Advanced batteries energy capacity by segment, world markets: 3Q 2016. The global market for advanced batteries for EVs and stationary ESSs through 3Q 2016 has already surpassed the total 2015 energy capacity of approximately 14.6 GWh. Source: Navigant Research. Click to enlarge.

Battery chemistries not included in the report are traditional lead-acid batteries, such as absorbent glass mat and valve-regulated lead-acid, nickel-metal hydride, and nickel-cadmium chemistries.

The report, Advanced Battery Tracker 4Q16, tracks developments and trends in the advanced batteries market across the automotive and stationary energy storage segments from shipments through 3Q 2016, including energy capacity (MWh), power capacity (MW), cells shipped, and revenue, across global regions.

Through 3Q 2016, demand for batteries as an alternative means to power electric vehicles (EVs) and support grid management systems showed steady growth and continues to grow globally due to the expansion of plug-in EVs (PEVs) and stationary grid-tied energy storage systems (ESSs).

Lithium ion (Li-ion) remains the primary chemistry for light-duty automotive applications, while the stationary energy storage sector has a more diverse chemistry landscape with technologies ranging from sodium sulfur and flow batteries to advanced lead-acid and hybrid chemistries.

The introduction of mass-market battery EVs with ranges of 150 to 200-plus miles has significant implications for the PEV market and EV service providers that supply the electricity to the vehicles, according to the report. Meanwhile, in the stationary storage market, advances in resiliency and improved power quality are important drivers for energy storage customers across all sectors.