On non-Inverter ACs, I only need to use the power input (e.g. 800W) to calculate my energy cost for a 12-hour usage. (800*12/1000 = 9.6kW-hr)

On Inverter ACs though, I know they don’t operate at 100% all the time, and most of the time the only information I get is their cooling capacity (e.g. 1hp ≈ 746W) and their EER (e.g. 12.2 kJ/hW).

How do I use these to get a rough estimate of the energy cost?

  • amiganEnglish
    1313 days ago

    Conventional ACs don’t “operate at 100% all the time” either. The compressor is cycled by the thermostat. You cannot calculate consumption of either without knowing the temperature gradient between the conditioned and outside space.

    • @db2
      813 days ago

      It gets even more difficult with inverters… they’re unquestionably more efficient as they don’t run balls to the wall all the time, but without taking actual readings and logging them the math is basically impossible.

      • amiganEnglish
        613 days ago

        I’d say it’s pretty damn difficult for both. The VFD speed is dependent on the gradient, just like the duty cycle of a conventional AC is.

    • @QuarterSwede
      413 days ago

      Great point. The temperature delta changes all the time. It’s almost impossible to accurately know even with rough math. Might be what you came up with using historical data, might not, if the temps are unseasonably warm or cold.

  • @Eheran
    613 days ago

    Depends on your cooling requirements? Full blast it is the same as before. Anything less proportionally less.

  • @Brkdncr
    613 days ago

    Too many variables. Energy usage isn’t constrained to efficiency of the hvac.

    What’s the energy consumption of your current unit? compare that equipment to a newer model to get an idea.

  • silly goose meekah
    413 days ago

    A power meter is like 10 bucks. If you really want to know, that’s probably the easiest way.