Thermal Imaging

Robert G. Bonin, Motiva Enterprises LLC.

Robert G. Bonin, Motiva Enterprises LLC.

Inspection Dept., Port Arthur Refinery

Inspection Dept., Port Arthur Refinery

ABSTRACT

ABSTRACT

The key to positive

The key to positive infraredinfrared results, whether in the refining industry or in any other predictive maintenance results, whether in the refining industry or in any other predictive maintenance endeavor, is to keep the

endeavor, is to keep the infrared thermal imaginginfrared thermal imaging camera running and to build interest in the benefits ofcamera running and to build interest in the benefits of thermography with the right

thermography with the right people. As long as thepeople. As long as the infrared thermal imaginginfrared thermal imaging camera is running, it can give uscamera is running, it can give us useful information. Finding the right people to

useful information. Finding the right people to receivereceive thethe infraredinfrared information is the key to the actual use of information is the key to the actual use of the information, and to achieving cost savings and improved

the information, and to achieving cost savings and improved reliability.reliability.  As thermographers,

 As thermographers, our job includes fiour job includes finding influential indinding influential individuals in our organividuals in our organizations who can benefit zations who can benefit fromfrom the use of

the use of infraredinfrared. Using. Using infrared thermal imaging camerasinfrared thermal imaging cameras to locate temperature differentials is new to a lot to locate temperature differentials is new to a lot of our operational personnel, and

of our operational personnel, and some of our fellow workers need to understand how thesome of our fellow workers need to understand how the infraredinfrared tool can be tool can be applied to help them. A positive and

applied to help them. A positive and aggressive communications program continues to be the best way to getaggressive communications program continues to be the best way to get our fellow workers involved in

our fellow workers involved in helping us justify existinghelping us justify existing infraredinfrared applications and to develop additional applications and to develop additional infraredinfrared applications.

applications.

Some people are very

Some people are very skeptical about the reliability ofskeptical about the reliability of infrared thermographyinfrared thermography and others that think it is “smoke and others that think it is “smoke and mirrors.”

and mirrors.” Changing this attitude is a challenge—but success will go a long way in boosting yourChanging this attitude is a challenge—but success will go a long way in boosting your infraredinfrared program. When

program. When you’re asked to take anyou’re asked to take an infrared (infrared (IRIR)) scan, take the time to ask  scan, take the time to ask what the expectations of the IRwhat the expectations of the IR scan are. After the scan

scan are. After the scan is complete, explain what was done and the limitations of theis complete, explain what was done and the limitations of the infrared thermal imaginginfrared thermal imaging camera, if any are found. Be very careful and

camera, if any are found. Be very careful and present its usefulness present its usefulness in real terms. in real terms. Do not promise helpfDo not promise helpful resultsul results for every application unless you can

for every application unless you can deliver on every promise. For example, deliver on every promise. For example, shootingshooting thermalthermal images on runningimages on running units can be difficult at best, due to all the

units can be difficult at best, due to all the reflective energy sources in a small area. Most reflectors can bereflective energy sources in a small area. Most reflectors can be shielded and an accurate temperature

shielded and an accurate temperature produced if the area is critical and the costs are effective.produced if the area is critical and the costs are effective.

This paper describes typical uses for IR inspections and some new applications found through requests from This paper describes typical uses for IR inspections and some new applications found through requests from people on the job who wanted to try IR thermography to solve

people on the job who wanted to try IR thermography to solve an ongoing problem.an ongoing problem.

Key words:

Key words:applications, positive, cost savings, process stream, tanks, electrical, refinery, predictiveapplications, positive, cost savings, process stream, tanks, electrical, refinery, predictive maintenance

maintenance

CHECKLIST FOR POSITIVE ACTION

CHECKLIST FOR POSITIVE ACTION

Take these basic steps to insure that the IR information that is captured can be

Take these basic steps to insure that the IR information that is captured can be reproduced and used in thereproduced and used in the future and can help

future and can help identify similar areas throughout the refinery where identify similar areas throughout the refinery where a similar IR process will apply.a similar IR process will apply.

1.

1. _{Identify and list equipment and areas to be inspected. Alter the list as the program leads Identify and list equipment and areas to be inspected. Alter the list as the program leads to areas thatto areas that}

need to be included or dropped. need to be included or dropped.

2.

2. _{Use appropriate IR procedures where and when they apply.Use appropriate IR procedures where and when they apply.} 3.

3. _{Collect base-line data.Collect base-line data.} 4.

4. _{Use base-line information you have collected and keep it updated for future trending needs.Use base-line information you have collected and keep it updated for future trending needs.} 5.

5. _{Establish a frequency and routing schedule for each type of Establish a frequency and routing schedule for each type of equipment to be scanned. Set intervalsequipment to be scanned. Set intervals}

by how critical the equipment is and the effectiveness of IR scanning. Change intervals as the faults by how critical the equipment is and the effectiveness of IR scanning. Change intervals as the faults are evaluated.

are evaluated.

6.

INTRODUCTION

Sometimes thermal imaging information will solve problems for process personnel; at other times it helps your reliability group. In some cases we are looking for temperatures that will prove our process is working. There are also times when we can use thermography to prove something is not happening.

TANKS

 A good example of this would be measuring tank sludge levels while a vendor is cleaning a tank. Figures 1, 2, and 3 show the progress of the cleaning of a tank. Although the contractor initially reported that he had

removed about 95% of the sludge, we found that the IR images could more accurately measure his progress and reveal how much sludge was actually removed. In this case, only about 60% of the sludge was removed.

60.2°F 116.4°F 80 100 49.7°F 146.9°F 60 80 100 120 140 47.6°F 130.9°F 60 80 100 120

Figure 1. Thermal image of tank before sludge removal 

Figure 2. During sludge removal  Figure 3. After sludge removal 

Infrared (thermal) imaging is just one of the diagnostic tools we have available to help prevent or find the cause of process problems. For example, what if you are using one product in a tank in your process and find, through thermal imaging, that there is more than one product in the tank? How might your process be

affected?

The image of the storage tank in Figure 4 clearly shows three different temperatures, suggesting that more than one product—including an unknown material—is in the tank. What if the product in this tank is used to neutralize the process stream? What could happen when the unknown product is introduced to the process?  A very real possibility is that the product stream will go off test! Now the real problem begins—finding out

what caused the problem.

38.1°F 122.2°F 27.9°F 162.8°F 40 60 80 100 120 140 160 90.2°F 169.6°F

we are clever enough to understand what the infrared thermal imaging camera is telling us, we can preempt problems and costs. We have found on the job that positive results lead people to start thinking of new ways we thermographers canhelp make their jobs easier and more productive.

PROCESS STREAMS

 An operator requested a scan of a 30-inch vapor line that was approximately 30 feet off the ground The lines had back pressure, indicating a restriction or internal fouling. A scaffold was erected, and insulation was removed to permit access for taking IR images of a section of e ach of the vapor lines. The effort was well worth the cost. The IR images (Fig. 7) clearly showed that the lines were not as hot as they should have been. This gave us additional information with which to pursue the solution to the problem. On the basis of the thermal data, we expanded our work plan for the upcoming planned outage to include the cleaning of these lines, which proved to be a very good decision. After opening the lines (Fig. 8) and finding that the IR images were accurate, we proceeded with the plan to clean out the restrictions.

Having the ability to plan this work in a predictive or proactive manner, instead of having to do reactive work, allowed us to do the work without adding to the duration of the outage. This equates to full unit throughput and lower maintenance cost.

-325.6°F 876.2°F -200 0 200 400 600 800 SP01: 226.1°F SP02: 131.9°F SP03: 744.5°F SP04: 755.0°F

Figure 7. Thermal image of 30” vapor line Figure 8. Internal visual photo of the 30” vapor line showing serious blockage

 An IR image can be worth a thousand words. It can also tell you that what you see with your eyes may not be what you actually have. The thermal image in Figure 9 is of a process valve that was believed to be open.  Actually, the disk had fallen off the stem and closed the valve. As a result, the valve wheel can be turned in

either direction without having any effect on the temperature across the valve. Figure 10 shows a process valve believed to be leaking, but actually closed. Without the use of thermography, finding this problem would be very time-consuming and costly at best. In the petrochemical refinery there are thousands of valves that have the potential to fail. IR is a critical tool that is used to solve problems and that allows for speedy repairs to be made to the process system.

36.0°F 102.5°F 40 60 80 100 66.8°F 118.2°F

Figure 9. Process valve with dropped seat Figure 10. Closed process valve (foreground)

MORE PROCESS

What could be faster than using these images to find flow restrictions? Seeing these types of thermal patterns should alert the thermographer that there is a flow restriction of some kind. IR makes finding the problem easy in most cases. The information in these images would take several days to confirm using older methods. Our program welcomes operations to request IR scans to solve problems of this kind. However, keep in mind that not all temperature differentials are this clear. These exchangers are on the edge of units and have minimal added reflective energy sources to mask the image.

0.9°F 194.5°F 50 100 150 -24.3°F 138.6°F 0 50 100

Figure 11. Tube side fouling indicated by higher heat differential in outlets at top (far left and 4th from left)

Figure 12. Shell side fouling. The most fouled is on far right (hottest).

ELECTRICAL

The images below are good examples of what the infrared thermal imaging camera can detect during a typical daily survey. Figures 13 and 14 are thermal images of a power distribution pole taken from about 200 yards away. Several warm spots were seen that alerted us to investigate further. The visual photo in Figure 15 shows that the pole is actually on fire. This fault was on a major distribution line, and the failure of the pole could have caused major electrical problems and possible unit upsets and outages. Finding this fault was indeed lucky,

69.5°F 62.8°F 70 80 90

Figure 13. Thermal image of a wood power distribution pole taken from the south

Figure 14. Thermal image of the same pole taken from the north

Figure 15. Visual image taken from the North showing flame on burning pole

SUMMARY

Our IR program has had positive results getting off the ground due to the efforts of many people. Our management saw the potential and allowed it to expand as new applications were found. Our company is very proactive in finding innovative, safe, and cost-effective ways of solving old problems with new methods and equipment. Thermography has proven to be an extremely effective tool in the never-ending search for better predictive planning.

Our investment in infrared equipment and in training has been very cost beneficial. Our infrared inspection program is now part of the day-to-day procedure in our refinery. Meanwhile, we continue to investigate new ideas. Our experience so far strongly suggests that it may be harder to find areas where you can’t use IR than it is to develop new applications. Indeed, new IR applications keep coming in. As long as we can generate useful information with the infrared thermal imaging camera and communicate that information promptly to the

proper personnel, our infrared inspection program will continue to be an asset.

ACKNOWLEDGEMENTS

We wish to acknowledge A. J. LeClercq of Emerson-Electric Reliability Services, John Coleman of Infrared Scanning Services, Inc, and Al Ohliger of Chevron Texaco Inc. for the directions and guidance to help make our program a positive one.