Global Data Center Containment Market was valued at USD 1.2 billion in 2023 and is estimated to register a CAGR of over 10.5% between 2024 and 2032, propelled by the need to manage rising energy consumption and its impact on operational costs and sustainability. Quoting an instance, in July 2024, Vertiv introduced the Vertiv™ Trinergy™ UPS, designed to meet the high-power demands of AI and HPC data centers. Paired with the Vertiv™ PowerNexus solution, it offers an efficient backup power system to address rising electricity needs.
Data centers, known for their high energy usage, require effective containment systems to manage and optimize cooling processes. Containment solutions, which include hot aisle and cold aisle containment, are essential for segregating hot and cold airflow, thereby enhancing cooling efficiency and reducing energy consumption. The data center containment system ensures that cooling resources are directed efficiently, minimizing waste and enhancing overall energy use. By improving cooling efficiency, containment solutions help data centers lower energy consumption, reduce costs, and meet sustainability goals.
Additionally, stringent government regulations on energy consumption and carbon emissions are prompting data center operators to adopt containment strategies. Technological advancements in containment materials and designs are further enhancing their effectiveness and ease of deployment.
The data center containment market is grouped based on containment, data center, arrangement, application, and region.
The chimney containment segment is likely to record a decent growth through 2032, owing to the need for effective heat management and space optimization. As data centers become more densely populated with high-performance equipment, efficient airflow management becomes critical. Chimney containment solutions channel hot air directly away from the equipment, preventing hotspots, and ensuring consistent cooling. This approach improves operational reliability and reduces energy costs, making it an attractive option for facilities aiming to maintain efficiency of cooling infrastructure.
The colocation data center segment will command a noteworthy market share by 2032. Colocation facilities house equipment from multiple clients, requiring robust containment strategies to ensure optimal airflow and cooling across diverse setups. Effective containment systems help manage varying heat loads and maintain consistent environmental conditions, which is crucial for preventing equipment overheating and ensuring high performance. As colocation data centers expand, the need for containment solutions that maximize space utilization and energy efficiency becomes more pronounced.
Europe data center containment market will garner a prominent revenue share between 2024 and 2032, due to stricter regulations on energy efficiency and environmental sustainability. The countries in Europe have strict standards to reduce carbon footprint and improve energy performance in data centers. The rising volume of data generated by digital services and the need for robust infrastructure to support the growth favor the demand for effective containment solutions. These systems help European data centers comply with regulatory requirements while optimizing operational efficiency and curbing energy consumption.
Chapter 1 Research Methodology
1.1 Research design
1.1.1 Research approach
1.1.2 Data collection methods
1.2 Base estimates and calculations
1.2.1 Base year calculation
1.2.2 Key trends for market estimates
1.3 Forecast model
1.4 Primary research & validation
1.4.1 Primary sources
1.4.2 Data mining sources
1.5 Market definitions
Chapter 2 Executive Summary
2.1 Industry 360° synopsis, 2021-2032
2.2 Business trends
2.2.1 Total Addressable Market (TAM), 2024-2032
2.2.1.1 TAM trends
2.3 Regional trends
2.4 Containment trends
2.5 Data center trends
2.6 Arrangement trends
2.7 Application trends
Chapter 3 Industry Insights
3.1 Industry ecosystem
3.1.1 Component providers
3.1.2 Manufacturers
3.1.3 System integrators
3.1.4 End users
3.2 Supplier landscape
3.3 Technology & innovation landscape
3.3.1 IoT sensors and AI for smart monitoring and control
3.3.2 Liquid cooling solutions
3.3.3 Integrated cooling systems
3.3.4 Advanced thermal management
3.4 Patent analysis
3.6 Regulatory landscape
3.6.1 North America
3.6.1.1 U.S.
3.6.1.1.1 Energy Efficiency Standards (ASHRAE
90.1)
3.6.1.1.2 Energy Star for Data Centers
3.6.1.1.3 California Title 24
3.6.1.2 Canada
3.6.1.2.1 National Energy Code of Canada for Buildings (NECB)
3.6.1.2.2 Greenhouse Gas Pollution Pricing Act (Carbon Tax)
3.6.1.2.3 Energy Efficiency Act
3.6.1.3 Mexico
3.6.1.3.1 Norma Oficial Mexicana (NOM) 001-SEDE-2012
3.6.1.3.2.1 Norma Oficial Mexicana (NOM) 085-SEMARNAT-2017
3.6.2 Europe
3.6.2.1 UK
3.6.2.1.1 EU Energy Efficiency Directive (2012/27/EU)
3.6.2.1.2 Energy Savings Opportunity Scheme (ESOS)
3.6.2.1.3 Climate Change Levy (CCL)
3.6.2.2 Germany
3.6.2.2.1 EU Regulation on Energy Labelling (EU No. 2017/1369)
3.6.2.2.2 EnEV (Energieeinsparverordnung)
3.6.2.2.3 KfW Energy Efficiency Program
3.6.2.3 France
3.6.2.3.1 Energy Transition for Green Growth Law
3.6.2.3.2 RT 2012 (Réglementation Thermique 2012)
3.6.2.3.3 EU Energy Efficiency Directive (2012/27/EU)
3.6.2.4 Italy
3.6.2.4.1 Decree-Law No. 102/2014
3.6.2.4.2 Energy Efficiency Act (Legge 10/1991)
3.6.2.4.3 National Building Energy Performance Regulations (Legge 90/2013)
3.6.2.5 Spain
3.6.2.5.1 Royal Decree 56/2016
3.6.2.5.2 EU Regulation on Energy Labelling (EU No. 2017/1369)
3.6.2.6 Russia
3.6.2.6.1 Federal Law No. 261-FZ on Energy Saving and Energy Efficiency
3.6.2.6.2 Government Decree No. 1176 on Energy Efficiency Standards
3.6.3 Asia Pacific
3.6.3.1 China
3.6.3.1.1 Energy Conservation Law of the People's Republic of China
3.6.3.1.2 GB 50189-2015 Code for Design of Heating, Ventilation and Air Conditioning
3.6.3.1.3 China Energy Conservation and Environmental Protection Certification (CECP)
3.6.3.2 India
3.6.3.2.1 Energy Conservation Act, 2001
3.6.3.2.2 Bureau of Energy Efficiency (BEE) Star Rating Program
3.6.3.2.3 National Building Code (NBC) of India
3.6.3.3 Japan
3.6.3.3.1 Energy Conservation Act
3.6.3.3.2 Building Energy Efficiency Act
3.6.3.3.3 Green IT Initiative
3.6.3.4 Australia
3.6.3.4.1 National Construction Code (NCC)
3.6.3.4.2 Energy Efficiency Opportunities (EEO) Program
3.6.3.4.3 Clean Energy Act 2011
3.6.3.5 South Korea
3.6.3.5.1 Energy Use Rationalization Act
3.6.3.5.2 Korean Building Energy Efficiency Rating System (KBES)
3.6.3.5.3 Green Building Certification (G-SEED)
3.6.3.6 Southeast Asia
3.6.3.6.1 Building and Construction Authority (BCA) Green Mark Scheme
3.6.3.6.2 Malaysian Standard MS 1525:2014
3.6.3.6.3 Thailand Energy Efficiency Development Plan (2015-2036)
3.6.4 Latin America
3.6.4.1 Brazil
3.6.4.1.1 Law No. 13,289/2016 - National Policy on Energy Efficiency (PNEf)