An ice luge mould (1), the mould (1) comprising a first part (2) and a complementary second part (3), the first part (2) and the second part (3) being configured to form an internal cavity therebetween when assembled, the mould (1) further comprising a water inlet (20) and a fluid-tight seal (21, 31) provided around the periphery of the first part (2) and second part (3) and a channel-former (32) configured to form a channel in the ice luge.

An ice making appliance defines a vertical direction, a lateral direction, and a transverse direction. The ice making appliance includes a cabinet, an ice storage compartment, an ice mold provided above the ice storage compartment, a first reservoir provided within the cabinet, a deionization filter provided within the first reservoir, a conductivity sensor coupled to the deionization filter, and a first circulation system is provided in the first reservoir. The first circulation system includes an inlet downstream of the deionization filter whereby the first circulation system supplies filtered water to the ice mold. A second reservoir is provided within the cabinet, and the second reservoir in fluid communication with the first reservoir.

A countertop ice maker appliance includes a compressor, a condenser, a condenser fan, and a motor assembly. A method of operating the countertop ice maker includes initiating a standard ice making cycle, the standard ice making cycle including a first set of parameters for each of the motor assembly, the compressor, and the condenser fan; receiving, via the user interface, a signal to initiate an adjusted ice making cycle; adjusting the first set of parameters to form a second set of parameters for each of the motor assembly, the compressor, and the condenser fan; and initiating the adjusted ice making cycle according to the second set of parameters.

A method of operating an ice maker appliance includes determining an infused ice making mode of the ice maker appliance. The method also includes flowing a volume of liquid water through the pod in the pod receiver, whereby the additive mixes with the volume of liquid water. The volume of liquid water may be a predetermined volume of liquid water based on the infused ice making mode. The method further includes flowing the additive and the volume of liquid water into the mold cavity and retaining the additive and the volume of liquid water in the mold cavity to form an ice piece from the additive and the volume of liquid water. The method may also include operating the ice maker appliance to provide a predetermined temperature based on the infused ice making mode.

A method of operating an ice maker appliance includes determining an infused ice making mode of the ice maker appliance. The method also includes flowing a volume of liquid water through the pod in the pod receiver, whereby the additive mixes with the volume of liquid water. The volume of liquid water may be a predetermined volume of liquid water based on the infused ice making mode. The method further includes flowing the additive and the volume of liquid water into the mold cavity and retaining the additive and the volume of liquid water in the mold cavity to form an ice piece from the additive and the volume of liquid water. The method may also include operating the ice maker appliance to provide a predetermined temperature based on the infused ice making mode.

An ice making appliance defines a vertical direction, a lateral direction, and a transverse direction. The ice making appliance includes a cabinet, an ice storage compartment, an ice mold provided above the ice storage compartment, a first reservoir provided within the cabinet, a deionization filter provided within the first reservoir, a conductivity sensor coupled to the deionization filter, and a first circulation system is provided in the first reservoir. The first circulation system includes an inlet downstream of the deionization filter whereby the first circulation system supplies filtered water to the ice mold. A second reservoir is provided within the cabinet, and the second reservoir in fluid communication with the first reservoir.