United States Data Center Power Market - Industry Outlook & Forecast 2023-2028
The U.S. data center power market by investment is expected to grow at a CAGR of 5.89% from 2022 to 2028.
KEY TRENDS
The implementation of modular power infrastructure is set to deliver substantial operational cost savings for data centers over time. These modular systems are highly efficient, requiring less maintenance and offering space-saving advantages compared to conventional power infrastructure. With the growing adoption of intelligent real-time monitoring software, the importance of monitoring in data centers is on the rise. These advanced monitoring solutions incorporate automation and AI features, enabling them to anticipate maintenance requirements, predict component failures, and facilitate seamless automatic switchovers to ensure uninterrupted operations.
The utilization of free cooling techniques witnessed significant growth in recent years, particularly in regions with favorable climatic conditions. Facilities increasingly employ evaporative coolers to fulfill their cooling needs, improving energy efficiency and cost savings. Innovative designs, such as district heating, are expected to gain traction among data centers in states with colder climates. This approach leverages the excess heat generated by data centers, repurposing it for heating purposes, thereby promoting energy efficiency and sustainability.
SEGMENTAL ANALYSIS
The U.S. data center power market witnessed substantial expansion owing to the surge in data center construction activities. Operators actively seek innovative, energy-efficient solutions to power their facilities. Significant investments are directed toward UPS systems within the power infrastructure segment. These systems play a crucial role in ensuring continuous and reliable power supply.
Notably, the U.S. data center power market saw a rise in adopting UPS systems powered by valve-regulated lead-acid (VRLA) and lithium-ion technologies, reflecting the industry's focus on leveraging advanced UPS solutions to enhance efficiency and performance.
Integrating modular power infrastructure within data centers presents a promising opportunity for long-term cost savings. These modular systems offer enhanced efficiency, lower maintenance requirements, and reduced space utilization, improving operational expenses over time. Facilities can optimize their energy consumption, streamline maintenance processes, and effectively manage their resources by leveraging the advantages of modularity. As a result, the incorporation of modular power infrastructure not only ensures reliable and efficient power delivery and contributes to cost-effective operations.
Segmentation by Electrical Infrastructure
UPS Systems
Generators
Transfer Switches & Switchgears
PDUs
Other Electrical Infrastructure
Segmentation by UPS System Capacity
<=500 kVA
500–1,000 kVA
>1,000 kVA
Segmentation by Generator Capacity
0-1.5 MW
5–3 MW
>=3 MW
Segmentation by Tier Standards
Tier I & II
Tier III
Tier IV
Segmentation by Geography
Southeastern U.S.
Midwestern U.S.
Southwestern U.S.
Western U.S.
Northeastern U.S.
VENDOR ANALYSIS
Key Vendors Profiles
ABB
Caterpillar
Cummins
Delta Electronics
Eaton
Legrand
Rolls-Royce
Schneider Electric
STULZ
Vertiv
Other Prominent Vendors
AEG Power Solutions
Advanced Energy (ARTESYN)
AMETEK Powervar
Black Box Network Services (AGC Networks)
Bloom Energy
Borri
Bxterra Power Technology
Canovate
Chatsworth Products
Cisco Systems
Controlled Power Company
Cyber Power Systems
Dataprobe
Delta Electronics
Detroit Diesel Corporation
EAE Elektrik
Elcom International
Enconnex
Exide Technologies
Fuji Electric
Generac Power Systems
Hewlett Packard Enterprise (HPE)
Hitachi Hi-Rel Power Electronics
HITEC Power Protection
INNIO
KOHLER
Marathon Power
Mitsubishi Electric
Natron Energy
Panduit
Piller Power Systems
Plug Power
Riello Elettronica Group
Rittal
Saft
Siemens
Socomec
SolarEdge Technologies
Tripp Lite
Toshiba
Virtual Power Systems
VYCON
WTI - Western Telematic
Yanmar (HIMOINSA)
ZAF Energy Systems
ZincFive
KEY QUESTIONS ANSWERED:
1. How big is the U.S. data center power market?
2. What is the growth rate of the U.S. data center power market?
3. Who are the key players in the U.S. data center power industry?
4. Which region holds the most significant U.S. data center power market share?
5. How many MW of power capacity is expected to reach the U.S. data center power market by 2028?
1. REPORT COVERAGE
1.1. WHAT’S INCLUDED
1.2. SEGMENTAL COVERAGE
1.2.1. MARKET SEGMENTATION BY ELECTRICAL INFRASTRUCTURE
1.2.2. MARKET SEGMENTATION BY UPS SYSTEM CAPACITY
1.2.3. MARKET SEGMENTATION BY GENERATOR SYSTEM CAPACITY
1.2.4. MARKET SEGMENTATION BY TIER STANDARD
2. MARKET AT A GLANCE
3. SEGMENTAL & GEOGRAPHICAL SNAPSHOT
4. INFRASTRUCTURE SEGMENTATION
5. GEOGRAPHICAL SEGMENTATION
6. PREMIUM INSIGHTS
6.1. KEY HIGHLIGHTS
6.2. KEY TRENDS IN THE MARKET
6.3. SEGMENTAL ANALYSIS
7. INTRODUCTION
7.1. OVERVIEW
8. MARKET OPPORTUNITIES & TRENDS
8.1. RISE IN RACK POWER DENSITY
8.2. SUSTAINABILITY MEASURES ADOPTED BY DATA CENTER OPERATORS
8.3. SUSTAINABLE & INNOVATIVE DATA CENTER TECHNOLOGIES
8.4. ADOPTION OF ADVANCED UPS BATTERIES
8.5. EMERGENCE OF FUEL CELL GENERATORS
8.5.1. NOISE COMPARISON
8.5.2. ON-SITE PRODUCTION OF HYDROGEN
8.6. SOFTWARE-DEFINED POWER & DATA CENTER INFRASTRUCTURE AUTOMATION
8.7. DEPLOYMENT OF MICROGRIDS IN DATA CENTERS
9. MARKET GROWTH ENABLERS
9.1. ADOPTION OF CLOUD-BASED SERVICES
9.2. CONTINUED INVESTMENTS BY HYPERSCALE OPERATORS
9.3. TAX & SALES INCENTIVES
9.4. DEVELOPMENT OF DATA CENTER FACILITIES BY COLOCATION OPERATORS
9.5. SHIFT FROM ON-PREMISES TO CLOUD & COLOCATION
10. MARKET RESTRAINTS
10.1. SUPPLY CHAIN DISRUPTIONS
10.2. CARBON EMISSIONS FROM DATA CENTERS
10.3. INCREASED OPEX DUE TO HIGH MAINTENANCE COSTS & INEFFICIENCIES