Overcoming the Market Barriers for RTU Retrofit Enhancements

Alex Haynor


Approximately 80% of commercial buildings in Minnesota are served by rooftop units (RTUs) for HVAC. Retrofit packages and technologies are viable options for existing standard efficiency RTUs and offer a great opportunity for energy savings, as RTUs serve many different building categories and space types — however, retrofits continue to be uncommon. Since RTUs are typically used for more than 20 years prior to replacement on failure, increased retrofits have much larger potential to impact Minnesota’s 1.5% energy savings goal than do replacements.

The project will establish the statewide energy savings and carbon reduction potential of proven RTU retrofits. These include controls, variable-frequency drives, high-efficiency motors, improved economizer controls, demand control ventilation, dynamic zone balancing, and automated fault detection and diagnostics. The project will define the barriers that have kept these products from significant market penetration and develop strategies to overcome those barriers based on the features and cost-effectiveness of specific enhancements. The findings, along with stakeholder feedback, will inform utility program approaches.  



This project is supported by a grant from the Minnesota Department of Commerce, Division of Energy Resources through the Conservation Applied Research and Development (CARD) program, which is funded by Minnesota ratepayers.  

Project Info

Timeline
 2021– 2022 

Client
Conservation Applied Research and Development (CARD) grant program  

Objective
This project will develop strategies to overcome the market barriers to energy efficiency improvement of existing RTUs by identifying and analyzing market barriers, then suggesting strategies to overcome them.

Scope

  • Technology assessment

  • Utility program assessment

  • Local and regional interviews

  • Field evaluation

  • Data collection

  • Energy savings calculations

  • Decision support tool creation

  • Dissemination of findings
     

Non-energy benefits

  • Improved comfort

  • Improved indoor air quality  
     

Contact
Alex Haynor