Laboratory Chillers
Solutions for Laboratory Excellence.
Our chillers include essential safety features such as over-temperature protection, automatic shutdown in case of system malfunctions, and alarms to promptly alert users to any issues, thereby ensuring the safety of both the equipment and the samples being cooled.
About Us
Be drawn to our standards products and our steadfast dedication to quality.
Our laboratory chillers offer precise temperature control, enabling users to set and maintain temperatures within a narrow range. With varying cooling capacities, they serve a wide array of applications, from cooling small laboratory equipment to large industrial processes, based on specific user needs. These chillers are equipped with features such as variable speed compressors, advanced refrigeration systems, and enhanced insulation to minimize energy consumption while ensuring optimal cooling performance. Engineered for quiet operation, they effectively minimize noise levels in laboratory environments.
Moreover, our chillers include essential safety features such as over-temperature protection, automatic shutdown in case of system malfunctions, and alarms to promptly alert users to any issues, thereby ensuring the safety of both the equipment and the samples being cooled.
Water Chiller
Water Chillers offer versatility and reliability. From compact models ideal for benchtop use to high-capacity systems capable of handling large-scale cooling demands, each unit is designed to optimize efficiency and minimize downtime. Trust in our expertise to provide superior cooling solutions that meet the stringent requirements of modern scientific and industrial environments.
Air Cooled Chiller
| Water tank capacity : 65 L |
| Cooling capacity : 11324 W, 38650 BTU / hr |
| Flow rate : 50 – 100 L / Min |
| water pump : 1 / 2 HP, 0.37 kW |
| Water tank capacity : 140 L |
| Cooling capacity : 20540 W, 77300 BTU / hr |
| Flow rate : 100 – 200 L / Min |
| water pump : 1 HP, 0.75 kW |
| Water tank capacity : 220 L |
| Cooling capacity : 28400 W, 97000 BTU / hr |
| Flow rate : 100 – 200 L / Min |
| water pump : 1 HP, 0.75 kW |
| Water tank capacity : 380 L |
| Cooling capacity : 43100 W, 147200 BTU / hr |
| Flow rate : 160 – 320 L / Min |
| water pump : 2 HP, 1.5 kW |
| Water tank capacity : 500 L |
| Cooling capacity : 58600 W, 199850 BTU / hr |
| Flow rate : 160 – 320 L / Min |
| water pump : 2 HP, 1.5 kW |
| Water tank capacity : 500 L |
| Cooling capacity : 69700 W, 238000 BTU / hr |
| Flow rate : 250 – 500 L / Min |
| water pump : 2.25 HP, 3 kW |
Frequently Ask Questions
Why should I consider buying a Chiller?
Investing in a chiller provides numerous advantages across various industries
- Equipment Protection: A chiller protects costly processing equipment, ensuring its durability and dependability, which outweighs initial investment costs.
- Increased Production: Consistently maintained cooling temperatures enhance production speed and precision, minimizing part rejections and increasing hourly output.
- Precise Temperature Control: Industrial chillers guarantee stable temperatures critical for flawless industrial processes, scientific experiments, and medical applications, preventing defects and equipment damage.
- Improved Efficiency: By preventing overheating, chillers optimize machinery performance, reducing downtime, lowering energy usage, and decreasing maintenance expenses.
- Enhanced Product Quality: Maintaining proper temperatures with chillers is essential for preserving product quality across industries, minimizing waste, enhancing customer satisfaction, and strengthening brand reputation.
What factors should I consider when selecting the ideal industrial chiller design?
Industrial chillers vary significantly based on specific requirements. Factors to consider include your temperature requirements, chiller type, required refrigerant, safety considerations, and budget. Each chiller is designed with specific temperature ranges and fluid flow rates in mind. Additionally, the type of fluid being cooled is crucial—distilled water and tap water have different corrosive effects on materials, necessitating different types of chillers. For detailed guidance, please consult our industrial solutions buying guide.
What is the operational process of refrigeration in industrial chillers?
Chillers serve diverse purposes across different sectors:
For industrial applications :
- Assess and align your cooling needs with the chiller’s capacity and efficiency.
- Consider factors such as cooling capacity, operational conditions, and specific application requirements.
- Reach out to our Customer Service, Sales, or Engineering teams for tailored advice and customization options.
For laboratory settings :
- Evaluate cooling requirements based on the equipment and experiments conducted.
- Select chillers that meet the temperature range and precision necessary for laboratory work.
- Feel free to contact us for more details or to discuss any unique needs you may have.
What are the distinctions between water-cooled and air-cooled chillers?
Water-Cooled Chiller :
Requirements: Needs a dedicated cooling tower. Efficiency: Offers higher heat exchange efficiency.
Air-Cooled Chiller :
Requirements: No separate cooling tower needed. Efficiency: Provides lower heat exchange efficiency.
In summary, water-cooled chillers are efficient but require a cooling tower, whereas air-cooled chillers are simpler to install but less effective in heat exchange.
What are the main approaches used to calculate process heat loads?
Calculating process heat loads for industrial applications involves several key methods and principles. Here are the essential approaches and definitions :
- Refrigeration Ton : 12,000 Btu per Hour or 3,025 kg calories per Hour equals one ton of refrigeration.
- Water Systems : For water-based systems, use Btu/hr = GPM (Gallons per Minute) x 500 x Delta-T (Temperature Difference).
- Other Fluids : For fluids other than water, use Btu/hr = Lbs. Per Hour x Specific Heat x Specific Gravity x Delta-T.
- Solids : Calculate heat for solids using Btu/hr = Lbs. Per Hour x Specific Heat x Delta-T.
- Conversion Formulas : Utilize conversions such as Btu/hr = kW x 3,413, Btu/hr = HP x 2,544, and kW = Btu/hr / 1000 x 0.293, among others.
- PSIA : PSIA (absolute pressure) equals PSIG (gauge pressure) plus 14.7.
In addition, here are heat rejection estimates for common industrial machinery:
- Air Compressors : 1,500 Btu/hr per HP
- Air Compressor Aftercooler : 1,500 Btu/hr per HP
- Vacuum Pump Cooling: 1,500 Btu/hr per HP
- Hydraulic Cooling: 2,544 Btu/hr per HP x 0.6
- Hot Runner: 3,420 Btu/hr per kW
When specific heat load data for components are unavailable, multiply the total input in HP or kW by the relevant conversion factor to estimate the maximum potential heat load.
These calculations are essential for managing heat-related aspects in industrial processes, ensuring efficient operations and optimal performance of equipment.
What factors should I consider when selecting the right chiller for my specific requirements?
Chillers serve various purposes across different settings:
For industrial applications :
- Assess your cooling requirements to align with the chiller’s capacity and efficiency.
- Take into account factors such as cooling capacity, operational conditions, and specific application needs.
- Reach out to our Customer Service, Sales, or Engineering teams for advice or customization options.
For laboratory applications :
- Evaluate your cooling needs based on the equipment and experiments underway.
- Seek chillers that meet the necessary temperature range and precision for laboratory tasks.
- Feel free to contact us for more details or to discuss any unique requirements you may have.