Water-Cooled Chiller Series • 1–5 HP Small Range

Small Water-Cooled Process Chillers

APT small water-cooled process chillers are configurable 1–5 HP cooling units for CNC machines, laboratory systems, laser equipment, testing equipment, small process tanks, OEM machines, and compact industrial process cooling applications. They are suitable when the site already has a cooling tower, condenser water loop, or plant cooling water system and needs stable chilled-water cooling in a compact equipment-side layout.

1–5 HP Small Range
Condenser Water Required
Compact Equipment Cooling
Pump & Tank Options
OEM / Machine-Side Cooling
APT small water-cooled process chiller for CNC machine and compact equipment cooling
Quick Answer

When Should You Choose a Small Water-Cooled Process Chiller?

A small water-cooled process chiller is suitable when a machine, test system, laboratory device, small laser, CNC spindle, OEM unit, or compact process loop needs stable chilled-water cooling and the facility has condenser water available from a cooling tower or plant water loop. If condenser water is not available, a compact air-cooled chiller may be easier to install.

Capacity Direction

Capacity Direction Matrix

Use this table for preliminary direction only. Final model selection requires equipment heat load, chilled-water side data, and condenser-water side information.

Model Direction Typical Cooling Direction Best For Key Selection Point Next Step
1 HP Very small equipment-side cooling Small CNC spindle, lab equipment, testing loop Heat load, condenser water condition, flow rate Request 1 HP Review →
2 HP Compact water-cooled process cooling Laser equipment, small tank, OEM machine, test stand Chilled-water temperature, condenser water flow, pump pressure Request 2 HP Review →
3 HP Small industrial equipment cooling CNC machine, laser, laboratory system, process loop Continuous duty cycle, water quality, tank volume Request 3 HP Review →
5 HP Upper small water-cooled range Small injection molding, hydraulic cooling, equipment-side process cooling Heat load margin, pump head, condenser water temperature Request 5 HP Review →
HP is not the same as exact cooling capacity. Final capacity depends on chilled-water temperature, condenser water temperature, compressor configuration, evaporator type, water flow, coolant type, and process heat load.
Configurable System

Configurable Small Chiller Architecture

This is a configurable small water-cooled process chiller platform, not a fixed catalog model.

Compressor Platform

Small scroll, rotary, or suitable compressor platform can be reviewed according to load, temperature, and duty cycle.

Water-Cooled Condenser

Compact water-cooled condenser or small shell-and-tube direction is reviewed according to condenser water conditions.

Evaporator / Process Heat Exchanger

Plate, tank coil, small shell-and-tube, stainless, or corrosion-resistant options can be reviewed by process fluid and water quality.

Pump & Tank Arrangement

Built-in tank, external tank, no-tank layout, standard pump, high-pressure pump, and OEM connection options can be reviewed.

Control Panel & Protection

Digital control, remote alarm, flow protection, anti-freeze, overload, and equipment interlock can be configured.

Compact Cabinet / OEM Layout

Cabinet size, connection direction, access panel, and control interface can be reviewed for machine-side integration.

Condenser Water

Condenser Water & Cooling Tower Requirements

Even small water-cooled chillers require condenser water. Before selection, condenser water inlet temperature, outlet temperature, flow rate, water quality, filtration, pipe distance, pressure drop, and maintenance access should be reviewed.

Condenser Water Temperature

Condenser water temperature directly affects compressor load and cooling performance.

Plant Water or Cooling Tower Loop

A cooling tower, plant water loop, or condenser water system should be available before selecting a water-cooled unit.

Water Quality & Filtration

Scaling, fouling, corrosion, filtration, and treatment affect condenser performance and maintenance.

Piping, Flow & Service Access

Condenser water flow, pipe distance, valves, and service access should be checked before final layout.

Configuration Options

Configuration Options Matrix

Configuration Item Available Options Selection Logic
Compressor Small scroll / rotary / suitable compressor platform Selected by cooling capacity, target temperature, duty cycle, and reliability requirement
Condenser Small shell-and-tube or water-cooled condenser direction Selected by condenser water temperature, flow, water quality, and cleaning requirement
Evaporator Plate / tank coil / small shell-and-tube Selected by process fluid, water quality, flow rate, and maintenance need
Water Tank Built-in / external / no tank Selected by system volume, temperature stability, and cabinet layout
Pump Standard / high-flow / high-pressure / external Selected by flow rate, pressure loss, pipe distance, and equipment resistance
Control Digital / PLC / remote alarm Selected by equipment interlock, alarm, and monitoring requirement
Voltage 220V / 380V / 3PH / 50Hz or customized Selected by destination country and site power supply
Refrigerant R410A / R134a / R407C / project-specific Selected by temperature range and system design
Water Circuit Standard / stainless / corrosion-resistant Selected by coolant type, water quality, and corrosion risk
OEM Layout Cabinet size / connection direction / control interface Selected by machine integration and installation space
Technical Specification

Technical Specification Table

Parameter Typical Range / Options Engineering Notes
Cooling Capacity 1 HP / 2 HP / 3 HP / 5 HP direction Actual capacity is project-specific and depends on operating conditions
Chiller Type Configurable small water-cooled process chiller Designed for condenser water or plant cooling water systems
Cooling Medium Water / glycol water / DI water / special fluids Special fluids require material and pump compatibility review
Chilled-Water Temperature Project-specific process temperature range Target temperature affects compressor, evaporator, and control configuration
Condenser Water Requirement Cooling tower / plant water loop / condenser water system Condenser water inlet and outlet temperature and flow rate must be confirmed
Compressor Small scroll / rotary / suitable compressor direction Selected according to capacity, duty cycle, temperature range, and reliability needs
Water-Cooled Condenser Compact water-cooled condenser or small shell-and-tube direction Water quality, cleaning access, and condenser water conditions affect selection
Evaporator Plate heat exchanger / tank coil / small shell-and-tube / stainless or anti-corrosion options Selected according to process fluid, flow, water quality, and maintenance requirement
Pump System Standard pump / high-flow pump / high-pressure pump / external pump Pump design depends on pipe distance, pressure loss, equipment resistance, and process flow
Water Tank Built-in tank / external tank / no-tank layout Tank selection depends on system volume and temperature stability
Control System Digital controller / remote alarm / equipment interlock / communication options Control options can be reviewed for OEM or machine integration
Voltage 220V / 380V / 3PH / 50Hz or customized export voltage Confirm site power supply before quotation
Refrigerant R410A / R134a / R407C / project-specific refrigerant Selected by system design and temperature range
Protection Pressure / overload / phase / anti-freeze / low flow / pump / temperature protection Protection logic should match equipment and process risk
Installation Machine side / equipment room / laboratory / OEM cabinet / compact skid layout Consider condenser water piping, service access, drainage, and maintenance space
Customization Compressor / condenser / evaporator / pump / tank / voltage / control / cabinet / material APT can review project-specific small water-cooled chiller configurations
Applications

Application Fit Matrix

Application Fit Level Typical Requirement Engineering Review
CNC Machine Cooling High Spindle, cutting fluid, or machine-side cooling Review heat load, coolant quality, pump head, and condenser water availability
Laser Equipment Cooling High Laser source, optics, power supply, small laser machine Review temperature stability, alarm interface, flow, and cooling load
Laboratory / Testing Equipment Cooling High Test stand, laboratory machine, pilot process loop Review temperature stability, footprint, flow, and tank size
OEM Machine Cooling High Machine-integrated water cooling or compact process loop Review cabinet size, voltage, connection direction, and control interface
Small Process Tank Cooling Medium to High Small tank or bath temperature control Review tank volume, heat gain, material compatibility, and circulation method
Small Hydraulic System Cooling Medium Small hydraulic power unit or oil-to-water heat exchanger Review oil heat load, heat exchanger capacity, and operating schedule
Small Injection Molding Auxiliary Cooling Medium Small mold or auxiliary loop cooling Review heat load, flow, pump pressure, and whether 5–20 HP is more suitable
Electronic / Instrument Cooling Medium Instrument, electronics, or compact process cooling Review temperature stability, water quality, and alarm requirements
Selection Notes

Suitable vs Not Suitable Conditions

Suitable For

  • Small equipment-side process cooling
  • Factory with condenser water or cooling tower loop
  • CNC spindle or machine cooling
  • Small laser or laboratory equipment cooling
  • Testing equipment and OEM machine cooling
  • Small process tank cooling
  • Compact indoor equipment room installation
  • Projects needing lower heat discharge near the machine
  • Pump and tank customization required

Not Recommended For

  • Sites without condenser water or cooling tower
  • Outdoor quick installation where air-cooled is easier
  • Very large heat load above 5 HP
  • Medium industrial loads better served by 5–20 HP water-cooled chillers
  • Poor condenser water quality without filtration
  • Corrosive fluids without material review
  • Explosion-proof areas without custom safety design
Comparison

Small Water-Cooled vs Compact Air-Cooled Chiller Selection

Decision Factor Small Water-Cooled Chiller Compact Air-Cooled Chiller
Heat Rejection Rejects heat to condenser water or cooling tower loop Rejects heat directly to ambient air
Cooling Tower Requirement Required in most projects Not required
Installation Needs condenser water piping and flow review Usually simpler plug-and-play direction
Machine-Side Heat Discharge Lower hot air discharge near the machine Requires airflow and ventilation around condenser
Maintenance Condenser water quality, filtration, and water-side maintenance Condenser coil cleaning and fan inspection
Best For Sites with plant water and compact equipment-side cooling needs Sites without condenser water or cooling tower
Limitation Needs condenser water infrastructure Can add heat to indoor or machine-side area
Engineering Options

Project-Specific Engineering Options

Custom Voltage

Match export destination and site power supply.

Compact Compressor Configuration

Review small compressor direction by duty profile and process temperature.

Small Water-Cooled Condenser

Matched by condenser water temperature, flow, and cleaning requirement.

Evaporator Selection

Choose plate, tank-coil, or small shell-and-tube direction by fluid and maintenance need.

Built-In or External Tank

Configured for system volume, stability target, and cabinet layout.

Pump Flow and Pressure

Selected by pipe length, resistance, and equipment-side requirement.

Stainless / Corrosion-Resistant Circuit

Recommended when coolant compatibility or corrosion risk needs extra review.

OEM Cabinet Layout

Connection direction, access panel, and integration geometry can be reviewed.

Remote Alarm / Equipment Interlock

Adjust control logic to machine communication and alarm requirements.

Special Fluid / DI Water Review

Useful when direct process-side fluid conditions need additional compatibility review.

Quote Checklist

Quote Information Checklist

What APT Needs to Review

Sharing complete equipment and condenser-water information helps APT recommend the right 1 HP, 2 HP, 3 HP, or 5 HP water-cooled configuration faster and more accurately.

  • Application or machine type
  • Required cooling capacity or equipment heat load
  • Chilled-water inlet and outlet temperature
  • Chilled-water flow rate and pump pressure
  • Coolant type: water, glycol, DI water, or special fluid
  • Condenser water inlet and outlet temperature
  • Condenser water flow rate
  • Cooling tower or plant water loop condition
  • Water quality and filtration
  • Voltage / phase / frequency
  • Installation space and cabinet size limit
  • Tank requirement
  • Control accuracy and alarm requirement
  • Material requirement: stainless, anti-corrosion, DI water
  • OEM connection or communication requirement
  • Destination country
  • Photos, drawings, existing chiller data
FAQ

Small Water-Cooled Process Chiller FAQ

What is a small water-cooled process chiller used for?

It is used for small equipment-side process cooling applications such as CNC machines, laser equipment, laboratory systems, testing equipment, OEM machines, small process tanks, and compact industrial cooling loops where condenser water or cooling tower water is available.

Does a small water-cooled chiller need a cooling tower?

Most small water-cooled chillers require condenser water from a cooling tower, plant water loop, or condenser water system. If condenser water is not available, a compact air-cooled chiller may be easier to install.

Is this a fixed standard model?

No. APT treats small water-cooled chillers as configurable process cooling units. Compressor, condenser, evaporator, pump, tank, voltage, refrigerant, controls, and water circuit material can be selected according to the application.

How do I choose between 1 HP, 2 HP, 3 HP, and 5 HP?

Selection depends on equipment heat load, chilled-water temperature, condenser water temperature, flow rate, pump pressure, tank volume, duty cycle, and required cooling margin.

Can a small water-cooled chiller include a pump and tank?

Yes. Built-in tank, external tank, no-tank layout, standard pump, high-flow pump, high-pressure pump, and OEM connection options can be reviewed according to the system layout.

What condenser does a small water-cooled chiller use?

It may use a compact water-cooled condenser or small shell-and-tube condenser direction depending on condenser water temperature, flow, water quality, cleaning requirement, and system design.

Can it be used for CNC machine cooling?

Yes. Small water-cooled process chillers can be reviewed for CNC spindle cooling, cutting fluid cooling, or machine-side cooling when condenser water is available.

Can it be used for laser or laboratory equipment?

Yes. Small water-cooled chillers can be reviewed for laser equipment, laboratory systems, testing machines, and OEM equipment when temperature stability, flow, alarm interface, and cooling load are confirmed.

When should I choose a compact air-cooled chiller instead?

A compact air-cooled chiller may be easier when the site has no cooling tower or condenser water loop, needs quick installation, or prefers a standalone system without condenser water piping.

What information is needed for a quotation?

Please provide application, equipment heat load, chilled-water inlet and outlet temperature, flow rate, pump pressure, coolant type, condenser water temperature, condenser water flow, water quality, voltage, installation space, tank requirement, and any OEM or control requirements.

Next Step

Need a Small Water-Cooled Chiller Configuration?

Share your equipment heat load, chilled-water temperature, condenser water condition, flow rate, pump pressure, coolant type, voltage, water quality, installation space, tank requirement, and machine connection details. APT engineers can configure a suitable 1 HP, 2 HP, 3 HP, or 5 HP small water-cooled process chiller for your application.

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