How to Size an Industrial Chiller
By Rite Temp on
4/24/2025
Selecting the right industrial chiller is critical to
maintaining efficiency, reducing downtime, and
controlling costs in manufacturing and process cooling.
An undersized chiller struggles to meet cooling demands,
while an oversized unit wastes energy and increases
expenses. At Rite Temp, we’ve been building custom
industrial water chillers in Rogers, AR, for decades,
helping businesses optimize their cooling systems. In
this guide, we’ll walk you through the key steps to size
an industrial chiller accurately, ensuring your process
runs smoothly in 2025 and beyond.
Why Proper Chiller Sizing Matters
Industrial chillers cool equipment, processes, or
facilities in industries like plastics, metalworking,
food processing, and pharmaceuticals. Incorrect sizing
can lead to:
- Inefficiency: Undersized chillers
overwork, spiking energy costs and wearing out
components.
- Downtime: Insufficient cooling causes
process interruptions or equipment failure.
- Higher Costs: Oversized chillers increase
upfront costs and operational expenses due to excess
capacity.
Proper sizing matches the chiller’s cooling capacity
to your specific needs, balancing performance and cost.
Let’s dive into the steps to get it right.
Step 1: Understand Your Cooling
Load
The cooling load is the amount of heat your chiller
must remove, measured in tons (1 ton = 12,000 BTU/hour).
To calculate it, consider:
- Process Heat Generation: Identify heat
sources, such as injection molding machines, lasers,
or chemical reactors. Check equipment specs for heat
output (in BTU/hour or kW).
- Material Throughput: For processes like
plastics extrusion, calculate the heat added by
material volume. For example, cooling 100 lbs/hour
of polyethylene from 300°F to 100°F requires
significant capacity.
- Ambient Conditions: Factor in the
facility’s temperature and humidity, especially in
warm climates like Arkansas. Higher ambient
temperatures increase the chiller’s workload.
Example: A plastics manufacturer needs to cool
200 lbs/hour of material from 350°F to 80°F. The
specific heat of the material is 0.5 BTU/lb°F, and the
process adds 50,000 BTU/hour from equipment. The cooling
load is:
Material cooling: 200 lbs × (350°F - 80°F) × 0.5
BTU/lb°F = 27,000 BTU/hour.
Equipment heat: 50,000 BTU/hour.
Total: 77,000 BTU/hour ÷ 12,000 = ~6.4 tons.
Add a 20% safety margin (6.4 × 1.2 = 7.7 tons) to
account for fluctuations.
Step 2: Determine Fluid and Flow
Requirements
Chillers use water or a water-glycol mix to transfer
heat. The fluid type and flow rate impact sizing:
Fluid Type: Water is common, but glycol is
used for low-temperature applications (e.g., below
40°F). Glycol reduces efficiency, requiring a larger
chiller.
Flow Rate: Calculate the gallons per minute (GPM)
needed based on the cooling load. A rule of thumb is 2.4
GPM per ton for water at a 10°F temperature differential
(ΔT).
Example: A 7.7-ton chiller needs ~18.5 GPM
(7.7 × 2.4).
Consult your process specs to confirm fluid temperature
and pressure requirements. Rite Temp’s engineers can
help match fluid dynamics to your application.
Step 3: Account for Environment
and Operation Factors
External conditions affect chiller performance:
- Ambient Temperature: Air-cooled chillers
lose efficiency in hot environments. For Rogers, AR,
where summer temperatures hit 90°F, select a chiller
rated for high ambient conditions.
- Altitude: Higher altitudes reduce air
density, impacting air-cooled chiller performance.
Adjust capacity if your facility is above 1,000
feet.
- Duty Cycle: Continuous processes need
robust chillers, while intermittent loads may allow
smaller units.
For water-cooled chillers, consider cooling tower
availability and water quality to prevent scaling or
corrosion.
Step 4: Choose the Right Chiller
Type
Rite Temp offers portable, stationary, and custom
chillers to suit various needs:
- Portable Chillers: Ideal for small or
mobile processes (1-20 tons), like spot cooling for
CNC machines.
- Stationary Chillers: Suited for large,
centralized systems (20-200+ tons), common in
metalworking or chemical plants.
- Custom Chillers: Designed for unique
applications, such as low-temperature cooling for
pharmaceutical reactors.
Select air-cooled for simplicity or water-cooled for
efficiency in large-scale operations. Your cooling load
and facility layout will guide this choice.
Step 5: Consult with Experts and
Verify
Sizing a chiller involves complex calculations, and
small errors can lead to big problems. Partner with a
manufacturer like Rite Temp to:
- Validate Calculations: Our engineers
review your load, fluid, and environmental data to
recommend the optimal chiller.
- Consider Future Needs: Plan for process
expansions to avoid outgrowing your chiller.
- Test Performance: After installation,
monitor the chiller’s performance to ensure it meets
your load.
Use tools like load calculators or consult ASHRAE
guidelines for precision. Rite Temp’s team in Rogers,
AR, provides on-site assessments to streamline the
process.
Why Choose Rite Temp?
At Rite Temp, we’ve built industrial chillers for over
30 years, tailoring solutions for plastics,
metalworking, and more. Our Rogers, AR, facility
produces reliable, energy-efficient chillers backed by
local support. Whether you need a 5-ton portable unit or
a 100-ton custom system, we ensure your process stays
cool and efficient.
Get Started Today
Sizing an industrial chiller doesn’t have to be
daunting. Start by calculating your cooling load,
factoring in fluid and environmental conditions, and
choosing the right chiller type. For expert guidance,
contact Rite Temp to explore our chiller solutions.
Let’s keep your process running smoothly!
