Aerial Infrared (IR) - International District Energy Association
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Aerial Infrared (IR) - International District Energy Association
Aerial Infrared (IR) – An Asset Management Tool for District Heating System Operators Greg Stockton Stockton Infrared Thermographic Services, Inc. Infrared Thermography What’s so hot about… Infrared Thermography? General Overview Infrared Thermography Infrared Thermography Infrared Thermography Electrical P/PM Infrared Thermography *>241.2°F 240.0 220.0 200.0 180.0 160.0 140.0 120.0 100.0 80.0 *<67.0°F Infrared Thermography *>150.0°F 150.0 140.0 130.0 120.0 110.0 100.0 *<94.5°F Infrared Thermography Pad-Mounted Transformer Infrared Thermography Pad-Mounted Transformer Infrared Thermography Max 143.9 Max 103.1 Infrared Thermography *>107.9°F 105.0 100.0 95.0 90.0 85.0 80.0 75.0 *<71.9°F Infrared Thermography *>118.7°F 110.0 100.0 90.0 80.0 70.0 *<69.4°F Infrared Thermography Computer Room UPS Systems Infrared Thermography *>42.9°C 42.0 40.0 38.0 36.0 34.0 32.0 30.0 *<29.3°C Infrared Thermography Micro Circuitry Infrared Thermography *>244.4°F 200.0 150.0 100.0 50.0 0.0 *<-4.0°F Infrared Thermography *>232.3°F 220.0 200.0 180.0 160.0 140.0 120.0 100.0 80.0 *<68.0°F Infrared Thermography Mechanical P/PM Infrared Thermography *>147.5°F 140.0 130.0 120.0 110.0 100.0 90.0 80.0 70.0 *<68.6°F Infrared Thermography Plant #1 Air Wash #2 SupplyPump Fan Spray High Temp = ____ 122 Note: Ambient Readings should Ambient = ____ 79 be taken at the exact location Rise = ____ 43 onTemperature the number indicator. Spot 1 90.1 Spot 2 83.4 Infrared Thermography Example 1-2-Spray Pump DATE June-00 July-00 August-00 September-00 October-00 November-00 December-00 January-01 February-01 March-01 April-01 May-01 June-01 High Temp. 125 129 133 148 196 225 246 142 138 139 141 142 139 Ambient Temp. Rise Notes 87 38 88 41 89 44 90 58 92 104 95 130 95 151 Motor was rewound during shutdown 88 54 89 49 90 49 89 52 89 53 89 50 Temperature Rise 160 151 140 130 120 104 100 80 60 40 58 38 41 54 44 49 49 52 53 50 20 0 Jun-00 Jul-00 Aug-00 Sep-00 Oct-00 Nov-00 Dec-00 Jan-01 Feb-01 Infrared Thermography Mar-01 Apr-01 May-01 Jun-01 Infrared Thermography Spot 2 167.8 Spot 4 106.1 Spot 1 190.6 Spot 3 149.2 Infrared Thermography Infrared Thermography Brick Kilns Infrared Thermography *>224.4°F 220.0 200.0 180.0 160.0 140.0 120.0 100.0 80.0 60.0 *<50.5°F Infrared Thermography >248.0°F 240.0 220.0 200.0 180.0 160.0 140.0 120.0 Area Max 241.8 100.0 80.0 60.0 Spot 117.9 <57.7°F Infrared Thermography RTOs (Recuperative Thermal Oxidizers) Infrared Thermography RTOs (Recuperative Thermal Oxidizers) Infrared Thermography Incinerators Air Scrubbers Wet Scrubbers Gas Scrubbers Infrared Thermography Infrared Thermography Infrared Thermography Condensate Return Line Leak Infrared Thermography Condensate Return Line Leak Infrared Thermography Infrared Thermography Infrared Thermography Typical Smokestack A low quality repair of a through-crack Degradation of thermal insulation -3,7оС +3,5oC Infrared Thermography Quantifying Air Leaks Air in-leak acts as a heat sink Tina Observation point ΔT L X H 2HLKΔT P= a a Cρ X (Tin −Tout) Wall average temperature 18.1oC X=1.2 m Touta ΔT=1.8oC P, m3/s P=43 litres/hr Infrared Thermography Evaluating variations in wall thermal resistance Assume that we measure the temperature gradients ΔT on a smokestack outer surface and determine the corresponding variations in thermal resistance ΔRt hout (1 + + hout Rt ) 2 hin w ΔRt = ΔTout a a hout (Tout − Tin ) Conclusion. The typical IR camera temperature resolution of 0.1oC is equivalent to ΔRt=0.032 m2KW-1 (to compare to the total value Rt=1.37 m2KW-1 ) that is much better than in the case of absolute measurement. ΔT=1.8o C Example. A smokestack is made of two brick layers separated with an air gap (Rt=1.37 m2KW-1). The ΔT=1.8oC surface temperature signal is equivalent to ΔRt=0.33 m2KW-1 that can be explained by the destruction of the internal brick layer and the gas infiltration into the air gap. Infrared Thermography Schematic Presentation of Smokestack Reinforced concrete smokestack Brick smokestack +ΔT Insulation deficiency -ΔT Air in-leaks Tnd Infrared Thermography Warm areas correspond to insulation deficiencies. Cold areas are created by air in-leaks. Smokestack Defect Map Scale stairs +40,0 m D3 +4,7оС Concrete strips D4 о о о - 2,7 С +2.9 С о D13+3,3 С D1 - 4,5 С о D5 +3,2 С о D8 - 5,0 С о - 2,7 С о D10 - 4,9 С о D12 - 3,2 С о - 1,9 С о D11 - 3,9 С о о - 2,9 С D6 - 4,7 С D2 о +1,3 С о D9 - 4,7 С о D11 - 1,5 С D5 +1.2 С о D7 Local temperature drops (signal in degrees Celcius) Local temperature elevations (signal in degrees Celcius) Significant defects are marked in colors Infrared Thermography о - 3С Infrared Thermography Infrared Thermography Infrared Thermography Aerial Infrared Thermography Infrared Thermography Typical installations of infrared imaging and digital data systems Infrared Thermography Aerial Electrical Infrared Infrared Thermography Deer Counts Infrared Thermography Coal/Chip/Peat Pile Monitoring Infrared Thermography Landfill Fires Infrared Thermography Wide Area Thermal Mapping Infrared Thermography Cooling Lakes Thermal Profiles Infrared Thermography Power Plant Outfalls Cooling Tower Discharge Infrared Thermography Industrial Outfalls Infrared Thermography Stormwater System Outfalls Infrared Thermography Stormwater System Outfalls Infrared Thermography Stormwater System Outfalls Infrared Thermography Roof Moisture Surveying Photograph Thermograph CAD Drawing Probable wet area (~15.72%) Infrared Thermography Possible wet area (NONE) Roof Moisture Surveying Infrared Thermography Roof Moisture Surveying Infrared Thermography Roof Moisture Surveying Infrared Thermography Roof Moisture Surveying Total area ~231.398 ft² Infrared Thermography Roof Moisture Surveying Total area ~231.398 ft² Infrared Thermography Roof Moisture Surveying Probable wet area (~39,609 ft², 17.11%) Possible wet area (NONE) Total area ~231.398 ft² Infrared Thermography Steam System Surveys Overhead Steam Line Infrared Thermography Steam System Surveys Insert PhotoShop images here of cities Infrared Thermography Steam System Surveys Infrared Thermography Steam System Surveys Infrared Thermography Steam System Surveys Infrared Thermography Steam System Surveys Infrared Thermography Steam System Surveys Infrared Thermography Steam System Surveys Infrared Thermography Steam System Surveys Infrared Thermography Steam System Surveys Infrared Thermography Steam System Surveys Infrared Thermography Thank You For Your Kind Attention! Infrared Thermography Aerial Infrared (IR) – An Asset Management Tool for District Heating System Operators Greg Stockton Stockton Infrared Thermographic Services, Inc. Copyright 2007 All Rights Reserved. Infrared Thermography
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