Introduction

1. Application of IR Thermography as a Condition Based Preventive Maintenance Technique for Energy Conservation in Pulp and Paper IndustryByAlok Kumar Goel, N. K. Naik,Sanjay Tyagi, B. P. Thapliyal and R. M. MathurCertified Energy Manager, CPPRI, Saharanpur

2. Introduction • Condition based (CB) preventive maintenance is widely used in Industry to maintain the healthy condition. • It helps to reduce operating costs and increase the safety of assets. • Thermography involves the use of infrared imaging and measurement devices to display and measure thermal energy emitted by an object. • IR thermography cameras produce images of invisible infrared or heat radiation and provide precise noncontact temperature measurement capabilities.

3. What is Infrared? • Infrared light is not visible to the naked eye because infrared wavelengths are too high on the electromagnetic spectrum. • The wave lengths are longer than those of visible light and shorter than those of radio waves. This part of the electromagnetic spectrum is what we perceive as heat or “heat radiation”. • Infrared is mostly associated with “hot spots” and anything above absolute zero emits infrared heat? Infrared Zoon Wavelength 8 to 14 μm

4. Thermography • Thermographic cameras detect radiation in the IR range of the electromagnetic spectrum (0.9–14 μm) and produce images of that radiation. • Since IR radiation is emitted by all objects based on their temperatures, according to the black body radiation law, thermography makes it possible to "see" one's environment with or without visible illumination. • The amount of radiation emitted by an object increases with temperature, therefore thermography allows one to see variations in temperature.

5. Thermography • Infrared thermography is the science of acquisition and analysis of thermal information by using non contact thermal imaging devices. • The term "Thermography" refers to the capturing of thermal patterns and data emitted by an object with the use of an infrared imaging and measurement camera. • An image is then produced with the camera that can give you data that is otherwise unattainable.

9. Applications of IR radiations - industrial, scientific and medical • Night-vision devices • IR imaging cameras are used to- • detect heat loss in insulated systems, • observe changing blood flow in the skin, and • detect overheating of electrical apparatus. IR imaging is used extensively for military and civilian purposes. • Military applications include • target acquisition, • surveillance, • night vision, • homing and tracking. • Non-military uses include • thermal efficiency analysis, • environmental monitoring, • industrial facility inspections, • remote temperature sensing, • short-ranged wireless communication, • spectroscopy, and • weather forecasting

10. IR THERMOGRAPHIC CASE STUDIES FOR PREVENTIVE MAINTENANCE AND ENERGY CONSERVATION ASSESSMENT • IR Thermography due to its ease of operation and generation of valuable thermal data for various equipment, distribution systems, pipes & storage tanks and process operations etc., is being used as a preventive maintenance technique in various process industries. • In pulp and paper mills this technique can be used effectively to monitor electrical & thermal systems and manufacturing processes, to identify any deviation in their respective thermal characteristics.

11. IR Thermography of Electrical Systems • It has been observed that the untimely shutdown of electrical distribution equipment and motors etc., often results in lost production, higher operating costs, and loss of profits. The studies conducted at mills have shown that in integrated and non-integrated paper mills over 30% of their total losses results from electrical problems. • IR Thermography as a preventive maintenance technique offers method to identify the commencement of the problem in the equipment and thus may save expensive maintenance.

12. Conductor terminations and connections • A high percentage of problems occur in terminations and connections, particularly in copper-to-aluminum connections. • They show up as hot spots. As a thumb-rule, a splice connector should not be warmer than its conductors, in case it has been sized properly and is working perfectly. • However, in practice the connectors are mostly hot and unnoticed, thereby causing frequent untimely failures in the system. These are un-noticed till some problem erupts in the plant. • During the investigation it was revealed that the hot spots due to loose connections are responsible for min. 0.1 Ohm resistance to ground and it results in power loss to the ground.

13. IR Thermographs of the connectors at various locations in pulp and paper mill Infrared Image Visible image Deinking Chest Pump Panel

14. IR Thermographs of the connectors at various locations in pulp and paper mill Infrared Image Visible image Tube Well No.2 Panel

15. IR Thermographs of the connectors at various locations in pulp and paper mill Infrared Image Visible image Turbine Main Panel

16. Assessment of power lost to ground in various hot spots in the connectors Total savings = 101.5 kW Annual Savings: kWh savings per annum = 101.5 x 8000 hrs = 8,12,000 kWh Monetary saving per annum @ Rs. 5.00 per kWh = 8,12,000 x 5.00 = Rs 40.60 lakhs

17. IR Thermography of Electrical Motors • IR Thermography of an operating motor can show the surface temperature of the motor without any contact and disturbing the process. • Rise in surface temperature of the motor can show abnormality in its functioning. • The IR Thermograph can show the area where heating is taking place and corrective action can thus be initiated. • In most of the case studies using IR Thermography, it has been observed that hot spots are mainly seen in case of faulty coupling or in the motor binding. • Heat produced in the motor electrical systems can result in significant undesirable energy losses.

18. IR Thermographs of a motor and shaft in a pulp and paper mill Motor Shaft

19. IR Thermography of Electrical Motors • The variation in the operating temperature of metal of the winding results in the variation of resistance. • This variation in resistance is given by Calendar- van Deusen relation RT= R0 ([1+C1T+C2T2) for (00 <T < 8500C) Where C1= 3.9083 x 10 -3/0C, C2= -5.775x10-7/ 0C2 • Winder loss is the term often used to predict losses due to heat produced in the conductors of bindings or other electrical devices. • It is also referred to as I2Rt and states that the energy lost each second, increases as the square of the current through the windings in proportion to the electrical resistance of the conductors.

20. Assessment of winding losses in various motors. Annual Savings: kWh savings per annum = 295.9 x 8000 hrs = 23,67,200 kWh Monetary saving per annum @ Rs. 5.00 per kWh = 23,67,200 x 5.00 = Rs 118.36 lakhs

21. IR Thermography for steam and condensate system Inspection • IR Thermography is very useful non-contact technique to find out surface temperature of hot steam and condensate pipe lines as it can be used from long distance (upto three meters) to monitor the surface temperature of inaccessible locations. • The maintenance department can study steam systems and find out energy savings within following areas. • Leak detection and elimination • Steam and condensate pipe line insulation checks.

22. IR Thermography for steam and condensate system Inspection Insulation in plants Worn insulation causing hotspot

23. IR Thermography for steam and condensate system Inspection

24. Temperatures recorded in various steam pipe lines and assessment of energy saving potential in pulp and paper mill

25. IR Thermography for process monitoring • Various options can be explored to utilize IR Thermography for process monitoring in a pulp and paper mill depending on requirement. • The areas where this technique can be useful are listed below. • Study of temperature profile of paper on pope reel to find out heating drier temperature uniformity. • IR thermography study on sediment deposits in various storage tanks showing deposits as cool area in the bottom of the tank. • Checking of storage tank level by using IR thermography. • IR thermography study of pipe lines in stock preparation and causticization section to find out sedimentation inside the pipe lines. The sedimentation inside the pipe line can be seen as cold spots. • Study of heat exchanger tube blockage. • IR thermographic study of surface temperatures of lime kiln shell to find out refractory line condition. The hot spots on the surface of lime kiln show damage in the refractory lining.

26. IR Thermographs of paper roll and some processes in a pulp and paper mill A. Temperature profile of paper roll on pope reel B. Temperature profile of lime kiln

27. IR Thermographs of some processes in a pulp and paper mill C. IR Thermograph of a tank in chemical recovery section D. IR Thermograph showing sedimentation in transfer pipe lines.

28. IR Thermographs of some processes in a pulp and paper mill Loose or Tight belt Heats up Abnormally Pumps

29. IR Thermographs of some processes in a pulp and paper mill Loose or Tight belt Heats up Abnormally

30. IR Thermographs of some processes in a pulp and paper mill

31. IR Thermographs of some processes in a pulp and paper mill Tank levels Levels Indicating the Fluid Level in Storage Tank

32. IR Thermographs of some processes in a pulp and paper mill Heat exchanger Blocked Heat Exchanger Section

33. CONCLUSIONS: • Thermography is a useful tool for preventive maintenance applications without hampering the operations. Further thermographic analysis can lead to following benefits in a pulp and paper mill. • Extended equipment life • Reduction in plant downtime • Improvement in plant reliability • Maintenance can be scheduled for the most convenient time • Analysis of thermal data collected from various electrical distribution systems, motors, pumps, transformers, vacuum pumps, steam and condensate pipe lines and process equipment etc., can be useful to find out energy saving potential by initiating timely corrective actions. Thus IR Thermography as a preventive maintenance technique, can also supports in energy conservation activities of the mill.

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