We are running a large single head Mitsubishi ductless h2i in Montana. It easily provides most of our heating needs down to about -5F and some heat down to -15F, we have our old propane boiler / in floor system that kicks on when its really cold.
And it provided ac in the summer which we didn't have previously.
There are some downsides, it was expensive to put in and the outdoor unit is loud. While it does save us money, it probably wouldn't make sense as something that will pay for itself in heating costs with current propane prices and natural gas is much cheaper if you can get it. But definitely makes sense for new construction especially when paired with a wood or propane stove for back up heat in power outages/ambiance/quick heating.
It needs good air flow to work well and the noise is only really a problem inside the house in the room next to it. I may put some sound insulation on the wall at some point.
Really? I'm curious what brand of heat pumps these are. I have two air source units. One is a whole home Carrier Infinity unit (4 ton) and a GE single head ductless mini-split. The Carrier heats and cools our entire home save for a sunroom that's not ducted which is why we also have the mini-split. I never hear either unit.
As a Briton, I can't help thinking that once the unit is in place, with its double-wall sandbag enclosure (including 4' service space), I won't have any garden left.
Americans on this site always mention grid failures as a concern about electric heating/cars/whatever.
While I won’t claim that power failures never happen where I live, because they do…but they’re very very rare and short enough not to care. The only exceptions are major natural disasters like hurricanes.
Americans, why do you have such a terrible electricity distribution grid?
Power outages aren’t an argument against heat pumps anyway. Without power my central fan can’t run and thus my forced air natural gas furnace is dead in the water.
Anyway, where I live in Boise most utility outages are due to physical damage - whether that be animals, auto accidents, extreme weather (not “it got cold”, but wind gusts toppled a tree that brought down a utility pole), and fiber seeking backhoes. Even had the gas get shut off at my old house because an auto accident hit some equipment a street down causing a gas leak.
I will compare some nominal power inputs to add perspective about the dead in the water forced air furnace.
I will compare a nominal 3Ton = 36,000 BTU/h (10.55kW) furnace+AC running at about 1200CFM with gas fuel input at 45,000 BTU/h to similar heat pump system outputs and electric resistance heat.
The central furnace fan is probably about 1/2 horsepower rating (372W) and has some design tolerance built in where the brake horsepower is less than this. The heating output at 80% efficiency is 36,000 BTU/h (10.55kW). This output is constant regardless of outside temperature. This could be run with a small inverter generator or possibly a robust battery system in the 20kWh range with appropriate solar.
Note that the heating input for this size of furnace can go up to ~155,000 BTU/h (45.4kW) with only the same amount of fan power needed in the form of electricity.
Looking through Mitsubishi literature, a 3ton hyper heat pump (SUZ-KA36NAHZ) at 17f can deliver 25400 BTU/h (7439 W) of heat output with an input of 2490 W. You will need strip heat to supplement this output to make up the difference (10.55kW - 7.439kW = 3.1kW of electric heat) So total power input is 3.1kW + 2.49kW = 5.6kW input for 10.55kW output. This might be short a few hundred watts as you still have to run the fan. This could be done with a larger portable generator.
Electric resistance heat would need the full 10,550 W to equal the output and now you need a relatively large fixed natural gas generator and transfer switch.
My personal opinion is that a heat pump system for normal operation with a natural gas or propane furnace as backup emergency heating is a good option to cover emergency situations as much as possible without adding an additional separate system like a wood burning heater or similar device.
Every gas meter I've ever had has been purely mechanical. Have you ever seen one that needed mains electricity to work, and that acted like a shutoff valve when it lost it?
You’re right about the gas meter, but the town/city infrastructure necessary to pump gas through said meter does rely on electricity. They have backups, but for how long? Long enough to ride out most power outages, but nothing unexpectedly extended.
Many rural houses have tanks on site because there are no public gas lines to connect to. My house has a 1000 gallon tank and is not vulnerable to the above, for example.
It’s not bad where I am now in rural Montana but where I grew up near Seattle the power was off for a week plus most winters.
Lots of above ground power lines in heavily forested suburban sprawl means lots of branches in lines every wind storm and they (private) electric co has to visually check all of them before they can turn power back on.
Despite being much more rural the power coop that serves me now seems to never have an outage that lasts more then a few hours. Probally mostly because they have much less pine to check.
> The only exceptions are major natural disasters like hurricanes.
Which is the same as with us Americans.
My last apartment had a handful of power outages and all except one was due to weather. The exception was a transformer that exploded — which seems common as I’ve seen at least three just randomly go boom.
When you get major weather events, where they are pulling in personnel from all over the nation, is when people get concerned about electric heating because it might take a while to get to them.
Does American utilities not pay any compensation for power outages?
My local utility pays 50 EUR starting 12 hours after the start of an outage, and 4 EUR/hr after that. So a 2 day outage would pay out 200 EUR, and it all happens automatically.
There's no exceptions to this (only if you are at fault...), and this gets subtracted from their regulated revenues such that it hits the bottom line.
Naturally, most low voltage distribution lines are buried under ground
Not in Canada.. and this is the first I’ve ever heard of it.
Mind you here we have a much much larger country to cover in infrastructure , so it’s cheaper to run above ground.
Worth mentioning that I’ve lived in Alberta my whole life and I don’t remember a utilities outage lasting as long as 1/2 a day, so not sure a payout after that length of time would make sense anyways.
Our neighbourhood had an outage last winter during the -40 cold snap, and we were definitely at risk of water pipes freezing (gas fireplace was on, but without circulation it didn’t matter). The potential structural damage repair costs from outages up here would be insane, which makes me wonder if that’s part of why our grid seems so reliable (compared to other countries, anecdotally).
Where I'm at (Madison, WI), it's more like multiple times per year. This is a capitol city.
Recently, I stayed for three months on a mountain in Virginia. We lost power at least 6 times, usually for multiple hours. Once it was out half the day. There's a good reason the proprietor there keeps a backup generator on automatic failover.
I'm American, I think it isn't that bad, people are just like to whine and complain. America is also huge, so there is likely someone with a different experience and reason to complain.
My well pump is electric and I haven't been out of power long enough to be concerned about getting water.
We don’t. Power very very rarely fails, but when it has recently it’s been big infrastructures with flawed designs like the freezes in Texas, from what I’ve seen.
America doesn't have regular power outages; they're very infrequent and exceptional. However, when they do happen, they can be really big events, such as the big failure in the Northeast about a decade ago, and the infamous problem more recently in Texas during the winter. There's also local outages from natural disasters or extreme weather. Usually, very localized outages from storms (like falling trees) don't affect that many people and are repaired quickly. Outages from hurricanes, however, are bigger and take much longer to fix. What happened in Texas was just really bad planning and legislation, and only affected Texas.
It seems to depend on the area. In the SF Bay Area, wide scale power outages are rare. In Houston, most of my coworkers had small generators to keep their fridges and air conditioners running after a hurricane knocks out power.
Depends on where you are in the SF Bay Area. The hills in the region often have week long outages every year. I always know when the power goes out because the valley in front of my house hums with the sound of generators.
I mean, 10s of thousands of people isn’t wide scale? Weeks of teams of PG&E workers trying to restore power isn’t wide scale? What is the threshold here?
Most of our distribution network is above ground, so areas with higher wind and older infrastructure are more prone to outages. When I used to live in Ukraine, power outages were rarely due to distribution infrastructure (which was underground in most of the city I lived in) and much more likely to be related to generating capacity. We would go through periods of rationing where there would be frequent outages that would last a few hours, but rarely long enough for food to go bad.
If it doesn't have one already, look at installing a compressor blanket. This reduces compressor noise significantly. High end models generally have these already, but you can buy purpose built blankets for something like $70.
No, wrapping a compressor in a blanket doesn't make it overheat. Compressors are cooled by the refrigerant running through them, not through heat lost through the casing.
Pretty much every rural community will have one if not multiple propane providers. It generally is more expensive than natural gas, but the difference isn't astronomical. Heating with fuel oil is, by comparison, much more expensive.
Don’t know where you live, but here in NC propane is around $3.32 per gallon[0], equivalent to $3.60 per therm. My last natgas bill was $1.38/therm, almost a third the cost. In fact, propane is much closer in cost (per BTU equivalent) to fuel oil than natural gas.
For natural gas, is that only some itemized procurement price, or full price as delivered?
In the SF Bay Area, our last PG&E bill split across Jan/Feb was effectively $3.05/therm. The actual pricing in our bill reflects tiered pricing, with different tier thresholds in each month. The first tier covers up to 2 therms/day in Jan and 1.48 therms/day in Feb. The price tiers were $2.68..$3.06/therm in Jan and $2.75..$3.14/therm in Feb.
The bill also described $1.37/therm and $1.44/therm procurement prices for Jan and Feb, respectively.
Damn, I just got my propane tank refilled - it's a tiny 125 gallon one, mostly backup for our wood stove. We paid something like $2.40, and that's only because we didn't get a bulk discount most people get when they fill up the larger tanks sized for primary heat for a full season.
Propane is a bit more expensive then traditional electric heat depending on the year.
It used to be much cheaper so a lot of old houses that aren't near a natural gas line were built with propane heat. You might save $200-1000 a year by switching to a heatpump but that means 10+ years to offset a ~$10000 install cost for a large unit professionally installed with a new 220 circuit run for it etc so most people just keep paying for propane or maybe use small electric space heaters.
And if you are somewhere you need to worry about pipes freezing in power outage a while you are away or temps bellow the heatpumps minimum -15f range a propane stove is a nice option. Relatively cheap to install and they can be setup to run on a thermostat with no grid power.
If i was building a new house i'd go heatpump + a propane stove for back up heat and a dual fuel induction/propane range.
And it provided ac in the summer which we didn't have previously.
There are some downsides, it was expensive to put in and the outdoor unit is loud. While it does save us money, it probably wouldn't make sense as something that will pay for itself in heating costs with current propane prices and natural gas is much cheaper if you can get it. But definitely makes sense for new construction especially when paired with a wood or propane stove for back up heat in power outages/ambiance/quick heating.