From a technical perspective, this is why a colder than average winter will affect (air-source) electric heat pumps more than resistance or fuel sourced heat. As the outside temps go down, the efficiency decreases in a heat pump, so the curve is non-linear. For electric resistance and fuels, the outdoor temperature has a near zero effect, making the increase in cost linear.
Not that it matters too much. Electricity costs in most of the US are relatively stable whereas fuel costs can swing by a factor of five or more from year to year ($2/MMBTU to over $12/MMBTU in the last decade). Oil doesn’t play much into heating anymore, but it can also swing by more than a factor of two (From a low of $2/gal to over $5/gal in the last decade). Electric, though, is up by 25% over the last decade (on average) and varies by less than a a couple percent from year to year, slowly increasing at around a 2% average rate.
but your strips only need to come on when it’s very cold out. in almost all climates that’s only the very coldest days, and in some places like LA it’s never too cold
Lumping resistive-only heat and heat pump heat together seems nearly criminal.
Yeah my heat pump runs at ~2kwh but if the heat strips come on it’s another 10kw.
From a technical perspective, this is why a colder than average winter will affect (air-source) electric heat pumps more than resistance or fuel sourced heat. As the outside temps go down, the efficiency decreases in a heat pump, so the curve is non-linear. For electric resistance and fuels, the outdoor temperature has a near zero effect, making the increase in cost linear.
Not that it matters too much. Electricity costs in most of the US are relatively stable whereas fuel costs can swing by a factor of five or more from year to year ($2/MMBTU to over $12/MMBTU in the last decade). Oil doesn’t play much into heating anymore, but it can also swing by more than a factor of two (From a low of $2/gal to over $5/gal in the last decade). Electric, though, is up by 25% over the last decade (on average) and varies by less than a a couple percent from year to year, slowly increasing at around a 2% average rate.
but your strips only need to come on when it’s very cold out. in almost all climates that’s only the very coldest days, and in some places like LA it’s never too cold
That’s my point, my heat pump uses on avg 1/5th the energy of my heat strips. Comparing the two is at best disingenuous.
Yeah. Been a standard for gas industry propaganda for a while