Global Data Center Energy Storage Market Size By Data Center Type, By End-User, By Geographic Scope And Forecast

Data Center Energy Storage Market Size And Forecast

Data Center Energy Storage Market size was valued at USD 1.63 Billion in 2024 and is projected to reach USD 2.65 Billion by 2032, growing at a CAGR of 6.91% from 2026 to 2032.

Global Data Center Energy Storage Market Drivers

The market drivers for the Data Center Energy Storage Market can be influenced by various factors. These may include:

Growing Need for Data Processing and Storage: As a result of the exponential increase in data produced by consumers, enterprises, and Internet of Things (IoT) devices, data centre infrastructure must be expanded. This has resulted in a growing need for energy storage solutions to guarantee a steady supply of power and dependability.

Energy Cost Optimisation: Energy costs account for a sizable amount of operating costs for data centres, which are among the biggest electricity users. Growth in the energy storage market is fueled by systems that optimise energy use, lower electricity prices, and minimise peak demand fees.

Backup Power and Uninterrupted Operations: To avoid data loss, downtime, and income loss, data centres must maintain a continuous power supply. Energy storage systems guarantee continuous operations and data availability by supplying backup power during grid disruptions or fluctuations.

Integration with Renewable Energy: In order to support sustainability goals and lessen reliance on fossil fuels, the integration of renewable energy sources, such as solar and wind power, into data centre operations necessitates the use of energy storage systems to store excess energy generated during times of low demand or availability.

Grid Stability and Demand Response: By offering grid services like frequency regulation, peak shaving, and demand response, energy storage devices help maintain grid stability and make it possible for data centres to take part in energy markets and make money from their energy assets.

Scalability and Modular Design: Data centre operators may grow their storage capacity as needed and adjust to shifting workload requirements using modular energy storage systems, which promotes market adoption.

Decreased Environmental Impact: By optimising energy use, incorporating renewable energy sources, and lowering dependency on fossil fuels, energy storage systems enable data centres lower their carbon footprint and comply with regulations. This helps them meet environmental sustainability targets.

Government Policies and Incentives: Investment in energy storage solutions for data centres is fueled by government policies, subsidies, and regulations that support energy efficiency, the use of renewable energy sources, and grid modernization. These measures also accelerate market growth.

Emergence of Edge Computing: To support decentralised computing infrastructure, there is an increasing need for distributed data centres and energy storage solutions due to the growing trend towards edge computing, which entails processing data closer to the source or end user.

Technological Advancements: Energy storage systems are becoming more appealing for data centre applications due to improvements in energy density, dependability, and cost-effectiveness brought about by advances in energy storage technologies such as solid-state, flow, and lithium-ion batteries.

Global Data Center Energy Storage Market Restraints

Several factors can act as restraints or challenges for the Data Center Energy Storage Market. These may include:

Expensive initial outlay of funds: For energy storage devices like flywheels and batteries, the infrastructure of data centres must be integrated, installed, and purchased with a large upfront cost. Adoption may be hampered by high upfront costs, particularly for smaller data centre operators with tighter budgets.

Integration Complexity: It might be difficult and complex to integrate energy storage technologies into the current data centre architecture. Deployment costs and implementation delays might rise due to compatibility concerns, space limits, and the requirement for specialised engineering knowledge.

Both effectiveness and dependability Issues: To guarantee continuous operation, data centres need power systems that are extremely durable and dependable. Some data centre operators may be discouraged from implementing energy storage solutions due to concerns over the efficiency, dependability, and longevity of energy storage technology, especially batteries.

Restricted Density of Energy: When compared to conventional fuels like diesel generators, energy storage technologies like batteries have a lower energy density. This constraint may affect backup power systems' scalability and longevity, particularly for large-scale data centres with significant power requirements.

Difficulties with Regulation and Compliance: Data centres have to go by a number of industry standards and legal regulations including to safety, environmental impact, and energy efficiency. Complying with these requirements while using energy storage technologies may increase data centre operations' complexity and expense.

The variable nature of renewable energy sources: To cut carbon emissions, a growing number of data centres are turning to renewable energy sources including solar and wind power. The intermittent nature of renewable energy output, however, can make it difficult for energy storage devices to keep the grid stable and supply power continuously.

Low Level of Education and Awareness: It's possible that some data centre operators are not fully aware of the advantages and possible uses of energy storage devices. The expansion of the market may be hampered by a lack of knowledge and instruction on energy storage technologies, their applications, and best practices for deployment.

Innovations in Technology and Uncertainty: The swift progression of energy storage technologies, including enhanced battery chemistries and energy management systems, may give rise to ambiguity for data centre operators about the most advantageous technology selection and investment schedule.

Competition in Cost and Performance: In terms of performance and affordability, energy storage systems must contend with other backup power options including uninterruptible power supply (UPS) systems and diesel generators. If conventional technologies are more affordable or more reliable than energy storage, data centre operators might opt for them.

Space Restrictions: There is frequently not enough room in data centre buildings for energy storage system installation. The scale and capacity of energy storage deployments may be limited by space issues, particularly in crowded urban locations where real estate is expensive.

Global Data Center Energy Storage Market Segmentation Analysis

The Global Data Center Energy Storage Market is Segmented on the basis of Data Center Type, End-User, And Geography.

Data Center Energy Storage Market, By Data Center Type

• Tier 1
• Tier 2
• Tier 3
• Tier 4

Based on Data Center Type, the market is segmented into Tier 1, Tier 2, Tier 3, and Tier 4. The Tier 1 segment dominated the market for Data Center Energy Storage in 2021. Tier 1 data center function without any backup facility and a single distribution path. It also has no default power backup system in place when systems go offline. As a result of this, the demand for energy storage in Tier 1 data centers is more than its other counterparts. The explosion of content is fueling the market and has made data centers of all sizes, one of the fastest-growing consumers of electricity.

Data Center Energy Storage Market, By End-User

• Information Technology
• Manufacturing
• BFSI
• Government
• Telecom
• Others

Based on the End-User, the market is segmented into Information Technology, Manufacturing, BFSI, Government, Telecom and Others. Among these, Information Technology holds a prominent market share in 2021. The IT industry requires on-premise private data storage and hyper-scale data centres for its operations, depending on the size of the organization. Additionally, the adoption of cloud storage has increased over the years due to growth among SaaS providers, enabling cloud storage providers to expand their capacities. Hence, the increasing data load requires more power. This creates a requirement for efficient power solutions in IT applications.

Data Center Energy Storage Market, By Geography

• North America
• Europe
• Asia Pacific
• Latin America
• Middle East and Africa

Based on regional analysis, the Data Center Energy Storage Market is classified into North America, Europe, Asia Pacific, Latin America, the Middle East, and Africa. The Asia Pacific region has the greatest market share and is expected to grow at highest CAGR over the forecast period. The presence of a large number of data centres is driving the demand for data centre power systems in the country. Furthermore, the increasing number of new data centre developments and the upgrading of existing data centres are also expected to drive the market's growth. Owing to the rising construction of datacenters across countries like Japan, India, and China, the market is expected show tremendous growth.

Key Players

The "Global Data Center Energy Storage Market" study report will provide valuable insight with an emphasis on the global market including some of the major players such as ABB Ltd., Delta Electronics, Inc., Eaton Corporation, General Electric, Huawei Technologies Co., Ltd., Legrand, Mitsubishi Electric Corporation, Saft, Schneider Electric, Vertiv Group Corp. among others.