Chiller Sizing: How to Choose the Right Chiller for Your Needs
Choosing the right chiller size depends on your liquid volume, heat load, ambient temperature, target temperature, and application. Use this guide to better understand chiller sizing, then contact Penguin Chillers for a free chiller sizing setup estimate.
What Affects Chiller Sizing?
Choosing the right chiller size can be challenging. Various factors influence chiller performance, including volume of liquid, heat inputs from lighting, pumps, motors, process heat, ambient temperatures, ventilation, insulation, and desired goal temperature.
Some applications may also have specific cooling time requirements, flow rates, or environmental conditions that need to be reviewed before selecting a chiller.
Liquid Volume
The more liquid you need to cool, the more total heat must be removed.
Heat Inputs
Pumps, lights, motors, sun exposure, and process heat can all add load.
Ambient Temp
Hotter surrounding air makes it harder for the chiller to reject heat.
Goal Temp
Lower target temperatures require more work from the chiller.
Free Chiller Sizing Setup Estimate
Not sure which chiller fits your application? Instead of guessing, send us the details of your setup and our team can help review your cooling needs before you buy.
Tell us about your liquid volume, target temperature, surrounding conditions, heat sources, and application type. We’ll use that information to help point you toward the right chiller category for your setup.
Important: A sizing estimate is not a performance guarantee. Final chiller performance depends on accurate setup information, installation conditions, heat load, ambient temperature, target temperature, flow rate, ventilation, insulation, and application-specific requirements.
Understanding Heat Load
A common mistake is underestimating the heat being added to the water. When asked about the heat load, many respond with “not much.” This answer is not helpful.
To estimate heat load more accurately, bring your system to the desired temperature using ice or another method. Remove all the ice and measure how quickly the water heats up. Knowing the volume of water and the time it takes to change temperature allows you to calculate an estimated heat load. See our What is BTU article for more details. While it’s still an estimate, it’s far better than guessing.
The Benefits of Proper Chiller Sizing
It’s nearly impossible to oversize a chiller for your project. The rule of thumb is: when in doubt, go with the next size up. Extra cooling power is always beneficial. A larger chiller does not necessarily use more electricity than a smaller one. In fact, a bigger chiller runs less often, using roughly the same amount of electricity to perform the required work.
An undersized chiller will struggle to reach your desired temperature, running more frequently and consuming more energy in the long run. Conversely, a larger chiller, running less often, tends to have a longer lifespan. Therefore, opting for a slightly larger chiller can be a safer and more efficient choice.
Conclusion: Opt for the Next Size Up
In summary, when sizing a chiller, consider all factors, including volume, heat inputs, ambient temperatures, and goal temperature. Estimating your heat load accurately is crucial. Remember, it’s better to have a chiller that is slightly too large than one that is too small. A larger chiller will not only meet your cooling needs more efficiently but also last longer and provide better overall performance.
Water Chiller Comparison Chart
| Model | BTU/hr | Electrical | Dimensions | Weight |
|---|---|---|---|---|
| 1/2 HP Water Chiller | 5,000 | 110–120V / 3.9A / 450W / Single | 16.25”W × 14.75”D × 12”H | 39 lbs |
| 1/2 HP HE Water Chiller | 5,750 | 110–120V / 3.9A / 450W / Single | 16.25”W × 14.75”D × 12”H | 40 lbs |
| 1 HP Water Chiller | 10,000 | 110–120V / 7.2A / 830W / Single | 19.25”W × 19.75”D × 14.25”H | 58 lbs |
| 1 HP HE Water Chiller | 11,500 | 110–120V / 7.2A / 830W / Single | 19.25”W × 19.75”D × 14.25”H | 60 lbs |
| 1.5 HP Water Chiller | 15,000 | 110–120V / 11A / 1,270W / Single | 26.50”W × 23.75”D × 18”H | 96 lbs |
| 2.5 HP Water Chiller | 25,000 | 208–240V / 14.7A / 3,200W / Single | 26.50”W × 25”D × 18.50”H | 135 lbs |
Standard Glycol Chiller Line
| Model | Reservoir | BTU/hr @ 28°F | Max # of Fermenters | Electrical | Dimensions | Weight |
|---|---|---|---|---|---|---|
| 1/3 HP Glycol Chiller | 1.25 Gal. | 2,000 | 4 | 110–120V / 3.9A / 450W | 16.25″W x 18″D x 12.5″H | 41 lbs |
| 1/2 HP Glycol Chiller | 2 Gal. | 2,500 | 4 | 110–120V / 3.9A / 450W | 16.25″W x 20.75″D x 13″H | 47 lbs |
| 1 HP Glycol Chiller | 3 Gal. | 5,000 | 8 | 110–120V / 7.2A / 830W | 19.25″W x 28.25″D x 16″H | 69 lbs |
For setups including any jacketed tank or any tank over 1 BBL, we recommend a chiller from our XL Glycol Chiller line.
XL Glycol Chiller Line
| Model | Reservoir | BTU/hr @ 28°F | Max # of Fermenters | Electrical | Dimensions | Weight |
|---|---|---|---|---|---|---|
| 2/3 HP XL Glycol Chiller | 7 Gal. | 3,000 | 8 | 110–120V / 3.9A / 450W | 18″W x 18″D x 31″H | 75 lbs |
| 1-1/3 HP XL Glycol Chiller | 15 Gal. | 6,500 | 8 | 110–120V / 7.2A / 830W | 22″W x 22″D x 36″H | 105 lbs |
| 2 HP XL Glycol Chiller | 22 Gal. | 10,000 | 8 | 110–120V / 10.3A / 1185W | 24″W x 24″D x 45″H | 125 lbs |
| 3-1/3 HP XL Glycol Chiller | 25 Gal. | 16,500 | 8 | 208–240V / 14.7A / Single / 2300W | 28″W x 28″D x 38″H | 150 lbs |
Request a Free Chiller Sizing Setup Estimate
If you are unsure which chiller is right for your application, send us information about your setup and our team can help review your cooling requirements before you buy.