Advanced Hydronic Technology

The Affordable
HVAC Solution for
Multi-Unit Buildings

Advanced Hydronic Technology

The Affordable HVAC Solution for Multi-Unit Buildings

Brick Faced Apartment Building With Balconies Tm

Use the building’s domestic hot and cold water systems to deliver thermostatically-controlled heating and cooling.

Hydronic heating and cooling systems are preferred for efficiency and comfort. They typically function as isolated systems, using dedicated boilers and piping.

Rather than installing dozens of stand-alone heating and cooling devices, IPS™ (Integrated Piping System) provides quiet and comfortable heating and cooling by utilizing the domestic water delivery infrastructure already required in the building.


Less Costly to Operate
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Reduction in Labour Costs
0 %

Less Infrastructure to Build
0 %

Less Refrigerant Used
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Decrease in Piping Used
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Produced and graciously provided to us by our partners at Williams, this 3½-minute video is an excellent overview of IPS™.

Reduced initial capital costs.

Less piping and infrastructure mean less labour, planning, implementation and other costs.

Superior energy efficiency.

Up to 60% better than typical PTAC units.

Can be used for heating and cooling

Can utilize cold, hot, or both water lines.

Local environmental control.

Each living unit has its own thermostat.

LEED-certified.

You can achieve the maximum number of Leadership in Energy and Environmental Design points by using IPS™.

Approved.

The IPS™ system is approved for use in all jurisdictions in North America.

Flexible designs.

Different configurations for installation in a variety of situations.

Quiet operation.

IPS™ is ultra-quiet, especially when compared to PTAC units.

Decreased lifecycle costs.

The life of PTAC units is measured in years. IPS™ systems last for decades.

The safer greener economical quieter flexible alternative to PTAC, VTAC, and VRF.

Ptac

PTAC: Packaged Terminal Air Conditioner

Vtac 1

VTAC: Vertical Terminal Air Conditioner

Vtac

VRF: Variable Refrigerant Flow