Efficient Pumps Boost Campus Comfort -- Spaces4Learning

HVAC

Efficient Pumps Boost Campus Comfort

04/01/16

Improved energy efficiency and cost savings were two of the major benefits St. John’s University received by installing Gundfos MAGNA3 smart circulators.

Cold weather can create challenges for institutional facility managers, who often must choose between meeting occupant comfort and ever-shrinking physical plant budgets. A case-in-point is St. John’s University in Collegeville, MN, which met its heating goals and saved energy and money thanks to intelligent hydronic circulators.

The Benedictine school’s Peter Engel Science Center was heated via baseboards powered by two primary circulators and four secondary pumps that serviced the building’s four wings. Built in the 1960s, the building’s circulators were oversized and fixed-speed, so the entire system was operating at 100 percent throughout the heating season.

David Schlumpberger, in charge of campus HVAC, wasn’t aware of Grundfos smart circulator technology, which saves energy by continuously fine-tuning power consumption, discharge head and flow rates to meet the heating system’s dynamic needs. In other words, rather than running flat-out at top horsepower, the more energy-efficient option is to start from zero and ramp up to meet the specific demand.

The four new circulators’ intelligent technology was able to achieve the necessary flow rates by expending far less energy. Estimated annual savings reached $693, and the project enjoyed a three-month ROI.

“The bottom line is that the MAGNA3 is sophisticated and capable of doing everything the old pumps did, only better because it’s smart,” says Schlumpberger. During one particularly cold winter, he notes that the system operated at just 25 percent of the old pumps, while keeping the building warm.

According to one team member on the project, this was a huge improvement over the Science Center’s antiquated pumps. This is the only manufacturer that offers a pump that has an integrated logic algorithm to learn the varying energy-usage patterns of an application.

For the foreseeable future and beyond, this university has become immune to the cold, both temperature- and cost-wise.

www.grundfos.com

This article originally appeared in the issue of .

E-Mail this page

Printable Format

Featured

Minnesota Middle School Finishes $23.5M Addition and Modernization

Highland Park Middle School in St. Paul, Minn., recently announced the completion of a $23.5-million addition and remodel project, according to a news release. Saint Paul Public Schools partnered with ATS&R Planners, Architects & Engineers for its design and Kraus-Anderson for its construction.
University of Kansas Opens $400M Football Stadium Reconstruction

The University of Kansas in Lawrence, Kan., recently announced that the $400-million reconstruction of David Booth Kansas Memorial Stadium is complete in time for the 2025 football season, according to a news release. The university partnered with Turner Construction Company on the project.
Armstrong World Industries Acquires Geometrik

Armstrong World Industries, designer and manufacturer of interior and exterior architectural applications like ceilings, walls, and metal solutions, recently announced its acquisition of Canada-based Geometrik, according to a news release. The British Columbian Geometrik specializes in designing and manufacturing wood acoustical and wall systems.
Call for Opinions: Spaces4Learning 2026 Predictions for Educational Facilities

As 2025 winds to a close, the Spaces4Learning staff is asking its readers—school administrators, architects, engineers, facilities managers, builders, superintendents, designers, vendors, and more—to send us their predictions for educational facilities in 2026.