(Invited) Ceramic-Based Electrochemical Systems for Sustainable Transition to Zero-Carbon Energy

Abstract

Realizing a sustainable energy future pose multiple challenges, especially with respect to our heavy dependence on fossil fuels. In that regard, electrochemical energy conversion systems based on ionically and mixed conducting ceramics offer unique opportunities for clean energy production from fossil fuels by abandoning the undesired air-based combustion that emits CO2 into the atmosphere and replacing it with oxygen-based electrochemical conversion processes, which produce capture-ready CO2 instead and avoid emissions. In the context of climate change, this distinction is critically important as processes that release CO2 unabatedly into the atmosphere must be avoided entirely. But that does not necessarily require that we should rush to abandon fossil fuels prematurely before we can replace them at-scale with clean energy alternatives.After framing the global energy landscape and threats to climate change, this presentation will discuss the opportunities and technical challenges of converting fossil fuels in solid oxide-base fuel cells with focus on solid fuels including coal. It will also introduce the new concept of electrochemical gasification to produce ‘blue’ hydrogen from fossil fuels without release of CO2 into the atmosphere. These technologies can help avoid major disruptions to energy supply and offer a smooth transition into a zero-carbon energy economy.