vas
Well-Known Member
evening all,
still in lockdown not much I can do, so I'm tackling (silly) details.
Two fridges 80lt each onboard, one in salon (Vertifrigo) with compressor assembly not directly attached to the fridge, so better venting, runs generally better and cooler.
Second in a v.tight spot in the galley (Waeco), much hotter place, struggled to bring fresh air from outside and struggled even more to extract it from the compressor.
Second recently serviced with filter replaced (partially blocked)
Both fridges run on chinese 10euro a pop digital thermostats with thermistor placed at the back of the fridge 1/3 from the freezer compartment.
Both fridges also have a digital thermostat (DS18D20) wired to an arduino logging temp every minute.
VenusOS (Victron) running raspberry pi communicates with the BMV700 battery monitor so power/battery state/amps/etc are also monitored.
Following graph shows all data together:
As you can see on the DC System Power & SOC the Waeco runs at higher amperage for shorter periods of time (and more often due to spot/vent) compared to the Vertifrigo.
Waeco is fitted with a 200Ohm resistor in parallel with a 1kOhm potentiometer so I can alter the RPM of the compressor. This setting now is at say 2000rpm, compared to the Vertifrigo running slower and for longer.
Now, visually it looks like the area "under" each curve is more or less the same, so consumption should be similar which sort of makes sense.
Question time: is it better to run a fridge at higher compressor speed for shorter periods at higher stress, or slower speed for longer periods more relaxed. OK, short is 5min, long is around 10... And all that with 10-12C ambient, I can tell you things change dramatically at 25-30ambient
any scientific opinions or plain experience?
cheers
V.
still in lockdown not much I can do, so I'm tackling (silly) details.
Two fridges 80lt each onboard, one in salon (Vertifrigo) with compressor assembly not directly attached to the fridge, so better venting, runs generally better and cooler.
Second in a v.tight spot in the galley (Waeco), much hotter place, struggled to bring fresh air from outside and struggled even more to extract it from the compressor.
Second recently serviced with filter replaced (partially blocked)
Both fridges run on chinese 10euro a pop digital thermostats with thermistor placed at the back of the fridge 1/3 from the freezer compartment.
Both fridges also have a digital thermostat (DS18D20) wired to an arduino logging temp every minute.
VenusOS (Victron) running raspberry pi communicates with the BMV700 battery monitor so power/battery state/amps/etc are also monitored.
Following graph shows all data together:
As you can see on the DC System Power & SOC the Waeco runs at higher amperage for shorter periods of time (and more often due to spot/vent) compared to the Vertifrigo.
Waeco is fitted with a 200Ohm resistor in parallel with a 1kOhm potentiometer so I can alter the RPM of the compressor. This setting now is at say 2000rpm, compared to the Vertifrigo running slower and for longer.
Now, visually it looks like the area "under" each curve is more or less the same, so consumption should be similar which sort of makes sense.
Question time: is it better to run a fridge at higher compressor speed for shorter periods at higher stress, or slower speed for longer periods more relaxed. OK, short is 5min, long is around 10... And all that with 10-12C ambient, I can tell you things change dramatically at 25-30ambient
any scientific opinions or plain experience?
cheers
V.
