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应用空气动力学与CFD在F1、赛车与驾驶汽车工业中的视频教程 (英文)

应用空气动力学与CFD在F1、赛车与驾驶汽车工业中的视频教程

发布于 2024年4月 由 Shubham Sangodkar 创建 MP4 | 视频: h264, 1280×720 | 音频: AAC, 44.1 KHz, 2 声道 类别: 电子学习 | 语言: 英语 | 时长: 59 讲座(11小时26分钟)| 大小: 8.88 GB

学习在F1、赛车和驾驶汽车工业中的最佳空气动力学和CFD实践。

你将学到的内容:

  • 了解CFD在推动赛车设计创新和性能优化中的作用。
  • 熟悉F1车队中空气动力学和CFD部门的结构和功能。
  • 学习赛车几何建模中的关键考虑因素及其对空气动力学性能的影响。
  • 探索虚拟风洞环境的设置及其在空气动力学分析中的重要性。
  • 了解赛车的机械设置及其对空气动力学的影响。
  • 学习特定于赛车应用的预处理步骤,如轮胎建模和赛道行为模拟。
  • 应用预处理技术准备几何并设置模拟以进行详细案例研究。
  • 探索不同的湍流建模技术及其在赛车CFD模拟中的应用。
  • 了解表面压力分布和其他流场变量在空气动力学分析中的重要性。
  • 探索前轮胎喷射控制和翼载荷等高级概念。
  • 学习如何在赛车工业中应用CFD的三大支柱:预处理、求解器和后处理。

要求:

  • 基本的计算流体动力学和空气动力学知识
  • 对赛车变量的了解,即赛车迷

描述:

课程介绍:

本课程设计旨在使学生探索和应用CFD在赛车中的基本原理,获得其在空气动力学模拟与分析、车辆性能优化和设计验证中的实际应用的见解。课程的每个部分都旨在提供理论知识和实践经验的平衡,确保学生了解CFD在赛车世界中的应用现实。

主要涵盖的主题:

  • 计算流体动力学(CFD)的基础知识:了解流体流动模拟的核心原理和方程,包括CFD中使用的离散化方法和数值技术。
  • CFD在赛车中的应用:探索CFD在赛车工程中的具体应用,包括空气动力学分析、车辆性能优化和设计验证。
  • 几何准备和网格生成:学习如何准备几何进行模拟,生成高质量网格,并优化网格分辨率以实现准确和高效的CFD模拟。
  • 空气动力学建模与分析:深入研究高级空气动力学建模技术,如边界层建模、湍流建模和涡流分析,以了解赛车周围的流动行为。
  • 求解器方法和边界条件:了解CFD模拟中使用的不同求解器方法,设置适当的边界条件,并验证模拟设置以确保可靠的结果。
  • 后处理和数据分析:掌握后处理技术,以分析模拟结果,包括流场可视化、空气动力学力和力矩的计算以及关键性能指标的解释。
  • 案例研究和实际应用:将理论知识应用于现实案例研究,如分析特定车辆部件的空气动力学、优化设计以提高性能以及解决模拟问题。
  • 职业技能和职业发展:培养成功的赛车工程职业生涯所需的批判性思维、问题解决和沟通技能,了解行业最佳实践和趋势。

完成课程后,你将获得以下资源:

  • 访问OpenFOAM文件以进行自己的模拟
  • 访问多个CFD案例研究的后处理
  • 访问2023年F1 CAD模型,以便设计自己的部件
  • 获取F1车队空气动力学面试的推荐阅读材料和文章
  • 由空气动力学家颁发的课程完成证书

Applied Aerodynamics & CFD for F1 , Motorsport & Automotives

Published 4/2024
Created by Shubham Sangodkar
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English | Duration: 59 Lectures ( 11h 26m ) | Size: 8.88 GB

Learn the best Aerodynamics and CFD practices within the F1 , Motorsports and Automotive Industry.

What you’ll learn:
Gain insight into the role of CFD in driving innovation and performance optimization in racing car design.
Familiarize with the structure and functions of an Aero and CFD department in a Formula 1 team.
Learn the key considerations in geometric modeling of race cars and its influence on aerodynamic performance
Explore the setup of a virtual wind tunnel environment and its importance in aerodynamic analysis.
Understand the mechanical setup of a racing car and its implications on aerodynamics.
Learn about the preprocessing steps specific to motorsports applications, such as tire modeling and track behavior simulation.
Apply pre-processing techniques to prepare geometry and set up simulations for a detailed case study.
Explore different turbulence modeling techniques and their applications in motorsports CFD simulations.
Understand the significance of surface pressure distribution and other flow field variables in aerodynamic analysis.
Explore advanced concepts such as front tire squirt control and wing loading.
Learn how the 3 Pillar of CFD i.e. Pre-Processing , Solver and Post-Processing are applied in the Motorsports Industry

Requirements:
Basic Proficiency in Computational Fluid Dynamics and Aerodynamics
Understanding for the variables in Motorsports , i.e a Motorsport Fan

Description:
Course Introduction:This course is designed such that , students will explore and apply the fundamental principles of CFD  in motorsports, gaining practical insights into its application in aerodynamic simulation and analysis, vehicle performance optimization, and design validation. Each section of the course is crafted to provide a balance of theoretical knowledge and hands-on experience, ensuring that students are exposed to the hidden realities of CFD application in the world of motorsports. Key Topics Covered:Fundamentals of Computational Fluid Dynamics (CFD): Understand the core principles and equations governing fluid flow simulations, including discretization methods and numerical techniques used in CFD.Application of CFD in Motorsports: Explore how CFD is applied specifically in the context of motorsports engineering, including aerodynamic analysis, vehicle performance optimization, and design validation.Geometry Preparation and Mesh Generation: Learn how to prepare geometry for simulation, generate high-quality meshes, and optimize mesh resolution for accurate and efficient CFD simulations.Aerodynamic Modeling and Analysis: Dive into advanced aerodynamic modeling techniques, such as boundary layer modeling, turbulence modeling, and vortex analysis, to gain insights into flow behavior around racing vehicles.Solver Methods and Boundary Conditions: Understand different solver methods used in CFD simulations, set up appropriate boundary conditions, and validate simulation setups to ensure reliable results.Post-Processing and Data Analysis: Master post-processing techniques to analyze simulation results, including visualization of flow fields, calculation of aerodynamic forces and moments, and interpretation of key performance metrics.Case Studies and Practical Applications: Apply theoretical knowledge to real-world case studies, such as analyzing the aerodynamics of specific vehicle components, optimizing designs for performance improvements, and troubleshooting simulation issues.Professional Skills and Career Development: Develop critical thinking, problem-solving, and communication skills essential for success in motorsports engineering careers, and gain insights into industry best practices and trends.Once you complete the course , at the end you can bookAccess to OpenFOAM Files for your own simulationsAccess to Post Processing of multiple CFD Case StudiesAccess to  2023 F1 CAD model for you to design your own parts. Access to Recommended readings and articles for an Aerodynamics Interview at an F1 Team.Course Completion Certificate from an Aerodynamicist.


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未经允许不得转载:红杏破解 » 应用空气动力学与CFD在F1、赛车与驾驶汽车工业中的视频教程