PTAC Energy Saver for Commercial HVAC Energy Savings in Oregon

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TIME TO ACT: 

Save 20% or more on HVAC. It’s important now more than ever for a sustainable future! 

Optimizing PTAC units with a “smart” device is a fast, easy, and cost-effective way to achieve Commercial HVAC Energy Savings. A Packaged Terminal Air Conditioner is a type of self-contained heating and air conditioning system commonly found in: Hotels, Motels, Senior Housing Facilities, Hospitals,  Condominiums, Apartment Buildings, and Add-on Rooms & Sunrooms.

Business owners and homeowners face increasing challenges with energy costs to save energy and money in Oregon.  PTAC Energy Saver offers an Adaptive Climate Controller (ACC). It is a proven HVAC energy saving device that quickly installs on PTAC units. There are many companies that claim to produce energy savings, but the ACC device is multi-panted and proven over many years. Plus, it has extensive validation tests by organizations such as:

• ConEdison, Manhattan Plaza New York City
• Environmental Test Laboratory, Ohio
• EME Consulting Engineers (Third Party), Sponsored by NYSERDA, New York
• State University of New York, Oneonta, NY
• Tim Garrison (Third Party Testing)
• McQuay Cooling Tests
• Purdue University Tests (Phoenix)
• ConEdison Tests by ERS

Typically, when an HVAC system turns off, shortly after, the blower fan motor turns off. The ACC reprograms the blower fan not to shut off but to throttle back the rpm airflow to an exceptionally low speed, quiescent level airflow or “idle speed”. This allows for a gentle but continuous air movement into the building that helps keep equilibrium of climate conditions in the occupied space and saved energy.

PTAC Energy Saver can help you navigate the complexity of HVAC energy saving choices: CONTACT PTAC Energy Saver

Here is an example of some Commercial HVAC Energy Saving info for Oregon:

Switching to efficient, electric HVAC appliances could save Oregon $1.1B through 2050, study finds

Dive Brief:

• In Oregon, a switch to sales of only zero-emissions residential heating and cooling appliances by 2030 could nearly halve climate pollution by 2035 while increasing electricity demand from homes and buildings 13% by the middle of the century, according to a recent report from Synapse Energy Economics. 
• The report, prepared for the Sierra Club, found that making this transition could lead to $1.1 billion in gas and electric system savings for the residential and commercial sector through 2050, with cost savings beginning in 2030.
• The city of Eugene is currently developing a local policy to wean developers off natural gas in new construction, making it the first in Oregon to do so. The state is aiming to reduce greenhouse gas emissions by at least 80% from 1990 levels by 2050.

Dive Insight:

Meeting Oregon’s climate goals will mean reducing the carbon footprint of residential and commercial buildings, which currently produce 35% of the state’s carbon dioxide emissions, according to the report. One approach is to electrify building appliances and systems and switch to efficient electric heat pumps. 

There are two types of heat pumps, according to Fred Heutte, senior policy associate with the NW Energy Coalition:  those that can provide air heating and air conditioning and those that provide hot water. 

“We’re poised to do a pretty big upward market transformation [with] both kinds of heat pumps in the next few years,” Heutte said, adding that the recent Synapse report builds on work that has been happening in the state for a long time. The transition to heat pumps represents a shift away from natural gas heating as well as older styles of electric resistance heating, he said, which tend to not be as efficient. 

The report took a closer look at two electrification pathways: one that assumes a 100% market share for efficient electrical systems by 2025 and another that reaches that goal by 2030. The more-aggressive 2025 deadline would reduce carbon emissions by 56% by 2035, according to the report, while increasing electricity consumption 12% by 2030, and 13% by the middle of the century. 

The 2030 pathway, meanwhile, would reduce emissions 47% by 2035 while increasing electricity demand 10% by 2030 and 13% by 2050. These efforts will likely lower energy system costs in both scenarios, the study found: The 2030 pathway is estimated to lead to $1.1 billion in savings through 2050, while the 2025 pathway saves around $1.7 billion in the same timeframe.