Stationary Battery Storage Market Size By Battery (Lithium Ion, Sodium Sulphur, Lead Acid, Flow Battery), By Application (Grid Services {Frequency Regulation, Flexible Ramping, Black Start Services, Energy Shifting and Capacity Deferral, Transmission and

Stationary Battery Storage Market Size By Battery (Lithium Ion, Sodium Sulphur, Lead Acid, Flow Battery), By Application (Grid Services {Frequency Regulation, Flexible Ramping, Black Start Services, Energy Shifting and Capacity Deferral, Transmission and Distribution Congestion Relief, Capacity Firming, Reduced RE Curtailment, Reduced Reliance on Diesel Gensets}, Behind The Meter{ Electricity Consumers, System Operation, Mini Grids}, Off-Grid), Industry Analysis Report, Regional Outlook, Application Development Potential, Price Trend, Competitive Market Share & Forecast, 2020 - 2030

The global stationary battery storage market is poised to experience a significant period of growth as its application scope keeps increasing across a number of high-revenue industries such as automotive and energy.

The ongoing growth and numerous large-scale renewable energy integration projects is presenting both opportunities as well as challenges. The clean energy generated by wind turbines or photovoltaic (PV) panels is inherently variable. The volatility of this energy supply is a major challenge faced by electricity services providers that are trying to incorporate renewable generation within the electricity grid.

To be able to operate in a reliable and stable manner, power grids continuously need to balance the demand and supply – a job that is further complicated due to the overall intermittent nature of renewable energy. Stationary battery storage technologies offer a solution to this challenge to efficiently deliver smooth as well as predictable power supply to the electricity grid.

Moreover, owing to the increase in environmentally-centric industry practices today, which are driven by the growing level of awareness around the issue of global warming, the society is increasingly shifting its focus on increasing the use of clean, renewable, and environmentally-healthy energy generating methods. This is further creating tremendous growth impetus for the overall stationary battery storage market expansion across several industrial sectors globally.

Additionally, with the growing prominence of electric as well as hybrid vehicles, the demand for stationary battery storage has been increasing tremendously across the automotive industry. The automotive sector already provided considerable amount of growth to the industry through the wide-scale use of lead acid batteries across automobiles.

However, the exponential rise in the adoption electric and hybrid vehicles is further expanding the automotive sectors footprint across the global stationary battery storage industry landscape.

The overall stationary battery storage market landscape is divided into battery, application, and region.

Among these, the battery segment is further divided into sodium sulphur battery, lithium-ion battery, flow battery, lead acid battery, and others. The lead acid battery market is slated to witness tremendous growth over the coming years as the ease of raw material availability and the competitive price index drives product deployment across a plethora of industries.

The others segment is also slated to showcase appreciative growth. the segment includes other battery types such as nickel cadmium, nickel metal hydride, as well as zinc carbon battery chemistries, amongst others.

From a regional reference frame, growing consumer awareness toward energy independency is expected to propel product deployment across the CIS & Eurasia region during the analysis period.

Ongoing investments toward clean energy solutions are expected to drive the industry growth across the regional landscape of Middle East & Africa.

Increasing demand for electricity along with rising frequency of power outages will foster business growth in the Latin America region.