3D-MODELLING AND SIMULATION OF PHYSICOCHEMICAL TRANSFORMATIONS IN A HIGH-PRESSURE TURBINE (HPT) OF AN AIRCRAFT ENGINE

机译：飞机发动机高压汽轮机（HTT）中物理化学变换的3D建模与仿真

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In this work, the 3D design of the stator, rotor of a turbine is performed. A one way coupling between a detailed physicochemical box model and multidimensional Navier-Stokes solver (FLUENT software) is used. Various series of three-dimensional calculations including approximately 500,000 elements are carried out to calculate aero-thermodynamics fields for a first stage of high-pressure turbine of the CFM56 aero-engine. The results show that blades of early turbine stages, directly downstream of combustor are subjected to relatively high levels of unsteadiness generated from complex significant three dimensional shear layers. The latter causes the formation of large-scale turbulent. By consequence, the complex interactions between the geometrical parameters, thermodynamical and chemical processes involving aerosol precursor formation in the turbine are analyzed and investigated.

机译：在这项工作中，执行定子的3D设计，进行涡轮机的转子。使用详细的物理化学盒模型和多维纳维尔 - Stokes求解器（流利软件）之间的一种方式耦合。在包括大约500,000个元件的各种三维计算中，以计算CFM56航空发动机的高压涡轮机的第一阶段的航空热力学领域。结果表明，早期涡轮机阶段的叶片直接在燃烧器下游均由复杂的重要三维剪切层产生的相对高水平的不稳定性。后者导致形成大规模湍流。结果，分析并研究了涉及涡轮机中的气溶胶前体形成的几何参数，热力学和化学方法之间的复杂相互作用。

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来源
《ASME International Mechanical Engineering Congress and Exposition》|2015年||共10页
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作者
T. H. Nguyen; F. Garnier;
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中图分类 TH-53;
关键词
High-pressure turbine; Aircraft engine; CFD; Chemical pollution; Aerosols;

机译：高压涡轮机;飞机发动机;CFD;化学污染;气溶胶;

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1. 3D modeling of transformation of gaseous pollutants in the high-pressure turbine of an aircraft engine [J] . Progress in Artificial Intelligence . 2020,第1期

机译：飞机发动机高压涡轮机中气态污染物转化的3D建模
2. Aero-thermodynamic and chemical process interactions in an axial high-pressure turbine of aircraft engines [J] . Trung Hieu Nguyen, Phuong Nguyen-Tri, Vancassel Xavier, International journal of engine research . 2019,第6期

机译：航空发动机轴向高压涡轮机的航空热力学和化学工艺相互作用
3. Evaluation of the relationship between the aerothermodynamic process and operational parameters in the high-pressure turbine of an aircraft engine [J] . Trung Hieu Nguyen, Phuong Tri Nguyen, Garnier Francois Aerospace science and technology . 2019,第MARa期

机译：评估飞机发动机高压涡轮机中空气动力过程与运行参数之间的关系
4. 3D-MODELLING AND SIMULATION OF PHYSICOCHEMICAL TRANSFORMATIONS IN A HIGH-PRESSURE TURBINE (HPT) OF AN AIRCRAFT ENGINE [C] . T. H. Nguyen, F. Garnier ASME International Mechanical Engineering Congress and Exposition . 2015

机译：飞机发动机高压汽轮机（HTT）中物理化学变换的3D建模与仿真
5. 3D-Modeling and Simulation of Transport and Physicochemical Transformations in a High Pressure Turbine of an Aircraft Engine =3D-modelisation et simulation de turbulence et transformations physicochimiques dans la turbine haut pression d’un moteur d’avion [D] . Nguyen, Trung Hieu. 2018

机译：飞机发动机高压涡轮机中运输和物理化学变换的3D建模与仿真=飞机发动机高压涡轮机湍流及物理化学变换的3D建模及仿真
6. Non-volatile particle emissions from aircraft turbine engines at ground-idle induce oxidative stress in bronchial cells [O] . Hulda R. Jonsdottir, Mathilde Delaval, Zaira Leni, 2019

机译：飞机怠速时飞机涡轮发动机的非挥发性颗粒物排放会在支气管细胞中引起氧化应激
7. Isogeometric simulation of turbine blades for aircraft engines [O] . David Großmann, Bert Jüttler, Helena Schlusnus, 2012

机译：飞机发动机涡轮叶片的等几何模拟
8. An Introduction to Thermodynamic Performance Analysis of Aircraft Gas Turbine Engine Cycles Using the Numerical Propulsion System Simulation Code [R] . Jones, Scott M. 2007

机译：用数值推进系统仿真程序对飞机燃气轮机发动机循环热力性能分析的介绍

3D-MODELLING AND SIMULATION OF PHYSICOCHEMICAL TRANSFORMATIONS IN A HIGH-PRESSURE TURBINE (HPT) OF AN AIRCRAFT ENGINE

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