SVL Projects - Higher Education
The University of North Dakota - Global Plasma Solutions
The University of North Dakota used the CARES ACT to fund an initiative to install Global Plasma Solutions NPBI units throughout the campus, which resulted in improved Indoor Air Quality. The units also help to mitigate the transmission of viruses and other contaminants.
Location
Grand Forks, ND
Equipment Supplier
SVL, INC.
Mechanical Contractor
Custom Aire and JCI
Project Information
Location: Grand Forks, ND
Building Type: Higher Education
Challenge
The most significant challenge for The University of North Dakota project was the timeline. The equipment needed to be delivered and installed by December 31st, 2020.
Highlights
- Global Plasma Solutions’ products are UL 2998 Certified
- Expedited manufacturing time
- 575 GPS DM-48-ACs, over 17,000 total inches of iMod bars, and 135 iMeasure-D monitoring devices
Solution
GPS’ superior products, ease of installation, and ability to deliver equipment in a 2-4 week time frame helped meet the requirement. After the initial order was submitted, it was only three weeks until the first pieces of equipment were installed across the campus. UND and Obernel decided to utilize the duct-mounted DM-48-AC’s for nearly (575) of the water-source heat pumps on campus. They also insisted on using over 17,000 total inches of iMOD bars for use in rooftop units and air handling units for all other spaces. In order to actively monitor the iMOD bars, the project team decided on using (135) iMeasure-D monitoring devices.
Project Details
Background
The University of North Dakota (UND) received a portion of the Economic Resiliency Grant, which was allotted to purchase equipment with the ability to reduce the spread of COVID-19. The grant was accessible to universities, businesses, and government facilities across the state of North Dakota. Global Plasma Solutions’ (GPS) UL 2998 certified products were the primary choice for UND. The Engineer of Record, Andrew Honeyman of Obernel, helped identify GPS’ products as the best option and worked with UND to utilize the Economic Resiliency Grant to fund the project.
Challenge
The most significant challenge for this project was the timeline. The equipment needed to be delivered and installed by December 31st, 2020. Money from the grant was readily available, but the design team (Obernel, UND, and JCI) needed to reach a consensus on what products would be used. Once they were presented with GPS’ UL 2998 certified products, ease of installation, and lead times, it was an easy decision.
Solution
GPS’ superior products, ease of installation, and ability to deliver equipment in a 2-4 week time frame helped meet the requirement. After the initial order was submitted, it was only three weeks until the first pieces of equipment were installed across the campus. All of the ordered equipment was on-site within four weeks. There were a select few products used to retrofit the entire campus. UND and Obernel decided to utilize the duct-mounted DM-48-AC’s for nearly (575) of the water-source heat pumps on campus. UND and Obernel insisted on using over 17,000 total inches of iMOD bars for use in rooftop units and air handling units for all other spaces. In order to actively monitor the iMOD bars, the project team decided on using (135) iMeasure-D monitoring devices. This allowed them to inherently pull in the associated data through the building management system.
GPS’ products utilize NPBI (needle-point bipolar ionization) to emit positive and negative ions into the air with an HVAC system. The ions surround biological contaminants and inhibit their ability to feed and reproduce. Contact with positive and negative ions has microbicidal effects on pathogens, which ultimately disrupts their surface proteins and renders them inert, thereby improving IAQ (indoor air quality).
End Result
The entire UND campus was outfitted with GPS products to mitigate the spread of COVID-19 on site, to keep the staff, students, and visitors as safe as possible. The turnaround time from planning to completing the installation was remarkably fast. It was quite an accomplishment, and it was all made possible by the efforts of UND, Obernel, Custom Aire, GPS, JCI, and SVL.