I'm looking at buying a heat pump for my house. I've had five contractors here, and they each recommend something different.
One guy recommended a single-stage system because of 1960s ducts in the slab can't be altered. He says that the static air pressure will be a problem otherwise.
There is some truth here. If the system is oversized, or if the ductwork is too small for a properly sized system, a variable speed motor WILL compensate- to a point. Then your operational costs will go up and motor life will go down.
He recommends simple, so there is less to break.
Also some truth here. However, nothing is simple any more.
For the most part, control boards are well engineered to get past the *up to* 10 year warranty if the equipment is registered. These boards are commodity items and not fragile pieces of glass. All equipment has some sort of control board or two or thee in it now. No escaping it. They can be taken out by power surges or cheaper component substitution at the place of manufacture. The first one you can mitigate with surge protection devices.
Another guy said that the variable speed could handle the ductwork just fine.
It will, until it doesn't.
One guy recommended disconnecting the natural gas and using entirely electric heat to supplement the heat pump. He says that a hybrid system is an upsell.
Bad idea.
A couple of guys recommended the full bells and whistles, variable everything.
I would do the same.
Five contractors recommended five brands of systems. Is Lennox really worth the extra $1000s over York or Heil?
No, if the equipment specs are otherwise similar. You can't compare on price alone.
Everyone agrees that I need 3 tons of cooling.
How? Based upon what you got now? Or did someone actually do a load calculation?
One guy said that he heat pump is good down to -5°F, another only down to 30°F, and a third says down to 20°F.
How do they know this?
I'm feeling overwhelmed.
My house is a 1500 sq ft ranch built in 1963. Single level. Albuquerque has about 4000 heating degree days.
Built in 1963 = ****** insulation. Roof - ceiling combination = ****** insulation, no matter when it was built unless the cavities are filled with spray foam or well fitted solid foam.
Like it or not, you need a load calculation. You can spend $50 for HVAC-Calc and get a single use license. Not ACCA approved, but it works and the learning curve is shallow.
Most heat pumps lose capacity as temperature drops. Only the high end stuff like Mitsubishi Hyper Heat or Bosch IDS Ultra does not (within limits). Bosch IDS Ultra claims to output full BTU capacity down to 3º F and to continue to initiate a call for heat down to -13ºF. This information is in the manufacturer specifications, which includes indoor coil match.
Other manufacturers offer inverter type systems and they are as much or more than Bosch and do not have the same features.
You need the load calculation to figure two things:
- Balance point: this is the point when the heat pump will no longer heat your space. Load calculation results and manufacturer data are used to figure this number in a balance point calculator.
- Economic balance point: this is when your utility costs make the use of the heat pump not economically viable. If you have low natural gas costs and somewhat reasonable electric rates, then an example economic balance point might be 50ºF. You do not know this without doing the math. The math changes as utility costs change.
- The "economic balance point" is put into the dual fuel thermostat as "compressor lockout temperature".
- If you are not provided with a balance point and economic balance point, it is a guess as to whether or not the system will work, and it can easily cost you way more to operate it.
Your ductwork needs to be evaluated as part of the load calculation.
Improving insulation can reduce equipment size and therefore reduce or eliminate ductwork problems. Airflow and therefore ductwork size is dictated by equipment size.
If you are chasing a tax incentive, the equipment has to have an AHRI matching number. A larger indoor coil can be put on a Bosch system to get more heat output, but there will not be an AHRI match combination for that system... and the ductwork has to be there to support the airflow. Bosch has easy to read tables that show outdoor+indoor+furnace combinations and capacities.
Whatever you do, it is
IMPERATIVE that you register the equipment online for that "free" 10 year parts warranty. The inverter board in the outdoor unit is 4 figures to buy it.
I would also
STRONGLY recommend surge protectors at the furnace and at the outdoor unit.
Disclaimer: I have a 2 stage heat pump (but not Bosch) in my house with a VS 2 stage gas furnace. I can do a load calculation. I can figure the balance points. I have installed Bosch. I know what I am talking about.
Good luck.
