Heat Pump vrs Furnace/Central

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applebear

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I had a few estimates drawn up to replace my very old furnace [am told it is about 60% efficient, and will go to 95% with new]. I tinkered with the idea of going electric, but was told it would be better to go with a heat pump if that was the case. I know very little about heat pumps, and confess I find myself a little confused when trying to research them.

Does anyone have an opinion on which would be better to go with? I was leaning towards the gas furnace and central air, simply because I'm more familiar with it.

I assume heat pumps come with cooling abilities too? So far, the only thing I really know is the price for heat pump isn't that much over the furnace/central a/c unit [approx 400 more].
 
Up north where I live there are very few heat pumps. They work best IMO in places that have to have AC but heat is used less frequently and not as much.

A heat pump works something like an AC in reverse. The hot air that goes outside on a AC setup is the heat that goes in the house from a heat pump. The trouble in cold climates when its zero outside there isn’t a lot of heat in that cold air to extract.

For me the answer to your question is your location and if you need AC.
 
That was the impression I was getting when trying to research them and thought maybe I just wasn't understanding them right when suggested. Though I've seen [one] in this area, it didn't sound like something that would be used in my area.

I live in Iowa, where the winters get pretty harsh. The summers do get hot, requiring a/c but not to the extent of [let's say] AZ.

Sounds like they are very efficient, but maybe not the right fit in this case.

Thank you for the help!
 
There are also geothermal heat pumps the type I was talking about was air to air. In geothermal they dig wells down in the ground because the earth temp stays something like 55f year round. They can use that warmer area to extract heat thru pumping fluid down into the ground and back up. Those systems are quite expensive.
 
Call up your local guy in middle of January and ask him if he knows how to fix a heat pump.

I think hot water under your floors of bungalow would be a good option.
 
I had a few estimates drawn up to replace my very old furnace [am told it is about 60% efficient, and will go to 95% with new]. I tinkered with the idea of going electric, but was told it would be better to go with a heat pump if that was the case. I know very little about heat pumps, and confess I find myself a little confused when trying to research them.

Does anyone have an opinion on which would be better to go with? I was leaning towards the gas furnace and central air, simply because I'm more familiar with it.

I assume heat pumps come with cooling abilities too? So far, the only thing I really know is the price for heat pump isn't that much over the furnace/central a/c unit [approx 400 more].



http://dnr.louisiana.gov/assets/TAD/education/ECEP/home/d/d.htm


SO . . . WHAT IS A HEAT PUMP?

GOAL:The student will understand how a heat pump operates to heat and cool a home.

OBJECTIVES:The student will be able to:1. Describe how a heat pump heats and cools a house.

2. Explain the difference between an air-to-air and a water source heat pump system.

3. State advantages and disadvantages of using a heat pump.

LESSON / INFORMATION:Answer these questions BEFORE you read this activity packet. AFTER reading, come back and see how much you have learned!

ACTIVITY 1:1. What is a heat pump?______________________________________________________________________________________________

2. Can a heat pump heat and cool a home?______________________________________________________________________

3. How does a heat pump work?________________________________________________________________________________________

The heat pump is considered the most energy efficient, electrically operated HVAC (heating, ventilation, and air conditioning) system on the market today.

The heat pump is a year round heating and air conditioning system that uses refrigeration equipment to provide cooling/dehumidification and heating. The freon or SUVA used in the system absorbs and moves heat. In the winter, the freon absorbs heat from the outside and pumps it into the house. In the summer, the heat pump absorbs heat from inside the house and pumps it outside.

There are basically two types of heat pumps:1. The air-to-air system pulls heat from the outside air and brings it into the house for heating during the winter months. In the summer, it pulls heat from the inside air and releases it outside. Air-to-air units work well in the southern coastal region where winters are relatively mild and the temperature does not remain below freezing very long. (See Figure 1)

hm-d2aFigure 1

2. The water source system uses water as a source of heat exchange. Water is circulated through ground loops in the water source heat pump to help absorb heat from the home in the summer and provide heat to the home in the winter. (See Figure 2)

The water-source heat pump is considered more efficient as the ground remains at a more stable temperature, around 60°F to 70°F.

hm-d2bFigure 2

The air heat pump requires a supplemental heating system for very cold days. Even with this system, however, it is estimated that heat pumps cost 40% to 65% LESS to operate than the more conventional, resistant electric heating and cooling system.

hm-d2cFigure 3

When purchasing a heat pump, it is important to know that the energy efficiency of these systems differ. Heat pumps are rated by their S.E.E.R. (seasonal energy efficient ratio) for cooling and their H.S.P.F. (heating seasonal performance factor) or C.O.P. (coefficiency of performance) for heating.

SEERs range from 8 to 15 and HSPFs or COPs from 5 to 8. In each case, the higher the number, the more energy efficient the system. A SEER of at least 10 and a HSPF/COP of at least 6.0 is recommended. Initial cost of higher efficiency systems may be greater, but energy savings should make up for this investment.

ADVANTAGES.1. More even temperatures.

2. More comfortable humidity level in the winter; not too dry.

3. Less noise and odor.

4. No pilot light or vent to worry about.

5. No seasonable change over.

6. Only one fuel bill.

7. May supply hot water with excess heat generated during the summer.

8. Fewer home fires are caused with heat pumps in comparison to gas heating.

DISADVANTAGES.1. The major disadvantage of the air-to-air system heat pump is its inability to operate well at very low temperatures and thus requiring a back-up system. In the Gulf Coast region, however, extremely cold temperatures are not often a problem.

2. Another disadvantage is that some people find the air provided by the heat pump "cold" in the winter months. While this air is actually as warm as 105°F, the cool feeling can be lessened by directing air registers towards walls instead of directly downward, though this sometimes lowers heating effectiveness.

3. Very expensive up front costs for water source heat pumps.

RESOURCES:Baker, Gene and Peavy, Margaret M. Keep Home Heating & Cooling Equipment in Top Shape, Publication 2000(A-4). Cooperative Extension Service, Louisiana State University, Baton Rouge, LA, n.d.

Building Energy Efficient Homes in Louisiana. Louisiana Department of Natural Resources, Baton Rouge, LA, n.d.

Design One: Heat Transfer and the Utility Bill. SLEMCO, Lafayette, LA, n.d.

Slemco Builder's Guide for Energy Efficient Construction. SLEMCO, Lafayette, LA, 1988.

INFORMATION CHECK1. What does the term HVAC refer to?





2. What is the purpose of freon or SUVA in the heat pump? What does it do?





3. What is the difference between an air-to-air heat pump and a water source heat pump?





4. What is SEER and HSPF / COP? What should we know regarding these terms when purchasing a heat pump?





5. List five advantages of a heat pump over the more traditional heating/cooling systems.







TEACHER'S NOTESACTIVITY 1:1. A heat pump is a new type of electrically operated HVAC. It uses a refrigeration unit and freon, or SUVA, to transfer heat between the house and outdoors.

2. Yes. A heat pump can act as an air conditioner in the summer for it absorbs heat from inside the house and moves it outside. In the winter it acts as a heater by absorbing heat from outside and bringing it inside the house.

3. The heat pump uses freon, or SUVA, to absorb and move heat. In the winter, the freon absorbs heat from outside air or water and brings it into the house. A supplemental heating system is also used. In the summer, the system absorbs heat from inside the house and deposits it outside, thus cooling the interior.

DEFINITIONS:1. Freon or SUVA -The principal ingredient in a refrigeration system that absorbs heat; a coolant.

ANSWERS TO INFORMATION CHECK:1. Heating, ventilation, and air conditioning system.

2. Freon, or SUVA, absorbs and moves heat. In the winter, freon absorbs heat from outside air or water and brings it into the house. In the summer, the freon absorbs heat from inside the house and pumps it outside.

3. An air-to-air heat pump moves heat from outside air to inside air, or vice versa. In the water system, it is water that is used as a source of or a receiver for heat.

4. The SEER is the energy efficiency ratio and it tells how well the system cools. The SEER range is from 8 to 15. The HSPF is the coefficient for performance and it tells how well the system heats. The HSPF / COP ranges from 5 to 8. When purchasing a heat pump it is important to know that the higher these numbers, the more efficient the system. Purchase a heat pump with an SEER of at least 10 and a HSPF / COP of at least 6.0.

5. Some advantages of the heat pump include:- It is considered the most energy efficient electric HVAC system.

- It can save from 40% to 65% on operating costs over traditional electric heat.

- It provides a more even temperature.

- It provides a better humidity level in the winter.

- It has little noise or odor.

- There is no pilot light or vent to worry about.

- No seasonal change over between systems.

- Only one fuel bill.

- May heat water during the heating or cooling stage of operation through a heat transfer.

- Less chance of heating system causing a fire.
 
I have several heat pumps. They don't do so well in the heating mode. They are ok when it doesn't get below 40, but beyond that you need a heat strip which is a giant toaster in front of your fan. They are great for cooling but not very efficient by themselves for heating.
 
my house i 100% electric. I have electric baseboard heaters, also in live in Montreal Quebec. my normal eclectic bill is usually around $2,000 per year.
a couple of years ago i super insulated the attic with 18 inch blown in insulation. and installed a heat pump. what they call a split system.
i went from $2,000 to $1,200 .
So they do work . But the outside air temp must be above 7 degrees F for it to work efficiency.
 
My split system HP has worked as low as 8° but there is a point (parity) where a HP spends too much time in defrost to be economical. For my unit the supplier estimated parity to be at around 20°.
 
We have Fujitsu heat pumps in our well insulated house In the Annapolis Valley of Nova Scotia. We leased the heat pumps from Nova Scotia Power. Prior to this we had an electric boiler and I floor heat. We still use the boiler on very cold days. This works out to about 10 days per year. Our electric bill went from about $5000.00 per year to around $3,000. I can give you the exact numbers if it matters. So you may want to keep your existing system as a back up and use the heat pump the rest of the time. We also use the cooling function in the summer and we did not have Air conditioning prior to the heat pump so the $2,000 savings would be even greater if we did not cool the house. I believe our system can efficiently heat the house to -15 degrees Fahrenheit
 
Pumps can last a long time just cooling occasionally in summer, but if providing heat/cooling year around the expensive compressor may need to be replaced quite often...
Around here electric resistance heating costs about 6 - 7 times what gas heating costs, although can get an electricity discount if going all electric...
Another consideration is I'm paying a rate of 33 cents for gas, but it looks like when that runs out, the offers are now more like 60 cents to $2 for a new gas contract...
 
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Why are heat pumps supposedly better for humidity in the winter than a furnace or electrical heat?
 
Why are heat pumps supposedly better for humidity in the winter than a furnace or electrical heat?
Traditional old combustion furnaces pull moist air out of the home for combustion and exhaust it, causing dry winter air to have to seep in to replace it...
 
This guy has a series of videos on heat pumps. Given your climate 25 years ago gas would be the clear winner. Today they are getting much more efficient. Given my milder climate and my electricity costs and gas prices I decided to stick with a gas furnace and a higher efficiency central air system. With my new AC my summer bill so far this year went down $20 a month. I won't know if that will play out for the whole summer until we get through that.

 
Dear AppleBear: I agree with the posts above that recommend installing a heat pump. A few key points for clarity:
  • New models still work effectively when the outdoor temp is below zero. See the links below to Mitsubishi and Fujitsu, two of the leading manufacturers of heat pumps,.

  • Heat pumps are very efficient and will definitely save money on your heating bill -- particularly with the recent spike in natural gas prices.
  • Your home already has ducts, so you do not need to install 'split system' with head units mounted on the walls, and run pipes to them. A heat pump can be installed inline with your ductwork - simply replacing your old gas furnace and air handler (blower). See: https://www.mitsubishicomfort.com/residential and https://www.fujitsu-general.com/us/products/central-air-conditioners/heat-pumps/index.html
  • Because you have natural gas piped into your home, you can also have a burner installed above the new system as backup.
I hope this is helpful.
 
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