Global Certificate in Thermal Simulation for Sustainable Design
-- ViewingNowThe Global Certificate in Thermal Simulation for Sustainable Design is a comprehensive course that empowers learners with the skills to simulate and analyze building physics, energy use, and indoor environmental quality. This certification is crucial in today's industry, where there is an increasing demand for professionals who can design sustainable and energy-efficient buildings.
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⢠Fundamentals of Thermal Simulation: An introduction to the principles and techniques used in thermal simulation for sustainable design. This unit covers the basics of heat transfer, fluid dynamics, and thermodynamics.
⢠Sustainable Design Principles: An exploration of the key principles of sustainable design and how thermal simulation can help achieve these goals. Topics covered may include energy efficiency, renewable energy, and indoor air quality.
⢠Thermal Simulation Tools and Software: An overview of the most popular thermal simulation tools and software used in sustainable design. This unit may cover features, strengths, and limitations of each tool, as well as best practices for using them effectively.
⢠Building Physics and Envelope Design: A deep dive into the physics of building envelopes and how thermal simulation can help optimize their design. Topics may include insulation, air tightness, window design, and solar gain.
⢠HVAC Systems and Thermal Simulation: An examination of the role of HVAC systems in building thermal performance and how thermal simulation can help optimize their design and operation. Topics may include system selection, sizing, and control strategies.
⢠Natural Ventilation and Passive Design: An exploration of natural ventilation and passive design strategies for building thermal comfort and energy efficiency. This unit may cover topics such as wind effects, stack effect, and building orientation.
⢠Renewable Energy Systems and Thermal Simulation: An examination of the integration of renewable energy systems, such as solar and geothermal, with thermal simulation for sustainable design. Topics may include system sizing, orientation, and performance optimization.
⢠Advanced Thermal Simulation Techniques: An exploration of advanced thermal simulation techniques, such as dynamic simulation and computational fluid dynamics (CFD), for sustainable design. This unit may cover best practices for using these techniques, as well as their limitations and strengths.
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