Computational Fluid Dynamics Simulations and Experiments for Reduction of Oil Churning Loss and Windage Loss in Aeroengine Transmission Gears

被引:30
|
作者
Arisawa, Hidenori [1 ]
Nishimura, Motohiko [1 ]
Imai, Hideyuki [1 ]
Goi, Tatsuhiko [1 ]
机构
[1] Kawasaki Heavy Ind Co Ltd, Akashi, Hyogo 6738666, Japan
来源
JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER-TRANSACTIONS OF THE ASME | 2014年 / 136卷 / 09期
关键词
SURFACE TEMPERATURES; NUMERICAL-SOLUTION; FILM THICKNESS; SPUR GEARS; LOAD;
D O I
10.1115/1.4026952
中图分类号
TH [机械、仪表工业];
学科分类号
0802 ;
摘要
The demand for power generation capacity has increased considerably due to the electric drive of cabin air conditioners and commercial aircraft engines. It is estimated that power losses may increase in the accessory gearbox due to generators and pumps that augment fuel consumption. To reduce these losses, a computational fluid dynamics simulation technique that analyzes oil churning and windage losses was developed and improvements were made to the shrouds of bevel gears, which have large losses in the gearbox. It was revealed experimentally that shrouding reduced losses up to 36% as compared to unshrouded gears.
引用
收藏
页数:9
相关论文
共 50 条
  • [21] Experiments and Computational Fluid Dynamics on Vapor and Gas Cavitation for Oil Hydraulics
    Osterland, Sven
    Guenther, Lennard
    Weber, Juergen
    CHEMICAL ENGINEERING & TECHNOLOGY, 2023, 46 (01) : 147 - 157
  • [22] Bubble Interfacial Area in a Swirling Contactor: Experiments and Computational Fluid Dynamics Simulations
    Xu, Xiao
    Gong, Chunkai
    Wang, Shuo
    Yang, Qiang
    Xi, Zhenhao
    CHEMICAL ENGINEERING & TECHNOLOGY, 2024, 47 (01) : 68 - 78
  • [23] Mixed solids distribution in stirred vessels: Experiments and computational fluid dynamics simulations
    Montante, Giuseppina
    Magelli, Franco
    INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2007, 46 (09) : 2885 - 2891
  • [24] A computational fluid dynamic-based method for analyzing the nonlinear relationship between windage loss and pressure in a geotechnical centrifuge
    Guo, Yi-Nan
    Yang, Yi
    Yu, Jun-Xiang
    Ding, De
    Wang, Ya-Lin
    SN APPLIED SCIENCES, 2021, 3 (10):
  • [25] GEOMETRY AND HEAD LOSS IN VENTURI INJECTORS THROUGH COMPUTATIONAL FLUID DYNAMICS
    Manzano, Juan
    Palau, Carmen V.
    De Azevedo, Benito M.
    Do Bomfim, Guilherme V.
    Vasconcelos, Denise V.
    ENGENHARIA AGRICOLA, 2016, 36 (03): : 482 - 491
  • [26] A computational fluid dynamic-based method for analyzing the nonlinear relationship between windage loss and pressure in a geotechnical centrifuge
    Yi-Nan Guo
    Yi Yang
    Jun-Xiang Yu
    De Ding
    Ya-Lin Wang
    SN Applied Sciences, 2021, 3
  • [27] Evaluation of air diffuser flow modelling methods experiments and computational fluid dynamics simulations
    Fontaine, JR
    Rapp, R
    Koskela, H
    Niemelä, R
    BUILDING AND ENVIRONMENT, 2005, 40 (03) : 377 - 389
  • [28] Computational Fluid Dynamics Study of Solids Deposition in Heavy Oil Transmission Pipeline
    Landry, X.
    Runstedtler, A.
    Papavinasam, S.
    Place, T. D.
    CORROSION, 2012, 68 (10) : 904 - 912
  • [29] Prediction of dust loss from conveyors using computational fluid dynamics modelling
    Witt, PJ
    Carey, KG
    Nguyen, TV
    APPLIED MATHEMATICAL MODELLING, 2002, 26 (02) : 297 - 309
  • [30] Validation of a loss of vacuum accident (LOVA) Computational Fluid Dynamics (CFD) model
    Bellecci, C.
    Gaudio, P.
    Lupelli, I.
    Malizia, A.
    Porfiri, M. T.
    Quaranta, R.
    Richetta, M.
    FUSION ENGINEERING AND DESIGN, 2011, 86 (9-11) : 2774 - 2778
12345