Compact Condensate Evaporator Designed for Corrosion Resistance and Efficiency
The ET225 condensate evaporator is developed to overcome the durability issues commonly associated with traditional evaporator pans. It is particularly suited for use in supermarket integral cabinets, where consistent performance and long service life are essential.
Unlike conventional systems that rely on exposed heating probes, the ET225 uses a sealed aluminium tank to evaporate condensate directly from the surface. This design significantly reduces the risk of corrosion while improving overall reliability.
Corrosion-Resistant Construction
The unit features a one-piece cast aluminium tank designed to resist multiple forms of corrosion, including galvanic and electrolytic reactions. This ensures dependable operation even in demanding refrigeration environments.
Improved Evaporation Efficiency
A larger wetted surface area allows for faster and more efficient evaporation. This not only enhances performance but also helps reduce overall energy consumption compared to higher wattage alternatives.
Space-Saving Design
With a compact footprint, the ET225 is ideal for installations where space is limited. Its low-profile construction allows it to fit easily beneath refrigeration cabinets and similar equipment.
Key Features
- Durable cast aluminium evaporator tank
- Thermostatically controlled solid-state heating element
- Energy-efficient operation with reduced power usage
- Focused heat distribution to minimise energy loss
- Automatic wattage reduction when no water is present
- Extended heater lifespan through optimised placement
Technical Specifications
- Dimensions: 315mm (L) × 120mm (W) × 90mm (H)
- Evaporation Rate: 150 ml/hr
- Power Consumption: 225W
- Voltage: 240V
- Current: 0.73A
- Tank Capacity: 1.5 litres
Key Benefits
- Reduces corrosion-related failures
- Improves energy efficiency compared to standard units
- Suitable for continuous use in refrigeration environments
- Minimises maintenance requirements
- Ideal for compact installation spaces
