My partner and I have been living "off grid" using PV + battery for electricity for the last 5 years in the Appalachian mountains. We track energy use meticulously. We try to use mostly wood heat in winter, but also have a buried propane tank for supplemental heat and hot water in winter. So that is arguably not fully off grid? We have a 2,400-sq. ft. A-frame house with R-52 insulation in most walls (closed-cell + batt) and low-e glass windows (but, alas, lots of windows). We mostly cook with electric or the woodstove in winter. Our woodstove is a massive, pretty efficient soapstone masonry stove central in the house by design. South-facing windows are backed by local stone floors that capture and radiate heat in winter. The house is angled to allow sun to enter windows in winter and block sun in summer for passive heating/cooling.The two of us use just under 5kWh / day average electricity. Our big energy use is heat in winter though! Here is the breakdown:
5kWh/day electric * 365 days = 1825 kWh/year electrons
2.5 cords wood (mostly oak) = 17584 kWh/year wood heat
300 gal. liquid propane = 8400 kWh/year propane heat
That's a total of ~27800 kWh/year for the two of us including heat. That's about 76 kWh/day or 38 kWh/day per person on average. *This includes charging my e-bike for my work commute--but we also have a gas car so not nearly all transportation energy costs.[edited to add this]
I can't see any way to go much lower than that without freezing in the winter. 2 kWh/day seems crazy low to me.
realreality|3 years ago
notatoad|3 years ago
i understand that probably doesn't fit OP's lifestyle, and i'm not suggesting they move to an apartment. but i think it's important to acknowledge that dense urban living can have significant environmental benefits over the sort of self-sufficient, off-grid, rural lifestyle that's typically regarded as being more environmentally friendly. cities, and specifically apartments, are very efficient.
axiolite|3 years ago
disgruntledphd2|3 years ago
socialist_coder|3 years ago
Have you done any analysis or testing on low-e vs normal glass windows in the wintertime? In summer, obviously you want the low-e glass to block the radiant energy. But in the winter, you'd want to allow that radiant energy through, which the low-e glass is not doing.
It seems like low-e glass is only good for summer, and not winter. Have you put any thought into this? Maybe I am missing something crucial about the situation though.
axiolite|3 years ago
Low-E glass reduces inside heat radiating to the outside, too. You can find many articles online discussing the advantages during winter/heating season if you look.
I tested a couple years with/without a tinting film on my west-facing windows (under mini-blinds) and noticed a very, very small increase in winter heating costs, with a big decrease in summer cooling costs, and more consistent temperatures throughout the day in both seasons, which is a benefit in itself (you can use a lower-capacity HVAC system). I suspect a proper upgrade to low-E windows (or at least tinting ALL my windows) would have done much better.
bruckie|3 years ago
I'm not entirely sure if the article intends to measure embodied energy, though, which your calculations don't capture.
archi42|3 years ago
For comparison, we're currently working on our home (bought last year around this time). The new insulation will be U=0.1455 for walls & roof (R-68?) and U=0.29 to the basement. I don't recall the values for windows & the front door. We'll also replace oil with a heat pump and add a ventilation system with heat exchanger. And we only have 1500sqft for two (no additions planned). That will probably be still miles away from those 2kWh/d/person, but much better than the status quo (~2.5kW of heat alone, per person).
Obviously you're already in a good ball park, but GPs value of 2kWh/d/person is just really amazing.
danans|3 years ago
It's 2kW/person, or 2kWh/h/person, or 48kWh/d/person
norenh|3 years ago
kiliantics|3 years ago
jandrese|3 years ago
Some of it depends on the local climate and other factors that you don’t have a lot of control over though.
calaphos|3 years ago
Apart from insulation energy required for heating changes massively with local climate and scales directly with living space. So directly comparing those numbers without additional information is quite meaningless.
Here in Germany, which seems to have a roughly similar climate, ~120kwh/m2 and year is the average for a detached home. Modern buildings are usually a lot less though, 30-50 kWh/m2year seems standard. With specialised construction ('passive house') and heatpumps 10 kWh/m2year is well feasible.
neon_electro|3 years ago
badpun|3 years ago
Since your house is very large for just two people, you could occupy only a fraction of it, and heat only that part. Or, just move to a smaller house.
homerowilson|3 years ago