HVAC System Modeling & Simulation with Simulink and Simscape
Overview
In this session, we will cover the essentials of developing HVAC systems through model-based design. We'll begin by modeling an air conditioning system, then move on to developing equivalent data-driven models or reduced-order models (ROMs). We'll also discuss the real-time capabilities of both physics-based models using Simscape and ROM-based models. Finally, we'll show you how to create customized components to meet specific needs.
Join us to enhance your skills in efficient and effective HVAC system design and simulation.
Highlights
- HVAC system development using model-based design
- How to model an air conditioning system
- How to develop an equivalent data-driven model-ROM
- Real-time capability of physics/Simscape based and ROM-based models
- How to create customized components
About the Presenter
Andrew Greff
Senior Application Engineer | MathWorks
Andrew Greff is a senior application engineer at MathWorks. He specializes in physical modeling using Simscape and focuses on thermal, fluid, and multibody systems. Before joining Mathworks, Andrew worked for GM and Stellantis developing advanced hardware and controls for engines. He obtained his PhD in mechanical engineering from the University of Alabama.
Yifeng Tang, PhD
Senior Application Engineer, Physical Modeling | MathWorks
Yifeng Tang is a Senior Application Engineer at MathWorks. He supports MathWorks‘ tools for multi-domain physical modeling as an integrated part of the model-based design (MBD) workflow. He specializes in the modeling and simulation of mechanical, thermal, and fluid systems, including thermal management systems, fuel cells, and hydraulic systems. Before joining MathWorks, he worked in the powertrain research department at Ford Motor Company. Yifeng earned his Ph.D. in Mechanical Engineering from the University of Michigan and a B.S.E. in Mechanical Engineering from both the University of Michigan and Shanghai Jiao Tong University.
This event is part of a series of related topics. View the full list of events in this series.
