Close Menu
Energy NewsEnergy News
  • NEWS
    • Breaking News
    • Hydrogen
    • Energy Storage
    • Grid
    • SMR
    • Projects
    • Production
    • Transport
    • Research
  • SPOTLIGHT
    • Interviews
    • Face 2 Face
    • Podcast
    • Webinars
    • Analysis
    • Columnists
    • Reviews
    • Events
  • REGIONAL
    • Africa
    • Americas
    • Asia
    • Europe
    • Middle east
    • Pacific
  • COMMUNITY
  • ABOUT
    • Advisory Board
    • Contact us
    • Report Your News
    • Advertize
    • Subscribe
LinkedIn X (Twitter) YouTube Facebook
Trending
  • Singapore’s Hydrogen-Compatible Cogeneration Plant Highlights Investment Hurdles for Green Molecules
  • Google Backs Kairos Power’s Advanced Nuclear Project in Tennessee to Fuel Data Center Growth
  • Jiangsu Grid Manages Record 155 GW Demand With Balanced Mix of Coal, Renewables, and Transmission Expansion
  • France Activates Its Largest Battery Storage System to Support Grid Stability
  • China Surpasses 100 GW of New Energy Storage as Capacity Growth Accelerates
  • Vattenfall Narrows Nuclear Supplier List as Sweden Eyes First New Reactors in Four Decades
  • Spain’s CIUDEN Puts Sodium-Sulfur Storage to the Test in Hydrogen Integration Project
  • EU Refining Mandates Push Green Hydrogen Toward Commercial Scale
LinkedIn X (Twitter) YouTube Facebook
Energy NewsEnergy News
  • NEWS
    • Breaking News
    • Hydrogen
    • Energy Storage
    • Grid
    • SMR
    • Projects
    • Production
    • Transport
    • Research
  • SPOTLIGHT
    • Interviews
    • Face 2 Face
    • Podcast
    • Webinars
    • Analysis
    • Columnists
    • Reviews
    • Events
  • REGIONAL
    • Africa
    • Americas
    • Asia
    • Europe
    • Middle east
    • Pacific
  • COMMUNITY
  • ABOUT
    • Advisory Board
    • Contact us
    • Report Your News
    • Advertize
    • Subscribe
Energy NewsEnergy News
Home Home - Hydrogen
hydrogen

Exploring the Thermomechanical and Dynamical Mode Switch Transition of Reversible Solid Oxide Cell

Arnes BiogradlijaBy Arnes Biogradlija26/07/20242 Mins Read
Share
LinkedIn Twitter Facebook Email WhatsApp Telegram

In a study published in the International Journal of Hydrogen Energy, researchers led by Murphy M. Peksen have revealed insights into the thermomechanical and dynamical mode switch transitions of reversible solid oxide cells (RSOCs).

This research aims to deepen our understanding of RSOCs, which are instrumental in the hydrogen energy sector for their dual-functional capability—operating as both fuel cells and electrolyzers.

The ability of RSOCs to act as both hydrogen producers and electricity generators showcases their potential in advancing hydrogen energy technologies. This dual functionality is particularly advantageous for integrating renewable energy sources and creating efficient energy storage solutions, marking this study as a cornerstone for future research and development in the industry.

Peksen’s study delves into the precise mechanisms governing the thermomechanical and dynamical transitions in RSOCs. Key findings indicate that:

1. Mode Switching Dynamics: The transition between fuel cell mode and electrolysis mode involves complex thermal and mechanical changes.
2. Efficiency Optimization: Identifying critical points where these transitions occur can lead to optimized operational protocols, enhancing overall efficiency and lifespan of RSOCs.
3. Material Resilience: The research highlights the resilience of RSOC materials under varying operational stresses, which is crucial for their durability and commercial viability.

Potential Applications

These findings open several doors for practical applications, including:

– Enhanced Energy Storage: Improved RSOC efficiency can lead to more effective integration with renewable energy sources, providing better energy storage solutions.
– Industrial Hydrogen Production: Optimized RSOCs can facilitate large-scale hydrogen generation for industrial applications, aiding in the transition to green energy.
– Grid Support: The dual functionality of RSOCs can support grid stability by switching between electricity generation and hydrogen production based on demand.

The study employs advanced thermomechanical simulation techniques to map out the dynamical transitions at a microscopic level. By integrating experimental data with computational models, the researchers offer a detailed view of the internal processes within RSOCs.

Share. LinkedIn Twitter Facebook Email

Related Posts

Electrolysis Hydrogen

Singapore’s Hydrogen-Compatible Cogeneration Plant Highlights Investment Hurdles for Green Molecules

25/08/2025
Hydrogen

Spain’s CIUDEN Puts Sodium-Sulfur Storage to the Test in Hydrogen Integration Project

22/08/2025
hydrogen

EU Refining Mandates Push Green Hydrogen Toward Commercial Scale

22/08/2025
hydrogen

Eastern Mediterranean Hydrogen Ambitions Face Economic Promise

22/08/2025
Hydrogen

Wrexham University Plans Modular Green Hydrogen Lab to Advance Engineering Research

22/08/2025
hydrogen

Egypt and Tokyo Sign MoU to Boost Green Hydrogen Collaboration

21/08/2025
Electrolysis Hydrogen

Singapore’s Hydrogen-Compatible Cogeneration Plant Highlights Investment Hurdles for Green Molecules

25/08/2025
Google Backs Kairos Power’s Advanced Nuclear Project in Tennessee to Fuel Data Center Growth

Google Backs Kairos Power’s Advanced Nuclear Project in Tennessee to Fuel Data Center Growth

25/08/2025
Smart Grid

Jiangsu Grid Manages Record 155 GW Demand With Balanced Mix of Coal, Renewables, and Transmission Expansion

25/08/2025
France Activates Its Largest Battery Storage System to Support Grid Stability

France Activates Its Largest Battery Storage System to Support Grid Stability

25/08/2025

Subscribe to Updates

Get the latest news from the hydrogen market subscribe to our newsletter.

LinkedIn X (Twitter) Facebook YouTube

News

  • Inteviews
  • Webinars
  • Hydrogen
  • Spotlight
  • Regional

Company

  • Advertising
  • Media Kits
  • Contact Info
  • GDPR Policy

Subscriptions

  • Subscribe
  • Newsletters
  • Sponsored News

Subscribe to Updates

Get the latest news from EnergyNewsBiz about hydrogen.

© 2025 EnergyNews.biz
  • Privacy Policy
  • Terms
  • Accessibility

Type above and press Enter to search. Press Esc to cancel.