Self-Contained – Slimline LS
$3,269.00 – $3,614.00
- Self Contained Slimeline LS
- Through-the-wall installation
- Condensate Evaporator
- Two-speed fan switch
- Up to 45% more capacity
- UV light upgrade
- Customizable front panel
- Quiet and efficient operation
- Advanced electronic display
- Liquid-temperature-measuring bottle probe
- Can be mounted in the often-unused space above a door
- 30°F temperature differential
We are happy to announce the first unit in our new luxury series (LS). The new Self Contained Slimline LS has evolved into a unit that can cool at two capacities at the flip of a switch. We have added centrifugal blowers, which are significantly quieter and can also be set at a medium or low speed, larger coils for greater system capacity, and an improved condensate management system. The controller has been moved to the condenser side of the unit for easier access.
We offer a UV light upgrade to protect your unit from mold and an interchangeable decorative grille to customize the look of your luxury system.
The Slimline is one of our quietest and most compact self-contained cooling units. Slimline units were designed to be mounted in a living area and can be placed in the often-unused space between the cellar door and ceiling.The Slimline fits snugly above your cellar door, out of the way, providing efficient cooling and a low sight profile.
KOOL is convenient.
Please review all BTU specifications under the “Specifications” tab. The BTU/h value shown here is a theoretical number. There are often circumstances under which a cellar design may require a larger unit due to variables not accounted for in the formula. For example, these variables could be building materials (such as glass, stone, concrete, etc.) which do not offer the insulation capacity required to maintain the optimal cellar environment. We recommend purchasing a unit with a larger capacity to compensate for these unaccounted-for variables. An undersized unit can lead to premature failure and will most likely prevent the cellar from reaching your desired temperature.