Energy Modeling : IES VE Module 3 - Project Construction

Building Energy Modelling / Building Simulation / IES VE Energy Modelling / IES VE software / Learn Energy Modelling
4.00 (2 reviews)
Udemy
platform
English
language
Other
category
instructor
Energy Modeling : IES VE Module 3 - Project Construction
24
students
39 mins
content
Jan 2024
last update
$19.99
regular price

Why take this course?

🏫 Master Building Energy Modelling with IES VE Module 3 🌐

Course Headline:

Unlock the Secrets of Building Energy Modelling, Building Simulation, and IES VE Energy Modelling! This comprehensive course is your gateway to becoming an expert in predicting, optimizing, and analysing a building's energy performance from the ground up. 🏢✨

Course Description:

Embark on a journey through the world of sustainable design with our 7-module online course meticulously crafted for Architects and Engineers. Dive into hands-on practice where you'll learn to create a building from scratch, apply energy efficiency measures, and predict its performance using IES VE, a state-of-the-art simulation tool.

Whether you're new to the field or looking to refine your skills, this course offers a solid foundation and advanced techniques in Energy Modelling and Building Energy Analysis. From understanding the basics of what energy modeling is, to mastering the intricacies of IES VE software, this course will transform you into an expert.

Key Highlights:

  • Practical Application: Learn how to apply energy modeling principles during the project construction phase.
  • IES VE Mastery: Gain proficiency in using IES VE for simulating and analyzing a building's energy performance in the design phase.
  • Construction Material Insights: Discover the impact of different construction materials on energy modeling outcomes and how to incorporate them effectively.

What You Will Learn:

  1. Projection Construction I - Lay the groundwork for understanding building projections and their energy implications.
  2. Projection Construction II (Opaque) - Delve into the energy aspects of opaque elements in your building designs.
  3. Projection Construction III (Opaque) - Explore advanced topics related to opaque components, ensuring you cover all aspects for accurate modeling.
  4. Glazing Construction - Construction Layers - Master the nuances of glazing and its layers to enhance the energy performance of your designs.
  5. Assign Construction to Building - Learn how to accurately assign construction types to different parts of a building model in IES VE.

By the end of this course, you'll have a robust understanding of how to model buildings for energy analysis, enabling you to design more efficient and sustainable structures. 🌱🛠️

Dr. Sonal Desai, your knowledgeable instructor, combines years of experience in the field with a passion for teaching. With her guidance, you'll navigate through complex concepts, real-world scenarios, and hands-on exercises that will solidify your understanding of energy modeling principles using IES VE software. 🎓

Join us today to take the first step towards mastering Building Energy Modelling with IES VE Module 3. 🚀💡


Enroll now and transform your career with cutting-edge knowledge and practical skills in building energy modeling. This course is your key to unlocking a future where you can contribute to sustainable architecture and engineering projects. 🌍➡️🚀

Course Gallery

Energy Modeling : IES VE Module 3 - Project Construction – Screenshot 1
Screenshot 1Energy Modeling : IES VE Module 3 - Project Construction
Energy Modeling : IES VE Module 3 - Project Construction – Screenshot 2
Screenshot 2Energy Modeling : IES VE Module 3 - Project Construction
Energy Modeling : IES VE Module 3 - Project Construction – Screenshot 3
Screenshot 3Energy Modeling : IES VE Module 3 - Project Construction
Energy Modeling : IES VE Module 3 - Project Construction – Screenshot 4
Screenshot 4Energy Modeling : IES VE Module 3 - Project Construction

Loading charts...

5750768
udemy ID
07/01/2024
course created date
17/02/2024
course indexed date
Bot
course submited by