This pilot addressed disparate systems, reducing heating and cooling energy for drastic savings across the board.
Bright Power is a nationwide leader in strategic energy solutions for building owners and operators. The organization’s mission is to increase the value and performance of buildings, improve the comfort, health and productivity of occupants, and eliminate negative impacts on the climate.
This mission extends to the company’s own headquarters. Like many office buildings in New York, Bright Power’s leased space faced challenges with simultaneous heating and cooling due to uncontrolled perimeter radiation and packaged air conditioning on thermostats. The building’s system included individually controlled thermostatic radiator valves and a packaged air-conditioning unit. Frequent simultaneous heating and cooling and a lack of control wasted energy and caused occupant discomfort.
Bright Power engaged in a pilot to control the space’s disparate systems with goals to reduce energy waste, increase comfort, and evaluate how IoT-based controls can help Bright Power’s commercial and multifamily clients achieve the same. The company also needed an open-source solution that could install in tandem with Tunstall radiator products.
Airoverse deployed a proportional-integral (PI) loop to control 15 steam radiators and thermostatic, occupancy-scheduled control for an obsolete, 10-ton packaged air-conditioning unit. Standard to every installation, Bright Power also received access to the Airoverse for Facilities web and mobile app for secure, portfolio-wide building insight and control.
Hardware across ten zones included one Central Control Unit, nine Smart Nodes, eight Intelligent Temperature Motes, two multi-tap transformers, and one Airflow Temperature Sensor. Tunstall products include the VAO 24 (Normally open) 24-volt electric actuator. Other partners were L&S Energy Services and RSE Energy Group LP.
Baseline HVAC operation prior to the installation included zone temperatures at a constant 72°F, 24/7. Operation under Airoverse control involved an occupied temperature of 72°F and an unoccupied temperature of 67°F. Occupied times were programmed to 8 a.m. to 5 p.m. Monday through Friday, and heating setpoint anticipation and zone balancing were enabled.
To compare Airoverse’s IoT-based solution with the manual control baseline, project engineers programmed the BAS to alternate control between the baseline and Airoverse every three days.
– DITJON MATOSHI / PROJECT ENGINEER
Analysis from third-party M&V consultant L&S Energy Services demonstrates that Airoverse’s IoT-based solution can effectively control disparate systems by eliminating simultaneous heating and cooling and dramatically reducing equipment runtimes. During baseline operation, radiators were enabled 86% of the time compared to 52% and 16% of the time during Airoverse occupied and unoccupied times, respectively.
L&S Energy Services analysis projected an annual fan savings of approximately 9,630 kWh and air conditioning compressor savings of approximately 3,505 kWh. This equates to about 33% less energy consumption from cooling and 50% less from heating. Parameters including sequence of operations, weather conditions, and occupancy of zones could affect the final annual estimates.
Bright Power’s heating and cooling systems now work consistently and effectively, and occupants work in a space without dramatic hot and cold spots. Building operators also have centralized visibility and control over their space and an open-source system that poses no limits to future integrations.