Discovering Air-to-Water Heat Pumps (CLOSED)

更新时间:2024年2月

The project team presented a CARD webinar in December on key project findings — the webinar recording is now available on CEE’s website. The project identified dozens of AWHP models and configurations that are available for a variety of Minnesota residential applications. For systems field-tested in this study, AWHPs产生了6个,300 to 16,600 kWh and $453 to $1,每年节省450英镑. The project team recommends aligning this subset of ASHP technology with existing ECO models and programs and advocates for standardized ratings for AWHP systems to promote the technology as a flexible and effective heat pump solution.

更新时间:2023年4月

萨曼塔希尔, CEE research engineer, presented an interim case study on this project at ASHRAE’s 2023 Cold Climate Conference 3月. Through continuous power, 流, and temperature monitoring, the project team assessed the operational behavior and calculated system 表演 efficiencies for each AWHP system in the field study. While coefficient of 表演s (COPs) above 3 were observed, unaligned control logic between the outdoor compressor unit, indoor distribution unit, and thermostat can quickly reduce the COP by 50% or more. Optimizing system controls could deliver reliable comfort and efficiency gains that will be vital to leverage the remarkable flexibility AWHP systems may offer.

更新时间:2022年10月

The project team has installed four demonstration systems in MN homes. All four systems provide heating and two include the ability to provide air conditioning. In preliminary results, energy outputs have produced as much as three times the energy input. The team is optimizing controls and thermostats and working on other updates to raise the upcoming heating season’s average coefficient of 表演. The team also plans to submit a paper on this project for the ASHRAE and SCANVAC HVAC Cold Climate Conference taking place spring 2023 in Anchorage, AK. 

概述

Recent work with heat pump technology has yielded options that are high in efficiency, 但成本也很高, like ground source heat pumps (GSHPs), which require a geothermal well. An alternative heat pump technology — the air-to-water heat pump (AWHP), a new variant of an air source heat pump (ASHP) — uses electricity to move heat from outdoor air into indoor water. These systems are compatible with radiant heating, domestic hot water, and forced-air distribution. They offer the potential flexibility and higher efficiency of GSHPs at lower costs that are comparable to air source heat pumps. 

This project is a field study of AWHPs to characterize and evaluate their efficiency, 表演, and cost-effectiveness. AWHP systems have the potential to play a central role in the future of residential electric heating, which is used in 17% of the homes served by Minnesota’s cooperative and municipal utilities. Field-monitored units are essential to demonstrate their promise in cold-climate applications.