(#98) Fuel Cells Cheat The Carnot Limit
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(#98) Fuel Cells Cheat The Carnot Limit
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About this listen
This episode breaks down the thermodynamic principles and real-world engineering of fuel cells, explaining how they convert chemical energy directly into electricity without the Carnot limits that constrain traditional heat engines. Learn how Gibbs free energy defines the maximum electrical work output, how Faraday’s constant and reaction valency determine cell voltage, and why fuel cells maintain high efficiency even under part-load conditions. We walk through hydrogen-oxygen and hydrogen-chlorine systems, analyze how temperature and pressure affect electromotive force, and examine why irreversible losses such as internal resistance and concentration gradients reduce real-world performance. Designed for mechanical, chemical, and energy engineers, this episode connects electrochemistry, thermodynamics, and system design to reveal how modern fuel cells achieve high efficiency and where their practical limits truly lie.