Thermal imaging technology has become one of the most valuable diagnostic tools for industrial applications.
By detecting anomalies that are usually invisible to the naked eye, thermal imaging allows corrective action to be taken before costly system failures occur.
Thermal imaging cameras are a unique tool to determine when and where maintenance is needed, for electrical and mechanical installations tend to get hot before they fail. By discovering these hot-spots with a thermal imaging camera, preventive action can be taken. This can avoid costly production breakdowns or even worse, fire.
A thermal imaging camera is a reliable non-contact instrument which is able to scan and visualize the temperature distribution of entire surfaces of machinery and electrical equipment quickly and accurately.
Thermography programs have contributed to substantial cost savings for our customers around the world. Numerous industries worldwide have discovered the advantage of incorporating thermal imaging cameras in their predictive maintenance programs.
We have conducted thermalscan for thousands of electrical panels and equipment till date. Our customers range from building management and facilities distribution, to specialised service providers who design and build cleanrooms, as well as data centre building and maintenance specialist. Buildings and premises within our experience are banks, servers/ data centres, electronics manufacturer, chemical companies, water treatment facilities, and many others…..
Our thermalscan experts had undergone certified professional trainings and with vast experience in identifying hotspots. To add on to the service quality and reliability, we are equipped with one of the best brand of infrared thermography camera, FLIR.
FLIR have been in the business for well over 50 years, and they are the only company that produces their own infrared camera lenses. Above that, they had been trusted by the US Army, BMW, and many other renowned companies worldwide.
Applications of infrared thermal scan:
1. Identify faulty electrical components in distribution panels;
2. Identify poor electrical connections due to oxidation, loose contacts, ageing material;
3. Identify improper material and components sizing/ current rating causing heat build-up;
4. Identify poor mechanical alignment causing friction;
5. Identify faulty mechanical equipment due to damaged interior parts (bearings, rollers, spacers, etc.);
6. Evaluate insulation effectiveness (soiled rockwool, leaking ductings, aged/hardened gap fillers, etc.);
7. Analysis ACMV equipment efficiency (heat loss over distance travelled);
8. Identify energy wastage due to poorly designed/maintained systems, or building infrastructure.