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Helping Albany Institute save energy & reduce operating costs
The smart use of energy has saved money for this past year for the Albany Institute of History& Art.
The Institute's newly renovated Sculpture Court. Robert Kerr Photography
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Helping Albany Institute save energy & reduce operating costs
The smart use of energy has saved money for this past year for the Albany Institute of History& Art.
The Institute worked with Trudeau Architects for 18 months in 2011 and 2012 to review overall facilit ies, energy performance, and capital project planning. The Trudeau team identified areas for saving energy, improving program development, and budgeting long-term for facility upgrades.
“We’ve seen a
decrease in kilowatt use and end-of-the-month billing totals,” said Joseph
Benassi, the Institute’s director of facilities operations. “This past June,
for example, we saved 22,000 kilowatt hours, compared to that same time last
year. In July, we saved 51,000 kilowatt hours. These savings are impressive,
considering how hot it was that summer. The changes have really made a
difference and have helped our overall budget considerably.”
Reducing energy use
The Trudeau team started by examining the facility, preparing budgets for the work, and assisting with securing the outside funding needed to carry it out.
The Trudeau team started by examining the facility, preparing budgets for the work, and assisting with securing the outside funding needed to carry it out.
The popular
Albany landmark, one of the nation’s oldest museums, has high visitor traffic,
so the Trudeau team made it a priority to minimize the construction related
activities. The first phase of work was completed quietly without any
noticeable change by the occupants, visitors, or sensitive collection artifacts
– some of which can have a much narrower “comfort” range than the occupants.
First, the engineering team slowed the fan motors that circulate air throughout the facility. Museum mechanical systems often operate at full speeds, as though rooms are fully occupied. But all this circulation isn’t needed. Slowing air flow by 50% to spaces that are not fully occupied can reduce net power consumption by 88%, a significant cost savings.
First, the engineering team slowed the fan motors that circulate air throughout the facility. Museum mechanical systems often operate at full speeds, as though rooms are fully occupied. But all this circulation isn’t needed. Slowing air flow by 50% to spaces that are not fully occupied can reduce net power consumption by 88%, a significant cost savings.
Additional
carbon dioxide sensors, which detect occupancy volume, were installed to assure
the system motors would accelerate should environmental conditions warrant it.
The team also reduced the volume of fresh air that came into the system from
outdoors by half. This system, too, was working at rates required for peak
design loads.
“Functionally
reducing the fresh air intake reduces the amount of outside air that has to be
conditioned to meet the very specific climate needs of the museum’s collections
and occupant comfort,” said Bart Trudeau, the firm’s principal architect and
chair of the Institute’s Facilities Committee. “Now the system takes in air
only when required. And this doesn’t impact interior air quality during typical
daily operations.”
Saving money through efficiency
Improvements were also made to the software program that controls the Institute’s operating systems. Benassi and Michael Richards, a programmer from the Siemens, USA, office in Latham made adjustments to the software over the course of several days, monitoring the equipment via radio to verify that each speed drive/air unit did indeed slow or increase to the changed rate.
Improvements were also made to the software program that controls the Institute’s operating systems. Benassi and Michael Richards, a programmer from the Siemens, USA, office in Latham made adjustments to the software over the course of several days, monitoring the equipment via radio to verify that each speed drive/air unit did indeed slow or increase to the changed rate.
These changes
allowed the water supply, which is chilled by the heating, ventilating and
cooling system, to change temperature more efficiently in response to
building’s load conditions. For example, if the building has a “low load,” the
temperature can increase by a few degrees to save energy. With work completed
in the summer of 2012, the projected savings in energy cost already began to
accrue at the projected rates
The team
projected, based on four months of actual data, that the estimated annual
electrical savings of would be 30%. The greatest energy savings occurred in the
moderate temperature months of spring and fall. Additional savings came from
prolonging the life of its carbon and potassium filters, varying speed drives,
and reducing wear of other mechanical system components.
For the next
phase, the Institute is continuing to work with Siemens to study the set
points, or drift boundaries, of the fresh air and main air handlers. They are
working to determine the most cost-effective “space” between set points in the
systems that can permit the mechanical systems to “coast” between upper and
lower limits.
Sensors now monitor occupancy to adjust the environment.
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Further work is
being studied to improve the efficiency of the lighting systems without
impacting the quality of the lighting required for displays.
“Collections and
exhibits should be the priority of a museum’s operating budget,” Trudeau said,
“not directing such funding toward facility improvements. With the changes
we’ve helped introduce, the Institute can remain a vital cultural force in our
community.”
Trudeau Architects, PLLC, is a facility master
planning and architecture firm based in Latham, NY. This project was
collaboration with the Exergen Corporation of Watertown, MA; Odyssey Energy
Solutions of Delmar, NY; Siemens; and the Sano-Rubin Construction Company of
Albany, NY.
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