Power Industry Webinar Production & Promotion
The Fit for Liquid Air Energy Storage
Specific topics will include:
Which are the services most needed for energy storage plants (energy, inertia, voltage and frequency control) in different markets today and in the future?
What does the revenue stack look like for energy storage plants in different markets?
How is policy and market structures evolving to support the need for energy storage?
What are the pros and cons for each energy storage technology?
How do the technologies compare on a CAPEX, OPEX, LCOS basis?
How far along is the development of liquid air energy technology?
How does liquid air technology compare to Li-ion for specific uses cases?
The webinar will review the fundamental drivers behind the growing need for energy storage in the handful of countries and regions which are leading the global growth today. The discussion will continue with a review of the predominant energy storage technologies (pumped hydro, compressed and liquid air, and several electrochemical battery technologies) and their fit for specific use cases and market price points.
Below are some of the questions discussed during the webinar:
Can we store the energy while generating electricity from the generator?
How long does it take to charge the system? What is the internal consumption for charging? Is the 50 MW output the net power output?
Is it feasible to integrate primary and secondary frequency control operations for 800 MW?
As you scale up, would you use multiple 50 MW/8h units or increase the unit size?
What are the typical Capex and Opex per MW?
What is the round-trip efficiency of the process?
Do you see a large role for demand management and the use of EV batteries for storage and grid support?
What is the percentage energy loss per day in the thermal storage system?
Do you see a case for liquefying hydrogen if it is used as an energy carrier in the future?