@[email protected] to Mildly InfuriatingEnglish • edit-25 months agoPrice of electricity in Finland peaks at 2.35€/kWh today. Keeping my tiny granny cottage warm costs me over 50 euros for a single day. It's negative 25C (-13F) outside.i.imgur.comimagemessage-square295fedilinkarrow-up1863arrow-down112file-text
arrow-up1851arrow-down1imagePrice of electricity in Finland peaks at 2.35€/kWh today. Keeping my tiny granny cottage warm costs me over 50 euros for a single day. It's negative 25C (-13F) outside.i.imgur.com@[email protected] to Mildly InfuriatingEnglish • edit-25 months agomessage-square295fedilinkfile-text
That massive spike of 50c/kWh at the left looks tiny compared to today even though that’s already insanely expensive
minus-square@Knock_Knock_Lemmy_InlinkEnglish4•5 months agoTo turn gas to electricity assume 50% efficiency. 2MWh of gas = 1MWh of electricity.
minus-square@[email protected]linkfedilinkEnglish4•5 months agoSo given that most gas furnaces (at least in the US) operate at 90-95% efficiency, does that mean 20 kWh of resistive electric heat (as measured on the bill) provides similar heat to ~11 kWh of gas?
minus-square@[email protected]linkfedilinkEnglish3•5 months agoIt would equal about 22kWh of gas, since gas isn’t 100% efficient like electric heat is.
minus-square@Knock_Knock_Lemmy_InlinkEnglish1•5 months agoAh. 50% efficency to turn gas into electricity. If you are just making heat then burning gas directly is much better.
To turn gas to electricity assume 50% efficiency. 2MWh of gas = 1MWh of electricity.
So given that most gas furnaces (at least in the US) operate at 90-95% efficiency, does that mean 20 kWh of resistive electric heat (as measured on the bill) provides similar heat to ~11 kWh of gas?
It would equal about 22kWh of gas, since gas isn’t 100% efficient like electric heat is.
Ah. 50% efficency to turn gas into electricity.
If you are just making heat then burning gas directly is much better.