Long-Duration Energy Storage (LDES) Training by Tonex
This course explores the forefront of LDES technologies. It focuses on solid-state, sodium-ion, and flow batteries. Participants learn about their chemistries and applications for grid stability. The training equips professionals with knowledge for deploying advanced energy storage solutions.
Audience: Engineers, researchers, grid operators, and energy storage professionals.
Learning Objectives:
- Understand LDES technology principles.
- Analyze solid-state battery characteristics.
- Explore sodium-ion battery applications.
- Assess flow battery system viability.
- Evaluate LDES grid integration strategies.
- Identify future LDES deployment trends.
Module 1: LDES Fundamentals
- LDES definitions and needs.
- Grid stabilization roles.
- Technology classifications.
- Performance evaluation metrics.
- Market analysis overview.
- Future deployment outlooks.
Module 2: Solid-State Battery Details
- Solid electrolyte properties.
- Interfacial stability issues.
- Manufacturing processes overview.
- Safety and reliability factors.
- Energy density potentials.
- Grid application suitability.
Module 3: Sodium-Ion Battery Technology
- Sodium-ion chemistry basics.
- Electrode material selection.
- Performance characteristic analysis.
- Cost-effectiveness evaluation.
- Scalability and production.
- Large-scale storage uses.
Module 4: Flow Battery Systems
- Operating principles explained.
- Electrolyte optimization methods.
- System integration aspects.
- Power and energy scaling.
- Operational efficiency reviews.
- Long-duration storage roles.
Module 5: LDES and Grid Integration
- Grid-scale storage solutions.
- Renewable energy smoothing.
- Peak shaving strategies.
- Ancillary service delivery.
- Microgrid applications.
- Hybrid system integrations.
Module 6: LDES Deployment Trends
- Project development phases.
- Regulatory policy reviews.
- Technology innovation roadmaps.
- Environmental impact studies.
- Economic viability analysis.
- Future research directions.
Enroll today to master long-duration energy storage advancements.