WBI Radiant Panels Are A Great Match With Hydronic Heat Pumps
Low mass, super quick responding, low water temperature panels
WBI radiant panels require a lower supply water temperature to meet loads than other common radiant distribution, resulting in higher hydronic heat pump capacity/higher COP. Plus, the faster response time of our low-mass, aluminum-clad panels reduces pick-up time.
And yes, WBI radiant panels provide even floor temperatures and fast response for exceptional home comfort. We do think you should consider us with your next hydronic heat pump project where comfort is a high priority.
NOTE: We do not sell hydronic heat pumps but we do manufacture quality radiant panels
Martha’s Vineyard Mechanical Contractor Incorporates Radiant Heating in His Own Net Zero Strategy.
Matt Millard, owner of Performance Mechanical in Edgartown, Massachusetts, loves to experiment with new technologies. His career has spanned commercial piping and mechanical and residential heating systems. He currently installs plenty of efficient air-to-air heat pumps but recently wanted to step up to hydronic radiant heating for his own home addition using an air-to-water heat pump. read more…
Want to Learn more about Low Energy Comfort?
In this video Saul De Los Santos of the world class Messana Radiant Cooling sits down with Active House USA co-founder, David Knight, and Morgan Muir of WBI — makers of Ecowarm RadiantBoard, Thermalboard, and InsulHeat, to delve into the fascinating world of radiant floors.
With passion and expertise, our guests discuss how hydronic radiant floor systems can influence a project’s score on the Active House Radar, providing valuable insights into the benefits of this innovative technology.
Whether you’re an architect, builder, or simply interested in cutting-edge sustainable solutions, this episode is a must-listen.
Hydronic Heat Pumps with WBI Radiant Panels
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Overview of Hydronic Heat Pumps
For those of you not familiar with hydronic heat pumps, below is a brief overview
Modern Hydronic Heat Pumps are Insanely Efficient
The magic of refrigerant change of state, compounds effectiveness of electrical energy output.
While a high-efficiency boiler may be 95% efficient, a modern hydronic heat pump can be 350-450% efficient due to the magic of refrigerant changes of state and modern compressors. That means that the use of an electric hydronic heat pump can be, and often is, more cost-effective than gas or oil especially when mated with solar electricity.
A modern hydronic heat pump can be 250–350% more efficient than a high-efficiency boiler.
Hydronic Heat Pumps are more efficient than Air to Air Heat Pumps
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- More efficient heating
- More efficient cooling
- More efficient hot water
Air to Water or Water to Water Geothermal
We are all familiar with electric air-to-air heat pumps which provide forced air heating and cooling…sometimes referred to as mini splits. These air-to-air heat pumps have been used for whole house and spot cooling and heating combined with a separate electric heat pump water heater providing the domestic hot water. There is a better way.
There are also more efficient air-to-water and geothermal heat pumps (Hydronic Heat Pumps) that generate hot and chilled water for hydronic systems plus more efficient electric domestic hot water supply. All these types of heat pumps can cut electric heating, hot water and cooling energy very significantly opening the door for being powered by reasonably sized solar systems or simply as cost-effective alternatives to propane and oil-fueled systems.
In the past few years, with the development of inverter technology, air-to-water heat pumps can provide warm water at low ambient air temperatures, boosting their geographical range and popularity. Combined hydronic heat pump systems offer the comfort of radiant heat plus more economical hot water generation than a stand-alone heat pump water heater.
Water-to-Water Geothermal heat pumps can make a lot of sense in applications where land or a pond is available for a ground loop and rebate programs exist.
Hydronic heat pumps are central to any hydronic heating Net Zero Energy strategy, as solar electricity can power these systems.
Combined hydronic heat pump systems offer the comfort of radiant heat plus more economical hot water generation than a stand-alone heat pump water heater.
Hydronic heat pumps are central to any hydronic heating Net Zero Energy strategy.
Hydronic Heat Pump Heating
Sizing of Air-to-Water & Geothermal Heat Pumps
Air-to-water and Geothermal heat pumps must be sized very carefully. They’re not like a gas fired boiler where the rated output is what you will get out of it. Heat pumps performance varies significantly according to either the outdoor air temperature for an air-to-water heat pump, or the ground loop temperature if using a geothermal heat pump.
Want to get a bit wonky?
Hydronic heat pumps, whether geothermal or air to water, publish rated performance in terms of COP (Coefficient of Performance) and capacity output for a given model at different outside temperatures for air-to-water heat pumps or ground loop water temperature for a geothermal system.
Performance Issues with Air-to-Water
Look at the chart below for an air to water 36,000 BTU rated heat pump. At the top, LWT is the water temperature the heat pump can generate at a given outdoor ambient temperature: Tamb. The 3 ton (36,000 BTU) high efficiency heat pump below generates approximately half the capacity and half the efficiency at an outdoor air temperature of 0-degree F compared to 45 degrees F.
The lower the outdoor air temperature (or ground loop water temperature), the lower the warm water supply temperature available to the system AND the heat pump heating capacity. But, conversely, the lower the temperature water required to heat the home, the higher the heat pump capacity and efficiency
WBI Radiant panels are a great Partner.
Low-Temperature Heat Distribution Solution
Ecowarm can heat a typical space using 90F-105F water temperature for floor systems and using wall and ceiling configurations in the 80F-95F range. Look at the heating capacity chart above to see what a difference that makes for a hydronic heat pump capacity and efficiency! Ecowarm. A perfect match!
Not all radiant system distribution is equally efficient or effective for use with hydronic heat pumps. Far from it. Some types of radiant floor distribution require very high temperatures!
Low Temperature Ecowarm Radiant Ceiling and Wall Solutions
Ecowarm ceiling or wall systems effectively meet common room loads using 80F–95F supply water temperatures. That is efficiency and capacity to any water-to-water heat pump!
Hydronic Heat Pump Cooling Solutions
Hydronic heat pumps can produce chilled water for cooling. The cool water can be circulated to different types of cooling distribution.
Radiant Ceiling Cooling
WBI Radiant Panels can be employed in both the ceiling and to a lesser extent in floors for radiant cooling. These systems are typically quite expensive. Radiant cooling systems must be carefully engineered with proper mechanical components, controls, and humidity control to work effectively. Consult your hydronic heat pump manufacturer and mechanical engineer.
A new generation of super-efficient and quiet non-ducted fan convectors are now available for cooling. These can be used for spot cooling and whole-house solutions connected by PEX tubing to the mechanical room. There are many low-visual impact solutions from different manufacturers. Examples: Jaga and Myson
Air Handlers
More conventional ducted chilled water air handlers can also be used for both spot cooling, whole house air conditioning and ventilation/HRV designs as part of a radiant floor heat design
NOTE: We do not sell air-to-water or geothermal heat pumps.
We do however have experience with particular brands in the marketplace. Give John Mann a call at 510-868-1768 for recommendations.
Air to Water Heat Pumps
Air to Water Heat Pump Heating Design Considerations in Cold Climates
To meet the worst-case heating design load, the designer may choose supplemental heat in cold climates with either electrical or gas-fired sources or oversize the heat pumps using a buffer tank to reduce system cycling or use multiple heat pumps and stage them to activate according to demand. A couple of manufacturers have internal electric backup, others use buffer tanks with internal backup electric elements and others provide design solutions using gas backup to address these peak load conditions.
Air to Water Heat Pumps: Different Configurations
Some manufacturers supply the heat pumps alone and others offer more packaged solutions with pump modules. Some include the entire heat pump and pumping module located outside and others with the condenser outside and the evaporator and pumping inside.
Some are variable speed and other on/off heat pumps. Some offer buffer and indirect hot water tanks with some having backup electric elements in the tanks.
It is often a good design practice, particularly when using multiple or intentionally oversized heat pumps to employ a buffer/separator tank.
For a wide range of information and diagrams regarding air-to-water heat pumps refer to the Caleffi Air-to-Water Heat Pump Application Guide written by John Seigenthaler or click here to view additional HSC Schematics diagrams.
Hydronic Heat Pump System Design
The company below has years of design experience with air-to-water and geothermal radiant systems.
Monterey Energy Group: David Knight
The information on this page is provided as a description of current trends in radiant heating and related equipment. We are not providing engineering advice for any particular project. The mechanical contractor and mechanical engineer can assess the different options available and apply them as they think is best for a particular project and client.
WBI The Radiant Panel Company incorporates the best balance of high performance, material quality, environmental responsibility, and cost. In short, WBI represents the best value in radiant board heating systems.
Give John Mann a call at (866)341-1854 for recommendations.
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