Expert-level energy storage covering pumped hydro, battery storage, compressed air, thermal storage, hydrogen, flywheel, and the role of storage in energy transition.
Pumped hydro: 90-93% efficiency, mature technology, geography dependent, largest installed capacity. Li-ion batteries: 92-97% efficiency, fast response, modular, declining cost. Flow batteries: vanadium redox, decouple power and energy, long duration possible. Compressed air: CAES uses underground caverns, low efficiency without heat recovery. Thermal storage: molten salt in CSP, ice storage for cooling, district heating. Flywheel: high power density, fast response, short duration, low energy density. Hydrogen: power to gas, long duration, seasonal storage, round-trip efficiency 30-40%.
Round-trip efficiency: energy retrieved over energy stored. Energy density: Wh/kg or Wh/L determines physical size requirements. Power density: W/kg determines charge and discharge rate capability. Self-discharge: energy lost during storage period without use. Levelized cost of storage: LCOS accounts for capital, O and M, and efficiency losses.
Frequency regulation: fast response batteries balance supply and demand second-to-second. Peak shaving: discharge during high demand periods to reduce peak capacity needs. Energy arbitrage: charge when power is cheap, discharge when expensive. Capacity firming: smooth variable renewable output for grid reliability. Black start: restore grid after outage without external power.
Definition: more than 10 hours discharge duration at rated power. Need: seasonal mismatch of renewable supply and demand requires weeks of storage. Options: pumped hydro, hydrogen, iron-air batteries, thermal, compressed air. LDES challenge: high capital cost because rarely discharged, economics difficult.
| Pitfall | Fix |
|---|---|
| Choosing storage by energy density alone | Application determines right metric |
| Ignoring round-trip efficiency | 70% efficiency means 30% energy lost each cycle |
| Oversizing for peak without frequency analysis | Understand actual dispatch pattern |
| Hydrogen round-trip efficiency | Only 30-40% efficient, use direct electricity where possible |