A cooling system for use in a beverage dispenser, the cooling system including: a cold plate having a top surface and a side surface; a carbonator arranged in a non-horizontal orientation relative to the cold plate, the carbonator having a sidewall, a lower uninsulated portion of the sidewall of the carbonator being in thermal communication with the side surface of the cold plate; and a fastener coupling the carbonator to the cold plate, the fastener having a lower thermal conductivity as compared to a thermal conductivity of the carbonator.

A cold plate includes a cold plate body. A tubing system is embedded within the cold plate body. The tubing system includes a prechill circuit, a plain water postchill circuit fluidly connected to the prechill circuit, and a carbonated water postchill circuit fluidly connected to the prechill circuit.

Methods and devices for dispensing a cooled beverage are provided. One embodiment of methods includes the steps of mixing a diluent and a concentrate to make a diluted solution. The diluted solution is carbonated to yield a carbonated solution. The carbonated solution is cooled to below 0? C. to produce the cooled beverage, and the cooled beverage is dispensed through a nozzle. A device for dispensing a cooled beverage, where the cooled beverage comprises a diluent having a freezing point at STP includes an upstream cooler that pre-cools a supply of diluent to a temperature above the freezing point. A mixer mixes the pre-cooled diluent with a concentrate to make a diluted solution. A downstream cooler further cools the diluted solution to below the freezing point. A dispenser dispenses the downstream-cooled solution to atmosphere. The temperature of the cooled beverage is below the freezing point when dispensed.

A chilling reservoir for providing in-line carbonation in a beverage dispenser includes a housing having a first beverage material pathway extending therethrough. The first beverage material pathway may have a flow inlet arrangement and a flow outlet arrangement. The chilling reservoir also includes a heat exchanger arrangement that is positioned and configured to be selectively operated to chill beverage material passing through the first beverage material pathway. The chilling reservoir also includes a carbonation chamber operably positioned in the first beverage material pathway of the housing. The carbonation chamber may be configured to removably receive therein a carbonator.

Methods and devices for dispensing a cooled beverage are provided. One embodiment of methods includes the steps of mixing a diluent and a concentrate to make a diluted solution. The diluted solution is carbonated to yield a carbonated solution. The carbonated solution is cooled to below 0? C. to produce the cooled beverage, and the cooled beverage is dispensed through a nozzle. A device for dispensing a cooled beverage, where the cooled beverage comprises a diluent having a freezing point at STP includes an upstream cooler that pre-cools a supply of diluent to a temperature above the freezing point. A mixer mixes the pre-cooled diluent with a concentrate to make a diluted solution. A downstream cooler further cools the diluted solution to below the freezing point. A dispenser dispenses the downstream-cooled solution to atmosphere. The temperature of the cooled beverage is below the freezing point when dispensed.

A beverage dispenser includes a cold plate with a plurality of fluid lines running through it. A cover includes a carbonator housing and a hopper cradle, with a cover aperture extending through the hopper cradle. The cover and cold plate together define a cooling chamber. An ice hopper, which has a hopper aperture, is connected to the cover at the hopper cradle, aligning the hopper aperture with the cover aperture so that cubed ice in the ice hopper can fall through the hopper aperture onto the cold plate. A carbonator is received through the cover into the carbonator housing.