So have I, and nowadays it very much is almost always available situation people expect, even for fully electrified homes. PV paneling cheaper per square m than fencepost plus being able to store a full weeks worth of average amarican home consumption for 20k of new battery have combined to make generatorless off grid a lot more practical.
Even then, modern heat pumps on average only use in the neighborhood of .5k to 2k kwh during the coldest months in southen Canada/ northern US, that is definitely within the capabilities of an reasonably affordable properly designed off grid solar system. Hence why I suggested it was reasonably doable for a fully electrified home, and will likely be much cheaper by the time your average lemmy user is building or buying their dream home.
Currently such a system is already in the cost range of twice that of a inground pool, by far the two most expensive parts of it, overpanneling and battery storage are plummeting in cost.
I think you underestimate what it takes to heat an older structure in the north. 7kw is pretty common for whole-home retrofits. Enough to run that all night in winter during an extended cloudy spell means a lot more panels and a lot more storage.
Are you suggesting a 7kw heat pump, or 7,000kwh/m highest hearing load? Because the former would already come out to about 2.5k kwh assuming a 12h duty cycle for 30 days, while the latter would cost over a thousand dollars a month to run at average US electricity prices during the month of highest load.
For reference the typical heat pump in the typical amarican single family house consumes 5.4k kwh in an entire year.
and it says “Based on an EnergySage analysis of a Department of Energy database, a typical heat pump in a typical home uses 5,475 kilowatt hours (kWh) per year”
but then treated it as meaning a “about 5½kwh” instead of 5475kwh.
The two are very different numbers, and most heat pumps in the US are currently installed in warmer locations, so you can expect utilization in colder places to be appreciably higher.
A heat pump won’t be running at peak output all year long, but during winter in the north, it’s likely to do so every night for a week at some point.
A $1000/month heating bill isn’t that rare in some parts of the US in winter.
In most (sane) numbering systems, you can use a k in place of thousands, m in the place of millions, etc. Becuse all the numbers around the scale of energy use involving the entire monthly power consumption use of a heat pump in a cold climate as well as solar production and storage needed are in thousands, you will note I wrote all the relevant numbers with the abbreviation k, so 5,475 kwh is equivalent to 5.4k kwh.
Admittedly 5.4 mwh would have been more clear, but because megawatt hours is less commonly used and would involved useing two diffrent units next to each other I used thousands of the same unit for consistency. Please go back and re-read all of my comments with this new knowledge in mind.
Yes, many heat pumps are installed in warmer climates, though that is changing, but blowing through the entire yearly national average in three weeks and then doing it again is lot of power for a climate contentious and thusly presumably well insulated off grid modern house to use. (Also, if we go back to what this conversation is about, the original commenter gave no indication that they were in a very cold climate with thousand dollar a month heating costs in the first place.)
I’ve lived with one of those systems:
It’s not the same as the almost-always-available situation that people expect.
So have I, and nowadays it very much is almost always available situation people expect, even for fully electrified homes. PV paneling cheaper per square m than fencepost plus being able to store a full weeks worth of average amarican home consumption for 20k of new battery have combined to make generatorless off grid a lot more practical.
Yes, if you’re not running HVAC in a northern climate. Those use enough electricity that grid-connection is incredibly valuable.
Even then, modern heat pumps on average only use in the neighborhood of .5k to 2k kwh during the coldest months in southen Canada/ northern US, that is definitely within the capabilities of an reasonably affordable properly designed off grid solar system. Hence why I suggested it was reasonably doable for a fully electrified home, and will likely be much cheaper by the time your average lemmy user is building or buying their dream home.
Currently such a system is already in the cost range of twice that of a inground pool, by far the two most expensive parts of it, overpanneling and battery storage are plummeting in cost.
I think you underestimate what it takes to heat an older structure in the north. 7kw is pretty common for whole-home retrofits. Enough to run that all night in winter during an extended cloudy spell means a lot more panels and a lot more storage.
Are you suggesting a 7kw heat pump, or 7,000kwh/m highest hearing load? Because the former would already come out to about 2.5k kwh assuming a 12h duty cycle for 30 days, while the latter would cost over a thousand dollars a month to run at average US electricity prices during the month of highest load.
For reference the typical heat pump in the typical amarican single family house consumes 5.4k kwh in an entire year.
I think you googled, took the first result, which was:
https://www.energysage.com/electricity/house-watts/how-many-watts-does-an-air-source-heat-pump-use/
and it says “Based on an EnergySage analysis of a Department of Energy database, a typical heat pump in a typical home uses 5,475 kilowatt hours (kWh) per year”
but then treated it as meaning a “about 5½kwh” instead of 5475kwh.
The two are very different numbers, and most heat pumps in the US are currently installed in warmer locations, so you can expect utilization in colder places to be appreciably higher.
A heat pump won’t be running at peak output all year long, but during winter in the north, it’s likely to do so every night for a week at some point.
A $1000/month heating bill isn’t that rare in some parts of the US in winter.
In most (sane) numbering systems, you can use a k in place of thousands, m in the place of millions, etc. Becuse all the numbers around the scale of energy use involving the entire monthly power consumption use of a heat pump in a cold climate as well as solar production and storage needed are in thousands, you will note I wrote all the relevant numbers with the abbreviation k, so 5,475 kwh is equivalent to 5.4k kwh.
Admittedly 5.4 mwh would have been more clear, but because megawatt hours is less commonly used and would involved useing two diffrent units next to each other I used thousands of the same unit for consistency. Please go back and re-read all of my comments with this new knowledge in mind.
Yes, many heat pumps are installed in warmer climates, though that is changing, but blowing through the entire yearly national average in three weeks and then doing it again is lot of power for a climate contentious and thusly presumably well insulated off grid modern house to use. (Also, if we go back to what this conversation is about, the original commenter gave no indication that they were in a very cold climate with thousand dollar a month heating costs in the first place.)
For a modern well-insulated structure, sure. But a lot of US housing was built without insulation. And people live in it and would prefer to retrofit.