Please find attached images of the compressor equipment. As a new member, I would appreciate any insights or experiences you could share regarding this product. Thank you in advance!
Hello NGOC, it appears that your data is lacking. Can you provide more information about the issue you are experiencing with your compressor? Regards,
Your data does not display any strong high vibrations.
Thank you for your response! I appreciate it. I am currently gathering additional data and have attached the file for your reference. Please take a look at the attached document: PK04401B.pdf (798 KB, 1 version).
Could you please indicate the measurement points on the compressor image? Do you have any historical data on measurements (trend, cascade)? In the meantime, I will provide some insights on the motor side. The vibration levels have increased, but they do not appear to be critical. The higher levels are likely due to residual unbalance. You observed harmonics of 100.3 Hz at the NDE motor side. While you suspect Broken Rotor Bars (BSF), I lean towards the 2x Line Frequency (2xLF), which is common at the NDE side of motors. A higher resolution could provide a more precise answer. There is a small difference between 100.0 and 100.3 Hz, which could be attributed to the input and actual rpm. However, the amplitudes are currently not critical, so I would assess the motor's condition as non-critical.
Upon initial inspection of the spectrum, it appears there may be a misalignment issue present. This can be confirmed by examining the phases of each side of the coupling. If you are unsure about the drawing you are referencing, I recommend checking the clearance of the bearings on both the motor and compressor sides. A substantial difference in the input shaft measurements between the motor and compressor could indicate a misalignment, as evidenced by high readings of 1x, 2x, and 3x, among others. Best regards,
Great to see another enthusiast on the forum! I've got a similar compressor setup in my workshop. Key thing is weekly maintenance - regularly check oil level, air filters, and tighten any loose nuts & bolts. Also, remember to drain the tank regularly to avoid moisture buildup. It does wonders for prolonging its lifespan. Welcome to the club!
Welcome to the community! I've had some positive experiences with similar compressor models, especially in terms of energy efficiency and reliability. One thing I found particularly helpful was keeping up with regular maintenance, which significantly extends their lifespan. If you have specific questions about performance or installation, feel free to ask—there's a wealth of knowledge here!
Welcome to the group! I've worked with similar compressor equipment in the past, and I've found that regular maintenance is key to keeping them running efficiently. Make sure to check the filters often, as that can really impact performance. Also, don’t overlook the importance of proper installation—ensuring that everything is level and secure can help prevent a lot of issues down the line. Looking forward to hearing more about your experiences!
Welcome to the forum! I’ve worked with similar compressor equipment, and one key thing I’ve found helpful is paying close attention to the maintenance schedule—regular checks can really prolong lifespan and efficiency. Also, if you’re using it for specific applications, tweaking the settings can make a noticeable difference in performance. Looking forward to hearing more about what you're planning to use it for!
Welcome to the forum! I’ve worked with similar compressor models in the past, and I've found that regular maintenance is key to keeping them running efficiently. Paying attention to oil levels and ensuring the filters are clean can make a substantial difference in performance. If you’re planning to use it in a specific application, I’d love to hear more about your setup—sometimes those details can really help tailor advice!
âś… Work Order Management
âś… Asset Tracking
âś… Preventive Maintenance
âś… Inspection Report
We have received your information. We will share Schedule Demo details on your Mail Id.
Answer: 1. What are the common causes of high vibration in ammonia compressor equipment? - High vibration in ammonia compressor equipment can be caused by various factors such as misalignment, improper installation, worn-out bearings, unbalanced components, or operating at excessively high speeds.
Answer: - High vibration can lead to reduced efficiency, increased wear and tear on components, potential breakdowns, and safety risks. Monitoring and addressing vibration levels are crucial to maintaining the equipment's performance and reliability.
Answer: - Implementing regular maintenance and inspection schedules, conducting vibration analysis tests, ensuring proper alignment and installation, lubricating components, and addressing any identified issues promptly are some strategies to manage and reduce high vibration levels in ammonia compressor equipment.
Join hundreds of satisfied customers who have transformed their maintenance processes.
Sign up today and start optimizing your workflow.