Cleantech Market Intelligence
Is Mobility Key to Unlocking the Maximum Value of Energy Storage?
The ability of distributed energy resources, including energy storage systems (ESSs), to defer investments in new transmission and distribution (T&D) infrastructure has emerged as one of the most attractive uses of the technology. Navigant Research has covered this topic in recent reports, including Energy Storage for Transmission and Distribution Deferral and Non-Wires Alternatives. In some cases, ESSs and other technologies can be used to entirely avoid the need for infrastructure upgrades, though these situations are rare. Most energy storage projects providing these services are designed to defer infrastructure upgrades for a period of 3-6 years on average. A deferral period of this length typically results in costlier T&D projects being profitably deferred with energy storage.
ESS vendors have worked for years to develop mobile storage technologies with the aim of overcoming this barrier and opening a much larger addressable market for potential T&D deferrals. While an ESS project may only defer T&D investments for 3 years, the storage system itself will last much longer. In theory, moving an ESS from one location to another every few years will allow for numerous T&D projects to be deferred and will maximize the value of a single storage system. The challenge with this concept has traditionally been designing a hardware platform capable of being moved from one location to another with relatively low costs, while not damaging sensitive batteries and power electronics. The maturation of the storage industry over the past few years has resulted in new designs for mobile ESSs that can be efficiently moved from site to site.
ESS Solution Product Testing
Con Edison in New York was one of the first utilities in the US to launch a project testing mobile ESS solutions. The mobile systems for this pilot project are designed to optimize existing T&D assets, defer investments and upgrades, and support the grid during emergencies or in response to unanticipated events. When not needed by the utility, the ESSs will be located at the Astoria generation plant, owned by project partner NRG Energy. At this facility, the systems can participate in the New York Independent System Operator (NYISO) markets for frequency regulation, operating reserves, and day-ahead or real-time capacity.
Con Edison and NRG Deployable Storage Asset
Source: Consolidated Edison
The concept of mobile energy storage is quickly gaining traction in the industry. New Jersey-based startup Power Edison has developed integrated ESS products designed from the ground up for mobility, which it claims can significantly lower the cost of transportable storage. The company’s products come preconfigured in shipping containers, with power ratings from a few tens of kilowatts to several megawatts. The systems are specifically engineered to handle vibrations, changing environmental conditions, and other disruptions due to transportation with a custom-built trailer that can protect sensitive hardware components and not void vendor warranties.
ESS Solutions Add Value
A growing number of utilities have expressed interest in these innovative ESS solutions; however, questions remain around the true cost to move systems from one location to another and the potential effects to system hardware. The upfront costs for mobile ESSs are typically much higher than a standard stationary system due to the need for custom-built enclosures, battery mounting hardware, and trailers. Despite these challenges, mobile ESSs present a major opportunity to enhance the value and flexibility of energy storage on the grid.