solution. There are several different design approaches including four-pipe, duct-heating coil, and six-way valve arrangements, with significant cost implications depending on the arrangement selected.

Troberman: The barracks project has DOAS, but also VRF for zone-level space heating and cooling. This was driven by the energy requirements for the total building to achieve the lower energy use.

Zanders: VRF systems are excellent for renovations in government buildings. Oftentimes, forced-air systems do not provide adequate air to meet current codes and standards. Applying a VRF system reduces the air demand, allowing for the reuse of a slightly modified AHU system. The refrigerant lines added are small and flexible to fit into often cramped, renovated, above-ceiling spaces.

Krick: We have attempted to specify unique HVAC systems into several government projects and have received pushback. The challenge is that many facility managers and maintenance personnel are reluctant to stray from the traditional systems that they have a comfort level with maintaining. Some of the reluctance is due to the need for additional training, and some has to do with a bad experience in early generation installations of the emerging technology.

CSE: What unique HVAC requirements do such projects have that you wouldn't encounter in other projects?

Zanders: Projects using public funding must leave the design open for competition. This is to encourage applications from multiple vendors to avoid inflated pricing. As a result, designs aren't typically centered on a specific make/model of equipment or software protocol as they would be for projects in other markets.

Troberman: The dedicated outside-air and VRF components to our barracks design would be seen in dormitory and/or hotel projects, but the very prescriptive requirements with respect to very low dew points are most likely unique to the military. This is primarily due to the military's focus with respect to preventing the indoor-air quality (IAQ) issues in their facilities.


<< First < Previous Page 1 Page 2 Next > Last >>

Consulting-Specifying Engineer's Product of the Year (POY) contest is the premier award for new products in the HVAC, fire, electrical, and...
Consulting-Specifying Engineer magazine is dedicated to encouraging and recognizing the most talented young individuals...
The MEP Giants program lists the top mechanical, electrical, plumbing, and fire protection engineering firms in the United States.
2017 MEP Giants; Mergers and acquisitions report; ASHRAE 62.1; LEED v4 updates and tips; Understanding overcurrent protection
Integrating electrical and HVAC for energy efficiency; Mixed-use buildings; ASHRAE 90.4; Wireless fire alarms assessment and challenges
Integrated building networks, NFPA 99, recover waste heat, chilled water systems, Internet of Things, BAS controls
Transformers; Electrical system design; Selecting and sizing transformers; Grounded and ungrounded system design, Paralleling generator systems
Commissioning electrical systems; Designing emergency and standby generator systems; VFDs in high-performance buildings
Tying a microgrid to the smart grid; Paralleling generator systems; Previewing NEC 2017 changes
As brand protection manager for Eaton’s Electrical Sector, Tom Grace oversees counterfeit awareness...
Amara Rozgus is chief editor and content manager of Consulting-Specifier Engineer magazine.
IEEE power industry experts bring their combined experience in the electrical power industry...
Michael Heinsdorf, P.E., LEED AP, CDT is an Engineering Specification Writer at ARCOM MasterSpec.
Automation Engineer; Wood Group
System Integrator; Cross Integrated Systems Group
Fire & Life Safety Engineer; Technip USA Inc.
This course focuses on climate analysis, appropriateness of cooling system selection, and combining cooling systems.
This course will help identify and reveal electrical hazards and identify the solutions to implementing and maintaining a safe work environment.
This course explains how maintaining power and communication systems through emergency power-generation systems is critical.
click me