Thermo-dynamic cycle computation of a micro turbojet engine

机译：微型涡轮喷气发线发动机的热动态循环计算

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Thermodynamic models are a perfect tool to describe heat engines. But such thermodynamic model must be extended to reflect reality as accurately as possible. Micro turbo compressor engines are a specific type of heat engines that are derived from normal turbo compressor engines. To compute their thermodynamic parameters we need to know their dimensions and choose many coefficients, which describe them. With this model we can get the needed state variables, which describe the engine's operational mode, load, and degradation. In order to use the thermodynamic model as a diagnostic tool it has to be transformed into some kind of mathematic tool, like Matlab/Simulink to get comparative data at real time. In this paper will be introduced the JETCAT P80 micro turbo compressor engine and application of the analytical model on it. There will be presented also applicability of that model.

机译：热力学模型是一个完美的工具来描述热风发动机。但必须延长这种热力学模型以尽可能准确地反映现实。微涡轮压缩机发动机是一种特定类型的热风发动机，其衍生自普通的涡轮压缩机发动机。为了计算他们的热力学参数，我们需要了解它们的尺寸并选择描述它们的许多系数。使用此模型，我们可以获得所需的状态变量，它描述了发动机的操作模式，负载和劣化。为了使用热力学模型作为诊断工具，它必须转换为某种数学工具，例如Matlab / Simulink，以实时获得比较数据。本文将推出JetCAT P80微涡轮压缩机发动机及其应用于其上的应用。将提供该模型的适用性。

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《IEEE International Symposium on Computational Intelligence and Informatics》|2016年|369p|共6页
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Ladislav Fozo; Rudolf Andoga; Radovan Kovacs;
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中图分类人工智能理论;
关键词
Engines; Mathematical model; Computational modeling; Atmospheric modeling; Fuels; Thermodynamics; MATLAB;

机译：发动机;数学模型;计算建模;大气建模;燃料;热力学;MATLAB;

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专利

1. Fully Coupled Turbojet Engine Computational Fluid Dynamics Simulations and Cycle Analyses Along the Equilibrium Running Line [J] . Alejandro M. Briones, Andrew W.CaswelI, Brent A. Rankin Journal of Engineering for Gas Turbines and Power . 2021,第6期

机译：完全耦合的Turbojet发动机计算流体动力学模拟和沿均衡线循环分析
2. Computational Analysis of Flow Field on the Propulsion Nozzle of a Micro-Turbojet Engine [J] . Jorge Luis Garrido-Tellez, Miguel Toledo-Velazquez, Samuel Alcantara-Montes, Engineering . 2012,第1期

机译：微型涡轮喷气发动机推进喷嘴流场的计算分析
3. Computational Analysis of Flow Field on the Propulsion Nozzle of a Micro-Turbojet Engine [J] . Jorge Luis Garrido-Téllez, Miguel Toledo-Velázquez, Samuel Alcántara-Montes, Engineering . 2012,第1期

机译：微型涡轮喷气发动机推进喷嘴流场的计算分析
4. Thermo-dynamic cycle computation of a micro turbojet engine [C] . Ladislav Fozo, Rudolf Andoga, Radovan Kovacs IEEE International Symposium on Computational Intelligence and Informatics . 2016

机译：微型涡轮喷气发动机的热力循环计算
5. Micro-scale Waste Heat Recovery from Stationary Internal Combustion Engines by Sub-critical Organic Rankine Cycle Utilizing Scroll Machinery [D] . Lavernia, Alejandro C. 2018

机译：利用涡旋机械通过亚临界有机朗肯循环从固定式内燃机中回收微量废热
6. Single Neural Adaptive PID Control for Small UAV Micro-Turbojet Engine [O] . Wei Tang, Lijian Wang, Jiawei Gu, 2020

机译：小型无人机微型涡轮喷气发动机的单神经自适应PID控制
7. Computational Analysis of Flow Field on the Propulsion Nozzle of a Micro-Turbojet Engine [O] . José Ángel L. Ortega-Herrera, Samuel Alcántara-Montes, Miguel Toledo-Velázquez, 2012

机译：微型涡轮喷气发动机推进喷嘴流场的计算分析

Thermo-dynamic cycle computation of a micro turbojet engine

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