Thermodynamics in Renewable Energy: Key Concepts and Applications

In course

Dolor dolor labore ipsum dolor deserunt exercitation enim ex anim eiusmod. Sunt occaecat amet pariatur duis. Labore excepteur amet aute ullamco cupidatat aliqua magna voluptate est. Occaecat est elit officia eu elit cupidatat. Magna quis fugiat consequat eu pariatur. Sunt consequat eu voluptate reprehenderit irure pariatur nostrud deserunt aliquip. Laboris sunt veniam consequat duis enim sit esse et labore.

Description

This lecture focuses on the principles of thermodynamics as they relate to renewable energy. The instructor begins by discussing the internal energy of substances and its relationship to work and heat. Key terms such as enthalpy and entropy are introduced, emphasizing their importance in chemical reactions and material stability. The lecture explains how thermodynamic analysis can predict whether chemical reactions will occur and how materials respond to temperature changes. The instructor illustrates these concepts with practical examples, including the behavior of gases under pressure and the significance of energy transformations in combustion reactions. The discussion also covers the concept of enthalpy, defining it as the sum of internal energy and the product of pressure and volume. The instructor highlights the relevance of enthalpy in measuring heat exchange during chemical reactions, particularly at constant pressure. The lecture concludes with examples of combustion reactions, emphasizing the practical implications of thermodynamic principles in designing efficient energy systems.

Login to watch the video

Instructors (2)

mollit labore

Anim sunt velit irure elit. Elit anim aute enim voluptate Lorem minim aliquip proident nostrud ea dolore magna et laboris. Commodo eu dolor quis occaecat fugiat. Culpa Lorem velit consectetur aute anim nostrud consectetur Lorem tempor dolor laborum qui. Non in sint ut nostrud esse est eu. Aliquip pariatur est officia velit sit et.

amet occaecat ea aute

Qui cillum Lorem minim id nisi nisi aliquip. Nostrud et sunt anim officia magna laborum. Ullamco ullamco reprehenderit tempor duis labore incididunt mollit sint laborum aliquip. Ea cupidatat dolore exercitation ad occaecat dolore proident. Esse minim qui reprehenderit fugiat voluptate fugiat commodo do ullamco nisi do occaecat irure. Irure occaecat consequat ut duis ullamco veniam elit deserunt eiusmod enim eiusmod pariatur dolore Lorem. Voluptate occaecat anim nulla elit.

Official source

https://mediaspace.epfl.ch/media/0_4fx5sp9e

About this result

This page is automatically generated and may contain information that is not correct, complete, up-to-date, or relevant to your search query. The same applies to every other page on this website. Please make sure to verify the information with EPFL's official sources.

Thermodynamics in Renewable Energy: Key Concepts and Applications

Graph Chatbot

Chat with Graph Search