Please elaborate. What are your two control circuits doing? One controlling the fridge to keep your pilsner at 9C and the other..? Maybe controlling a heat belt attached to the ale?
I use a shielded lamp inside my fermantation fridge during winter, guess I'd need to get a belt or some heater that was exclusively the ale heater for you're idea to work.
I have heard this concept discussed before but maybe I'm missing something.
Ok. So if I'm doing an ale, I set the fridge to be at it's warmest via it's own inbuilt thermostat. The highest temperature my fridge regulates at is about 8deg. When doing a lager or pilsner, I set the fridge a bit cooler, say around 4-5deg. I've found I need the fridge to be at least 5 degrees cooler than the controlled set point in the fermenter, otherwise the fermentation can generate too much heat. So far, no use of any extra temperature controllers.
Next, I set (each) fermenter up with it's own temperature probe through its lid and it's own temperature controller, which controls the belt heater(s) for each fermenter. I wrap a bit of light insulation (such as a couple of towels) around each fermenter so that I'm not losing too much heat to the fridge (I want the energy from the belt/s to go into the fermenter, not just be lost to the fridge). There is enough heat loss from the fermenter to the fridge via the towels that the belts need to just top-up the energy in the fermenters to maintain a constant temperature. The Temperature control for each fermenter is independant of each other fermenter's setpoint, as well as the fridge temp.
The key is this: To control temperature via cooling you have to be able to effectively control the evaporation of refrigerant (which typically produces local temps of -20deg C) at specific points around/in the fermenter. This is virtually impossible for the scale a homebrewer works on, so in your fridge you rely on air to transfer and even out heat. Air is really bad at conducting heat, and as such its a very difficult media to use to control your fermenter temperature effectively. It's easy to control it via heating, because you can apply heat by simply turning the belt heater on or off as required, and the heat transfer between the belt and fermenter is (relatively) great. The fridges are just creating a cool environment within which to control the temperature via heating.
I'm in Melbourne, so I don't need the fridge to create the cold environment in winter- I just run the same fermenter belt heat control circuits, but they sit in the garage where the temp is typically 2-8deg. I love winter for brewing.
I think you may find that most of the energy from lamp goes straight out the condensing coil of the fridge, rather than into your brew. Belt heaters are certainly more effective at transferring the energy because of the contact area. They are typically about 11-15W. With suitable insulation, 70% of this energy or more can be utilised for controlling the fermenter temp. I've got about a half a dozen, so if I need to use 2 or 3 at a time on a fermenter I can- this happens when the fridge or the garage is way cooler (like by more than 10deg) than the fermenter setpoint.
Cheers,
jj.
