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Analysis of combustion chamber deposit growth on temperature swing thermal barrier coatings in a spark ignition engine
Temperature swing thermal barrier coatings (TBCs) have the potential to improve efficiency and performance through thermal management of the combustion chamber. However, the effects of combustion chamber deposits (CCDs) on the surface of the TBCs are unclear. Therefore, this paper analyzes the impac...
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| Published in: | International journal of engine research 2022-12, Vol.24 (7) |
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| Main Authors: | , , , , , , , , |
| Format: | Article |
| Language: | English |
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| container_issue | 7 |
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| container_title | International journal of engine research |
| container_volume | 24 |
| creator | Gandolfo, John Gainey, Brian Yan, Ziming Patel, Aakash Filipi, Zoran Jiang, Chen Kumar, Rishi Jordan, Eric H. Lawler, Benjamin |
| description | Temperature swing thermal barrier coatings (TBCs) have the potential to improve efficiency and performance through thermal management of the combustion chamber. However, the effects of combustion chamber deposits (CCDs) on the surface of the TBCs are unclear. Therefore, this paper analyzes the impact of CCD formation on a temperature swing TBC. A piston and a heat flux probe coated with a novel material are installed in a single-cylinder research engine at a low-load condition for 62.5 h to promote CCD growth. Every 12.5 h, the performance at a knock limited condition is assessed and thermophysical property measurements on the heat flux probe are performed. Net thermal efficiency increased by 0.4% absolute after 12.5 h relative to the baseline condition, but further CCD growth caused a dithering of efficiency between the 12.5 h and baseline points. The KLSA retarded consistently throughout this period. As a result, external property measurements with the coated heat flux probe showed an improvement in the thermophysical properties of the TBC/CCD layer. |
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However, the effects of combustion chamber deposits (CCDs) on the surface of the TBCs are unclear. Therefore, this paper analyzes the impact of CCD formation on a temperature swing TBC. A piston and a heat flux probe coated with a novel material are installed in a single-cylinder research engine at a low-load condition for 62.5 h to promote CCD growth. Every 12.5 h, the performance at a knock limited condition is assessed and thermophysical property measurements on the heat flux probe are performed. Net thermal efficiency increased by 0.4% absolute after 12.5 h relative to the baseline condition, but further CCD growth caused a dithering of efficiency between the 12.5 h and baseline points. The KLSA retarded consistently throughout this period. 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However, the effects of combustion chamber deposits (CCDs) on the surface of the TBCs are unclear. Therefore, this paper analyzes the impact of CCD formation on a temperature swing TBC. A piston and a heat flux probe coated with a novel material are installed in a single-cylinder research engine at a low-load condition for 62.5 h to promote CCD growth. Every 12.5 h, the performance at a knock limited condition is assessed and thermophysical property measurements on the heat flux probe are performed. Net thermal efficiency increased by 0.4% absolute after 12.5 h relative to the baseline condition, but further CCD growth caused a dithering of efficiency between the 12.5 h and baseline points. The KLSA retarded consistently throughout this period. 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However, the effects of combustion chamber deposits (CCDs) on the surface of the TBCs are unclear. Therefore, this paper analyzes the impact of CCD formation on a temperature swing TBC. A piston and a heat flux probe coated with a novel material are installed in a single-cylinder research engine at a low-load condition for 62.5 h to promote CCD growth. Every 12.5 h, the performance at a knock limited condition is assessed and thermophysical property measurements on the heat flux probe are performed. Net thermal efficiency increased by 0.4% absolute after 12.5 h relative to the baseline condition, but further CCD growth caused a dithering of efficiency between the 12.5 h and baseline points. The KLSA retarded consistently throughout this period. 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| identifier | ISSN: 1468-0874 |
| ispartof | International journal of engine research, 2022-12, Vol.24 (7) |
| issn | 1468-0874 2041-3149 |
| language | eng |
| recordid | cdi_osti_scitechconnect_1997416 |
| source | Sage Journals Online; IMechE Titles Via Sage |
| subjects | Combustion Chamber Deposits ENERGY CONSERVATION, CONSUMPTION, AND UTILIZATION ENGINEERING Knock MATERIALS SCIENCE Spark Ignition Temperature Swing Coatings Thermal Barrier Coatings |
| title | Analysis of combustion chamber deposit growth on temperature swing thermal barrier coatings in a spark ignition engine |
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