Made from a thick cast aluminium this plate acts as a large heatsink to absorb heat efficiently from your beer.
This new design of cold plate is made from high conductivity aluminium alloy to aid the heat transfer. In addition to this the cold plates are made with ribs to aid faster heat transfer.
Inside the casting contains 2 x 304 stainless product lines which are 5.5 meters long and 4mm ID.
1. Place the cold plate into your cooler box or ice well.
2. Fill the cooler box with ice. Cold plates require the ice to be in contact with the aluminium casting directly so you MUST drain off the water in order for these cold plates to work optimally. (this is different to cooling coils that require and ice water slurry).
3. Set your keg pressure at 20-30psi.
If you get frothing it will generally be caused by one of two things which are easy to solve:
1. If you look at the beer line between the cold plate and your keg (before the beer has gone into the cold plate) and you have bubbles or air pockets in your beer line then your dispence pressure is too low. Increase your pressure at the keg to ensure the CO2 is not coming out of solution.
2. If you measure the measure the temperature of the beverage as it comes out of the tap it should be below 5C. If the temperature is higher than 5C then:
a) Make sure you have complete coverage of ice in the cooler box
b) Decrease the flow rate of product through the cold plate so you the beverage has more contact time as it passes through the cold plate.
As these cold plates require considerable dispense pressures (20-30psi) your beer will gradually absorb more carbonation if you are using pure CO2 to dispense the beer especially if your kegs are cold. If you are using CO2 to dispense your keg it will work fine for short periods up to 6-7 hours. If however you cease dispensing then disconnect the kegs and take the additional CO2 out of the head space of the keg before storing the keg. This will prevent additional CO2 absorbing into solution. If you are dispensing the kegs over multiple days we would recommend the use of nitrogen/CO2 mixed gas or straight nitrogen and this will prevent any over carbonation of your beer.
With 20C ambient beer temp and flow rate through the cold plate of 300ml/10 seconds and 70% coverage of ice in contact with the cold plate you will be able to reduce the temperature of the liquid as it exits the cold plate to below 4C with a single pass through this cold plate.
If your beer is warmer than 28C we would recommend either slowing your flow rate through the cold plate or alternatively having the beverage pass through the cold plate twice.
– Size: 26cm x 38cm x 2.5cm Thick
– 6.5kg Aluminium Casting with large thermal mass
– 5 meters OD x 4mm ID diameter per 304 stainless tube
– Includes 4 mounting holes if you want to install your plate