HVAC: INTERMEDIATE Level
Price: $3.00 / Month
Take your HVAC simulation skills to the next level with our comprehensive intermediate course. Building on foundational concepts, this subscription service will dive deeper into advanced HVAC systems and complex airflow scenarios. Learn to tackle real-world challenges in building climate control, energy efficiency, and indoor air quality using ANSYS Fluent.
Key features:
In-depth analysis of multi-zone HVAC systems
Advanced turbulence modeling for accurate airflow prediction
Thermal comfort optimization techniques
Energy performance simulations for sustainable design
Hands-on projects mirroring industry applications
Perfect for engineers and designers looking to enhance their HVAC simulation expertise. Stay tuned for the launch of this exciting new course!
By enrolling in this course, you will also gain access to the following courses for free:
HVAC: INTERMEDIATE Level
Take your HVAC simulation skills to the next level with our comprehensive intermediate course. Building on foundational concepts, this subscription service will dive deeper into advanced HVAC systems and complex airflow scenarios. Learn to tackle real-world challenges in building climate control, energy efficiency, and indoor air quality using ANSYS Fluent.
Key features:
In-depth analysis of multi-zone HVAC systems
Advanced turbulence modeling for accurate airflow prediction
Thermal comfort optimization techniques
Energy performance simulations for sustainable design
Hands-on projects mirroring industry applications
Perfect for engineers and designers looking to enhance their HVAC simulation expertise. Stay tuned for the launch of this exciting new course!
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Section 1
Storage Container Ventilation
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Storage Container Room Ventilation CFD Simulation
This intermediate-level episode of the HVAC: INTERMEDIATE Level training course focuses on the critical role of ventilation in storage container rooms and demonstrates how to use Computational Fluid Dynamics (CFD) to analyze ventilation systems. Participants will learn to use ANSYS Fluent to simulate airflow patterns and temperature distribution in storage container environments. Key topics: Importance of proper ventilation in storage container rooms for HVAC applications Challenges specific to container storage, including temperature control and air quality maintenance Setting up a storage container room model in ANSYS Fluent Defining boundary conditions for ventilation inlets and outlets Implementing appropriate turbulence models for enclosed spaces Analyzing airflow patterns and temperature distribution within the container Visualizing and interpreting simulation results Understanding the impact of ventilation on storage container room conditions By the end of this episode, participants will understand the significance of storage container ventilation in the HVAC field and be able to use CFD simulations to assess ventilation systems in these unique environments. This knowledge will contribute to their overall understanding of HVAC systems in specialized applications.
Episode 1 Coming Soon
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Section 2
BUOYANCY - Wall Radiator
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Heater Applied for a Room HVAC CFD Simulation
This project focuses on simulating and analyzing the performance of a wall radiator heater in a room using ANSYS Fluent CFD. The aim is to understand how a wall-mounted radiator affects room temperature distribution, air circulation patterns, and overall heating efficiency in a typical indoor space. Project Objectives: Understand the principles of heat transfer and air circulation from wall radiator heaters. Analyze temperature distribution and airflow patterns in a room heated by a wall radiator. Evaluate the heating effectiveness of wall radiator placement. Assess the impact of radiator positioning on room comfort and temperature uniformity. Project Outline: Model a typical room with a wall-mounted radiator heater. Include relevant room features such as windows, doors, and furniture. Define boundary conditions to represent realistic scenarios: External ambient temperature Radiator surface temperature or heat flux Heat loss through walls, windows, and other surfaces Set up material properties for air, building components, and the radiator. Configure and run the CFD simulation in ANSYS Fluent: Use appropriate models for turbulence, heat transfer, and buoyancy-driven flows Consider both steady-state and transient simulations to capture heating dynamics Analyze simulation results, focusing on: Temperature distribution throughout the room Airflow patterns and velocities Heat transfer rates from the radiator to the room Thermal stratification effects Evaluate the heating performance of the wall radiator: Analyze time taken to reach desired room temperature Assess uniformity of heating across the space Investigate thermal comfort levels using appropriate indices (e.g., PMV, PPD). Visualize the results using ANSYS post-processing tools to create informative graphics and animations of temperature and airflow patterns. Consider the implications of the findings for room heating design and radiator placement. Discuss potential limitations of the simulation and areas for future investigation. By completing this project, you will gain valuable insights into the dynamics of room heating using wall radiators. This knowledge is crucial for understanding HVAC systems and the impact of radiator placement on indoor thermal environments. The CFD simulation skills acquired will enable you to analyze heating strategies in various indoor environments, contributing to a better understanding of thermal comfort and energy use in building design.
Episode 1 Coming Soon
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Section 3
Double Skin Façade CFD Simulation
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Double Skin Façade CFD Simulation
This intermediate-level episode explores the use of Computational Fluid Dynamics (CFD) to analyze Double Skin Façade systems in HVAC applications. Participants will learn to model Double Skin Façades using ANSYS Fluent, focusing on their impact on building energy performance and indoor comfort. Key topics: Double Skin Façade technology and its role in HVAC systems Setting up Double Skin Façade models in ANSYS Fluent Defining appropriate boundary conditions for Double Skin Façade simulations, considering solar radiation and wind effects Implementing suitable turbulence models for accurate airflow prediction within the façade cavity Analyzing thermal stratification and buoyancy-driven flows in the Double Skin Façade Evaluating the impact of Double Skin Façades on building cooling and heating loads Visualizing and interpreting simulation results to inform design decisions By the end of this episode, participants will be equipped with the skills to simulate Double Skin Façades using CFD, enabling them to assess these systems for building energy performance and occupant comfort.
Episode 1 Coming Soon
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Course In Progress
Course still in development. Check back often for updates.
This intermediate-level course is designed to expand your knowledge and skills in HVAC simulation using ANSYS Fluent. Building upon basic concepts, the course will explore more complex HVAC systems and scenarios commonly encountered in professional settings.
Course Structure:
- Intermediate HVAC System Modeling
- Complex Airflow and Thermal Analysis
- Energy Efficiency and Sustainability
- Indoor Air Quality and Contaminant Dispersion
- Thermal Comfort Optimization
- HVAC Controls and System Integration
- Industry-Specific Case Studies
Learning Outcomes:
- Enhance intermediate HVAC simulation techniques
- Develop skills to optimize system performance and energy efficiency
- Improve proficiency in analyzing multi-zone and large-scale HVAC systems
- Learn to address real-world HVAC challenges through simulation
Prerequisites: Basic understanding of HVAC principles and introductory-level experience with ANSYS Fluent
This subscription-based course is ideal for HVAC professionals, building engineers, and designers looking to enhance their simulation capabilities and tackle more complex projects. Stay tuned for the official launch date!
HVAC: BEGINNER
Beginner
Price: $1.00 / Month
Master the basics of HVAC simulations using ANSYS Fluent in this comprehensive beginner’s course. From ventilated cavities to complex heating systems, learn to model and analyze various HVAC scenarios. Gain hands-on experience with CFD techniques, understand key HVAC principles, and develop essential skills for real-world applications. Perfect for engineers, designers, and students looking to enter the world of HVAC computational fluid dynamics.
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