Refrigerant Heat Transfer in Air To Air Heat Pumps

EARLY MAN

The magic of refrigerant:  It is believed that man, early man, discovered fire around two million years ago.  Now, I’m old, but I’m not that old so I have to take the scientists’ word for it.  I suspect within a short time after discovering fire, using it for the purpose of creating heat became one of its earliest practical uses. 

Water, being abundant and readily available, became the obvious media for heat transfer.  Heat the water with fire and then move the water, or the steam it produced upon boiling, to areas that required heat. 

Hydronic heating systems can be traced as far back as the end of the 14th century and steam heat is documented as early as 1784.  So, it’s not surprising that most of us when we think of central heating systems picture fire and water as the key elements.  

Now, with the advent of air-to-air heat pump systems, many of us struggle to understand how a system that does not utilize fire or water can extract heat from outdoor air temperatures as low -30°C / -22°F.  Well, the answer is magic! 

Not buying it, right?  Well, its magical in my opinion.  What many of our customers don’t know and what many of us professionals take for granted is the unique characteristics of refrigerant.  Along with some really cool compressor technology, it is refrigerant that makes extracting heat from seemingly crazy cold outdoor air possible. 

I need to come clean with you about the motivation for the subject of my article this month.  I was asked to participate in a project sponsored by the Heating, Refrigeration and Air Conditioning Institute HRAI, located in Mississauga, Ontario, Canada.

The project involves creating a document that explains the different types of heating technologies in terms that the typical civilian would understand.  The project was birthed out of the new, strict energy conserving and de-carbonization codes recently enacted in Vancouver, British Columbia. 

My portion of the project is to create a civilian-friendly explanation of the air-to-air heat pump.  So, as my deadline for this article approached, I thought maybe I could kill two birds with one stone (it’s an old man’s expression, no birds were harmed in the writing of this article).

MOVING HEAT FROM ONE PLACE TO ANOTHER

OK, lets get back to the task at hand.  What many end users don’t know is that air conditioners do not add cooling, but rather extract heat from a room.  In this scenario, the evaporator (the coil in the room being conditioned) is passing room air over it (via a fan) and the refrigerant flowing inside the coil is absorbing heat from the room air and sending it to the outside unit (condenser) where the heat is extracted (again, via a fan) and dissipated into the outdoor atmosphere.  

So, lets get to the magic part, R410A refrigerant boils at -48.5°C / -55.3°F and it is this that allows it to absorb heat even at -30°C / -22°F outdoor air temperature. 

Is it starting to make sense now? The transfer media (refrigerant) being used in an air-to-air heat pump is where the magic takes place because without it, well, we would be back in the 14th century.

OK, a bit of an exaggeration but you get my point.  Air-to-air heat pumps when in the HEAT mode reverse the refrigerant flow cycle described earlier, now the outdoor unit coil becomes the evaporator and the indoor unit coil becomes the condenser, releasing the heat extracted from the outdoor air into the room. 

Its also important to know that the refrigerant changes state (liquid to liquid / vapor to gas) as it circulates throughout the system.

Mrs. Gillacuddy explained to us in sixth grade science class that matter can change state but what she didn’t tell us is that when it does, it produces energy in that process, the energy that an air-to-air heat pump translates into heat. 

The advent of the inverter compressor, the “pump” in the air to air heat pump, took heat pump technology to yet another level.  

The inverter compressor is best described as a modulating compressor, much like the engine in your car.  End users aren’t expected to understand how a compressor works but they do generally have a good understanding of how the automobile works.

Mrs. Gillacuddy knows when she puts the pedal to the metal of her four-door, 1967 Chevy Malibu, the Malibu takes off. She also knows when she takes her foot off the gas that the Malibu slows down and lastly, she knows when she puts the Malibu in “cruise-control” that the car maintains a preset speed.  

I tell you this my friends because that is exactly how an inverter compressor works!  When the load is great (it’s hot inside) the compressor will run up to 3600 RPM like every other compressor in the world, the difference being, when the load is less than great we can take our foot off the gas and as a result, use less gas use less voltage, but you know what I mean. 

And when the temperature of the room meets Mrs. Gillacuddy’s setpoint temperature, her comfort number (68°F / 20°C, 70°F / 21°C, 72°F / 22°C) well, then the compressor goes into  cruise-control, simply using just enough energy to maintain her setpoint (comfort number)  temperature. 

TWO STAGE INJECTION

Ok, we are getting close to the end here but I do have to tell you about the latest advancement to the inverter compressor which adds yet another level of energy conservation and low outdoor temperature heating ability to the air-to-air heat pump. 

The good people at TOSOT have created what they call the “two-stage enhanced vapor injection compressor.”  Now, before I go any further, those of you who know me and have attended one of my TOSOT  product training events know that I am brutally honest. 

I tell you when I like something, and I also tell you when I feel something can be improved.  In this case, I’m going to tell you that calling your compressor “vapor injection” is like saying your beer is “fired-brewed.”  Of course, your beer is fired brewed, that’s what brewing is! 

The Stroh Brewery Company clearly had a clever marketing person who took something that every brewery did and made it sound special and unique. 

The similarity here is that ALL compressors are vapor injection, we don’t compress liquid, do we?  That would be bad…DAH! 

What is special and unique about the TOSOT two stage enhanced vapor injection compressor is the “two stage” portion of its description. 

Adding a second “injection” point for refrigerant in a vapor state but at two different pressures allows for even greater production of energy (in this context, heat) because not only is energy produced when matter changes state, but it is produced when that matter changes pressure.  

Well, those of you reading this article in a trade magazine or an online trade website are probably saying to yourself right now, “yeah, I knew all that already.”  How I hope this article may help you is in relating what you know to your customer, or potential customer when trying to sell the attributes of the air to air heat pump. 

Technology has come a long way over two million years and although much of it may seem obvious to the professional, it’s not a bad idea to take a moment and appreciate the “magic” that is found in our trade. 

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Gerry Wagner

Gerry Wagner is the Vice President of Business Development for Bathica, Quebec, Canada. He has forty one years in the HVACR industry, working in manufacturing, contracting and training. You can contact Gerry by email: [email protected] and also please visit our website: TOSOTamerica.com

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HVAC Know It All was created by Gary McCreadie, a licensed refrigeration and gas technician, with three goals in mind:
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