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    Cooling of Gas Turbine Blade Leading Edge Via an Array of Air Jets With Variable Diameters

    Source: Journal of Heat Transfer:;2022:;volume( 144 ):;issue: 012::page 123801
    Author:
    Khalil, M.;Mohamed, Sherif A.;Attalla, M.;Maghrabie, Hussein M.
    DOI: 10.1115/1.4055598
    Publisher: The American Society of Mechanical Engineers (ASME)
    Abstract: In this study, the cooling of a gas turbine (GT) blade leading edge using a single row of five impinging air jets was numerically and experimentally investigated. The inner surface of the blade leading edge was depicted as a semicircle profile. The numerical study was performed using a shear stress transport (SST) k–ω turbulence model. On the other side, the experimental work was conducted using the infrared (IR) thermal camera. Additionally, the heat transfer characteristics were investigated with changing the Reynolds number (Re) from 5000 to 40,000. The study was carried out for different cases based on the jet diameter (d), named as fixed diameter (FD) and variable jet diameter in the streamwise flow direction, i.e., ascending diameter (AD) and descending diameter (DD). The local and average Nusselt numbers and heat transfer uniformity were studied at different operating and design parameters. The results revealed that for FD, increasing the jet diameter decreased the average Nusselt number while it enhanced the heat transfer uniformity. Furthermore, for all values of Re, the thermal performance of the AD was better than the DD, which has the worst heat transfer uniformity. Finally, predicted developed correlations to estimate the average Nusselt number, surface heat transfer uniformity, and performance evaluation factor (PEF) for all cases of jet diameter were introduced.
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      Cooling of Gas Turbine Blade Leading Edge Via an Array of Air Jets With Variable Diameters

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    http://yetl.yabesh.ir/yetl1/handle/yetl/4288602
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    contributor authorKhalil, M.;Mohamed, Sherif A.;Attalla, M.;Maghrabie, Hussein M.
    date accessioned2023-04-06T12:50:17Z
    date available2023-04-06T12:50:17Z
    date copyright10/6/2022 12:00:00 AM
    date issued2022
    identifier issn221481
    identifier otherht_144_12_123801.pdf
    identifier urihttp://yetl.yabesh.ir/yetl1/handle/yetl/4288602
    description abstractIn this study, the cooling of a gas turbine (GT) blade leading edge using a single row of five impinging air jets was numerically and experimentally investigated. The inner surface of the blade leading edge was depicted as a semicircle profile. The numerical study was performed using a shear stress transport (SST) k–ω turbulence model. On the other side, the experimental work was conducted using the infrared (IR) thermal camera. Additionally, the heat transfer characteristics were investigated with changing the Reynolds number (Re) from 5000 to 40,000. The study was carried out for different cases based on the jet diameter (d), named as fixed diameter (FD) and variable jet diameter in the streamwise flow direction, i.e., ascending diameter (AD) and descending diameter (DD). The local and average Nusselt numbers and heat transfer uniformity were studied at different operating and design parameters. The results revealed that for FD, increasing the jet diameter decreased the average Nusselt number while it enhanced the heat transfer uniformity. Furthermore, for all values of Re, the thermal performance of the AD was better than the DD, which has the worst heat transfer uniformity. Finally, predicted developed correlations to estimate the average Nusselt number, surface heat transfer uniformity, and performance evaluation factor (PEF) for all cases of jet diameter were introduced.
    publisherThe American Society of Mechanical Engineers (ASME)
    titleCooling of Gas Turbine Blade Leading Edge Via an Array of Air Jets With Variable Diameters
    typeJournal Paper
    journal volume144
    journal issue12
    journal titleJournal of Heat Transfer
    identifier doi10.1115/1.4055598
    journal fristpage123801
    journal lastpage12380111
    page11
    treeJournal of Heat Transfer:;2022:;volume( 144 ):;issue: 012
    contenttypeFulltext
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    نرم افزار کتابخانه دیجیتال "دی اسپیس" فارسی شده توسط یابش برای کتابخانه های ایرانی | تماس با یابش
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