<?xml version="1.0" encoding="utf-8" standalone="yes"?><rss version="2.0" xmlns:atom="http://www.w3.org/2005/Atom"><channel><title>Chapter 1 :: AMTC</title><link>https://server.s4e2.com/crc/amtc/chapters/chapter1/index.html</link><description>🔧 Chapter 1: Presentation of the Approach A Two-Level Methodology for Energy Systems
Ever wondered how to simplify complex energy systems? This chapter shows you how!
Qualitative &gt; Quantitative: Thermodynamics is easier to grasp through concepts than equations. Gas Turbine Example: Learn how energy technologies are built from component assemblies where fluids undergo thermodynamic processes. Dual Challenge Solved: Analytical methods for individual components. Systems perspective for internal architecture. Key Tools:</description><generator>Hugo</generator><language>en-us</language><lastBuildDate>Thu, 22 Jan 2026 14:36:36 +0100</lastBuildDate><atom:link href="https://server.s4e2.com/crc/amtc/chapters/chapter1/index.xml" rel="self" type="application/rss+xml"/><item><title>Table of Contents</title><link>https://server.s4e2.com/crc/amtc/chapters/chapter1/_toc/index.html</link><pubDate>Thu, 22 Jan 2026 14:35:10 +0100</pubDate><guid>https://server.s4e2.com/crc/amtc/chapters/chapter1/_toc/index.html</guid><description>Table of Contents — Volume 1 Advanced Modeling of Thermodynamic Energy Components and Systems
1. Presentation of the Approach 1.1 A Two-Level Methodology 1.1.1 Physical Phenomena Taking Place in a Gas Turbine 1.1.2 Energy Technologies: Component Assemblies 1.2 Practical Implementation of the Double Analytical–Systems Approach 1.2.1 Use of the Thermoptim Software 1.2.2 Functional and Exergy Structures 1.3 Thermoptim Primitive Types 1.3.1 Component Modeling 1.3.2 Thermoptim Primitive Types 1.3.3 Thermoptim Assets 1.4 Conclusion 1.5 References</description></item><item><title>Resources</title><link>https://server.s4e2.com/crc/amtc/chapters/chapter1/_resources/index.html</link><pubDate>Thu, 22 Jan 2026 14:36:36 +0100</pubDate><guid>https://server.s4e2.com/crc/amtc/chapters/chapter1/_resources/index.html</guid><description>Resources 📘 Chapter 1: Foundations of Systemic and Component-Oriented Modeling Complementary Resources and Guided Explorations
⚠️ Important Notes About These Resources The materials linked below complement the content of Chapter 1 in Advanced Modeling of Thermodynamic Energy Components and Systems. While some examples or interfaces may differ slightly from the book, they remain fully aligned with its concepts and methodologies.
Diapason sessions may include older Thermoptim screenshots or updated terminology to reflect current Anglo-Saxon usage. These differences are minor and do not affect comprehension. Guided explorations are accessible online but require the Thermoptim browser for full interactivity. Download the Thermoptim Browser here to access the complete features. Note that the Thermoptim Console contains direct links to the Thermoptim files used in the guided explorations. 📌 1.1.1 Physical Phenomena in Gas Turbines Key Concepts Covered: Aerodynamics and thermodynamics of gas flow in turbines. Blade interactions, efficiency maps, and off-design behavior. Combustion processes and heat transfer limitations. Complementary Resources: 📄 Thematic Page: Gas Turbines This page provides a detailed overview of the physical phenomena occurring in gas turbines, including real-world examples and technological constraints. Access the Thematic Page →</description></item></channel></rss>