Atlas Copco Air Compressors Aluminum Oil Cooler 1614666900
The 1614666900 aluminum oil cooler delivers stable oil temperature and balanced flow performance for Atlas Copco screw air compressors operating in demanding industrial environments.
| Application |
Air Compressor |
|---|---|
| Material |
Aluminum ,Metal |
The Atlas Copco aluminum oil cooler 1614666900 is engineered to provide precise thermal control while maintaining oil flow balance throughout the lubrication system. In modern screw compressors, oil not only lubricates but also plays a critical role in sealing, cooling, and carrying contaminants to the filtration system. Any instability in oil temperature or flow can directly impact compressor efficiency and airend life.
This model is designed to support long-term, steady operation rather than extreme high-flow conditions, making it ideal for machines that run continuously at stable loads.
Optimized for Oil Circuit Stability
Unlike large high-flow oil coolers that prioritize volume, the 1614666900 focuses on maintaining smooth and controlled oil movement through the cooling core. Its internal channel design regulates oil velocity, reducing turbulence and pressure fluctuations that can interfere with oil pump performance and separator efficiency.
This balanced flow behavior helps protect seals, hoses, and fittings from unnecessary stress while keeping the entire oil circuit operating within its designed parameters.
Compatibility
- Atlas Copco oil-injected screw air compressors
- Part Number: 1614666900
Always verify part number compatibility with your compressor model and serial number before ordering.
| Part Numbers | |||||||
|---|---|---|---|---|---|---|---|
| 2906010100 | 1614866008 | 2906010000 | 1622877900 | 1092067600 | 1621267708 | 1614866408 | 1614866508 |
| 1613836400 | |||||||
Efficient Aluminum Cooling Core
The aluminum heat exchange core provides fast and consistent heat transfer from the oil to the cooling air. This allows the compressor to reach its target operating temperature quickly after startup and remain stable during long production cycles.
Stable oil temperature helps preserve oil film strength, improves sealing between rotors, and reduces internal friction, all of which contribute to better overall compressor efficiency.
Protecting Critical Compressor Components
By keeping oil temperature within a controlled range, the 1614666900 oil cooler supports the long-term health of bearings, airend rotors, and the oil separator system. Cooler, stable oil minimizes oxidation, limits varnish formation, and reduces the risk of carbon buildup in narrow oil passages.
This translates into fewer unplanned shutdowns and more predictable maintenance intervals.
Maintenance Considerations
To maintain optimal performance, the cooling fins and airflow passages should be kept clean, especially in environments with dust, oil mist, or high humidity. Proper airflow across the cooler is essential for maintaining consistent oil temperature and stable compressor operation.
Why Choose the 1614666900 Oil Cooler
The 1614666900 aluminum oil cooler is designed for Atlas Copco compressors that require dependable, balanced thermal control rather than extreme high-capacity cooling. Its optimized flow channels, efficient aluminum core, and focus on system stability make it a reliable choice for maintaining compressor performance and extending equipment life.
MAECENAS IACULIS
Vestibulum curae torquent diam diam commodo parturient penatibus nunc dui adipiscing convallis bulum parturient suspendisse parturient a.Parturient in parturient scelerisque nibh lectus quam a natoque adipiscing a vestibulum hendrerit et pharetra fames nunc natoque dui.
ADIPISCING CONVALLIS BULUM
- Vestibulum penatibus nunc dui adipiscing convallis bulum parturient suspendisse.
- Abitur parturient praesent lectus quam a natoque adipiscing a vestibulum hendre.
- Diam parturient dictumst parturient scelerisque nibh lectus.
Scelerisque adipiscing bibendum sem vestibulum et in a a a purus lectus faucibus lobortis tincidunt purus lectus nisl class eros.Condimentum a et ullamcorper dictumst mus et tristique elementum nam inceptos hac parturient scelerisque vestibulum amet elit ut volutpat.
