Courseware for the Introduction to Integrated Energy System
Version 1.0.1 (138 MB) by
HH428
This courseware provides a comprehensive introduction to integrated energy systems. MATLAB scripts are included for interactive simulations.
Integrated energy systems are a key research focus in the energy sector, aiming to construct multi-energy complementary and coordinated energy systems. They serve as a crucial step in energy system reform and a foundation for achieving carbon neutrality.
This course first establishes the fundamental relationship between energy systems and the environment, analyzing their impact on the Earth’s carbon cycle. It then introduces major energy sources such as coal, oil, natural gas, nuclear, hydro, and solar energy, explaining their operational characteristics. Finally, it provides fundamental modeling approaches for power, gas, and heat networks, laying the foundation for exploring optimization strategies for integrated energy system operation.
The course utilizes MATLAB scripts for practical demonstrations, enabling direct visualization of key concepts and data interactions. The interactive control features in the scripts provide mathematical model simulations, making the optimization models for integrated energy systems more intuitive and easier to understand.
The Chinese version of this courseware can be assessed here:
Cite As
HH428 (2025). Courseware for the Introduction to Integrated Energy System (https://uk.mathworks.com/matlabcentral/fileexchange/180335-courseware-for-the-introduction-to-integrated-energy-system), MATLAB Central File Exchange. Retrieved .
MATLAB Release Compatibility
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R2024b
Compatible with any release
Platform Compatibility
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LiveScripts commented in EN/NO12_Power System Operational Flexibility and Resource Shortage Issues/HeatGasPowerCombination
LiveScripts commented in EN/NO12_Power System Operational Flexibility and Resource Shortage Issues/case
LiveScripts commented in EN/NO12_Power System Operational Flexibility and Resource Shortage Issues/functions
LiveScripts commented in EN/NO1_ Long-term Trends of Solar Energy Reception on the Earth’s Surface
LiveScripts commented in EN/NO6_Wind Power Generators
LiveScripts commented in EN/NO10_Simple Heat Network
LiveScripts commented in EN/NO11_CHP Unit Model and Its Operational Region
LiveScripts commented in EN/NO12_Power System Operational Flexibility and Resource Shortage Issues
LiveScripts commented in EN/NO1_ Long-term Trends of Solar Energy Reception on the Earth’s Surface
LiveScripts commented in EN/NO2_Greenhouse Effect and Light Spectrum Absorption
LiveScripts commented in EN/NO3_Carbon Cycle Balance of the Earth
LiveScripts commented in EN/NO4_Properties and Three States of Water
LiveScripts commented in EN/NO5_Conventional Generator Model
LiveScripts commented in EN/NO6_Wind Power Generators
LiveScripts commented in EN/NO7_Nuclear Power
LiveScripts commented in EN/NO8_Simple Power Grid
LiveScripts commented in EN/NO9_Simple Gas Network
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