Description
Extremely compact and easy to use, Hyperchill Plus is designed for safe and reliable operation in various working conditions while providing a precise and accurate control of the process fluid temperature. The availability of a wide range of accessories and options makes Hyperchill Plus a very flexible solution that fits the needs of all industrial applications.
Thanks to a non-ferrous hydraulic circuit, Hyperchill Plus ensures stable working conditions with maximum quality and cleanliness of the cooling fluid (water, water-glycol mixture, low viscosity fluids), improving the efficiency and productivity of the process and greatly reducing maintenance costs and plant downtime.
Each individual Hyperchill Plus unit is extensively tested to guarantee efficient operation and reliability in all environments.
Process cooling applications:
- Coating Systems
- Medical Imaging Systems
- Plastics Processing
- Thermoform Machines
- Plasma Coating
- Chemical & Pharmaceutical Processes
- Food & Beverage Industry
- Injection Molding
- Machine Tools
- Electroplating Baths
- Biogas & Natural Gas Treatment
- Compressed Air Treatment
- Laser Technology
- Extruders
- Surface Processing
- Welding Engineering
- Blow Mold Machines
- Flexographic Printing Systems
Product Specification
Hyperchill Plus Water Range
Customer Benefits
- A differential pressure switch is installed to ensure the system shuts down in case of flow restriction.
- Because of its compact design the Hyperchill Plus provides a space saving and easy to install solution.
- HyperChill Plus includes a condenser pre-filter to reduce fouling.
- Reliable operation even in extreme ambient conditions. The standard units from ICEP007 allow maximum ambient temperatures up to 118 °F. The tropicalized units up to 127 °F.
- The non-ferrous hydraulic circuit maintains the quality of the coolant ensuring stable working conditions improving productivity and decreasing maintenance costs.
Product Features
Complete solution, easy to install and manage
- Non ferrous hydraulic circuit: nonferrous water tank (stainless steel from ICEP005), stainless steel plate evaporator, non-ferrous pump with bypass prevent water from becoming corrosive.
- Pump and tank installed inside the chiller provides a compact and easy to install solution; without pump and/ or without tank solution available.
- Electronic controllers with proprietary software provide access to all the parameters of the units and allow special management for any specific need, with remote monitoring available.
- Completely configurable with many options and kits to fit the needs of industrial applications.
- Condenser filters reduce dirt, thereby preventing system downtime.
- As standard installed differential pressure switch that makes sure that the systems shuts down in the case that the circuit runs dry. Therefore the investment is protected.
- Designed with eyebolts (till ICEP014) for easy handling.
- IP54 standard from ICEP007 for outdoor installations.
- Independent condensing plenum enables routine and special maintenance to be performed without stopping the system.
- Unit structure and design guarantee full internal access for easy maintenance.
- ICEP020 and ICEP024 designed with fan step control in order to work in low ambient temperatures down to -10 °C.
- RS485 card available on all models (standard from ICEP007).
- Water and refrigerant manometers permit full control of the working conditions.
- Water pump: (standard 3bar) different head-pressures available to meet the requirements of specific applications.
- Visual level Indicator: designed for open circuit models ICEP002, ICEP003, ICEP005.
High reliability & Low energy consumption
- Large built-in water tank that provides a large thermal mass / storage capacity thus reducing the number of refrigerant compressor stop/starts and short cycling thereby increasing the compressor and chiller lifetime and reducing the energy consumption.
- Maximum ambient temperature up to 48 °C on standard units, Tropicalization up to 53 °C and Low ambient options ensure reliable operation in extreme ambient conditions.
- Oversized condensers and evaporators guarantee high performing heat exchange increasing COP (Coefficient Of Performance).
- PID software developed and tested to give the highest temperature consistency even at variable loads.
- Use of compliant scroll compressors (from ICEP007) designed specifically for high efficiency and long life in industrial applications.
- Low ambient speed-control (optional) on fan-motor ensures constant performances at different temperatures, long lifetime of the fans and a reduction in absorbed power when ambient temperature is low.