Lower ambient temperature = huge fridge power savings
I mentioned in a different thread that I heat my house to 50°F at night and 40°F while I'm at work. The lower average ambient temperature means my fridge has to work much less hard.
In the summer, I reported that my fridge uses 1kWh/day. Well, it's now at 0.53kWh/day, as an average of the past five days. Btw, if you press the kWh button on the KaW twice, it displays a clock. Letting it run for at least 72 hours is probably the right way to measure a fridge, as mine seems to vary quite a bit from day to day. |
I've also noticed quite a bit of variation in fridge power consumption over time.
BTW, I've read that you shouldn't operate a fridge/freezer out in a garage or other real cold places. Does anyone know why that is? |
something to do with the refrigerant would be my guess. Having said that I had a chest freezer on the back porch where I'd regularly have to shovel the snow off to get stuff out, it's still working fine now that I've moved and have space in my basement for it.
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The reason fridges don't like being to cold is that the freon never changes from a liquid to a gas.
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Does anyone here know the actual temperature below which this becomes a concern for R-134a? I have "steam tables" for R-134a, but I don't know what pressure fridges operate at.
Based on Strider's chest freezer, it's below the point at which my kitchen pipes would freeze. |
Remember I had a freezer keeping things frozen sitting outside where it was below freezing. There is no guarantee the freezer even turned on out there in those conditions. I just know that it didn't end up seriously damaged from the experience.
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Using figures from an example fridge in Thermodynamics (Cengel and Boles), the R134a is compressed from 140KPa to 800KPa in the compressor. This particular fridge would have liquid in the evaporator at -19°C, so I figure any ambient temperature lower than that could potentially cause problems. However, -17°C is the typical set point for a freezer, so I'm going to say the freezer would never turn on under such conditions, and this is a non-issue, at least for this particular example fridge.
Btw, the fridge in this example has a CoP of 3.9, excluding heat transfer from the refrigerant lines, any auxiliary energy usage such as an air circulating fan, and losses in converting electricity to torque. Which is to say, I have no idea what the typical CoP of a fridge is. |
It wasn't a blip. My usage for the past 32 days has averaged 0.59kWh/day.
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