[Reference Design 107] DESIGN OVERVIEW Data Center IT Capacity 11.2 MW Redundancy Levels Power: N+2 generators, 2N MV distribution, tri-redundant LV distribution for IT (incl. UPS) and N+1 LV distribution for cooling Cooling: N+2 (by module) Ecoflair units Annualized PUE at 100% Load 1.15 in Dublin, Ireland Total Racks and Average Density 1296 standard racks at 6.5 kW/rack 280 Open Compute racks at 10 kW/rack Data Center Overall Space Min. 10975 m 2 Regional Voltage and Frequency MV: 11kV, 50Hz LV: 400V, 50Hz ABOUT THIS DESIGN • IT space and power distribution designed to accommodate standard and Open Compute equipment • Ecoflair indirect air economizers provides energy savings • Tri-redundant UPS power allows for cost savings while maintaining 2N availability • Hot aisle containment saves energy and supports a mixture of rack power densities 11.2 MW, Indirect Air Economizer, 10975 m 2 INTRODUCTION This reference design is optimized for large colocation companies planning large data centers with an emphasis on total cost of ownership (TCO), redundancy, and time to market (TTM). The total size of the data centre is 11.2 MW IT and should fit with colocation business that offers regional / edge cloud services and multi-tenant IT outsourcing services. This data center includes four data halls, each with 2.8 MW of IT with an air-to-air cooling system serving each IT room. Design is made to be very flexible with respect to evolution of IT racks; it allows for various average densities either with standard racks and centralized UPS or OCP racks (or equivalent) with distributed UPS / energy storage. Electrical distribution and cooling architectures are optimized to meet these two different technical requirements. Data halls can be built one-by-one for scalability purposes, so together these rooms and systems constitute the building blocks for the data center. Each data center expansion, therefore, can occur in increments of 2.8 MW of IT load. Reference Design 107 includes information for three areas: facility power, IT space, and facility cooling. Combined, they comprise the integrated power, cooling and structural systems required to meet the design’s specifications in this overview document.
8
Embed
DESIGN OVERVIEW INTRODUCTION A and B MV secondary switchboards, with one pair feeding the MV/LV line-ups for two data halls. The swing MV/LV line-ups are to provide redundancy when
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
[Reference Design 107]
DESIGN OVERVIEW
Data Center IT Capacity
11.2 MW
Redundancy Levels
Power: N+2 generators, 2N MV
distribution, tri-redundant LV distribution
for IT (incl. UPS) and N+1 LV
distribution for cooling
Cooling: N+2 (by module) Ecoflair units
Annualized PUE at 100% Load
1.15 in Dublin, Ireland
Total Racks and Average Density
1296 standard racks at 6.5 kW/rack
280 Open Compute racks at 10 kW/rack
Data Center Overall Space
Min. 10975 m2
Regional Voltage and Frequency
MV: 11kV, 50Hz
LV: 400V, 50Hz
ABOUT THIS DESIGN
• IT space and power distribution designed
to accommodate standard and Open
Compute equipment
• Ecoflair indirect air economizers provides
energy savings
• Tri-redundant UPS power allows for cost
savings while maintaining 2N availability
• Hot aisle containment saves energy and
supports a mixture of rack power densities
11.2 MW, Indirect Air Economizer, 10975 m2
INTRODUCTION
This reference design is optimized for large colocation companies planning large data centers with an emphasis on total cost of ownership (TCO), redundancy, and time to market (TTM). The total size of the data centre is 11.2 MW IT and should fit with colocation business that offers regional / edge cloud services and multi-tenant IT outsourcing services. This data center includes four data halls, each with 2.8 MW of IT with an air-to-air cooling system serving each IT room. Design is made to be very flexible with respect to evolution of IT racks; it allows for various average densities either with standard racks and centralized UPS or OCP racks (or equivalent) with distributed UPS / energy storage. Electrical distribution and cooling architectures are optimized to meet these two different technical requirements. Data halls can be built one-by-one for scalability purposes, so together these rooms and systems constitute the building blocks for the data center. Each data center expansion, therefore, can occur in increments of 2.8 MW of IT load. Reference Design 107 includes information for three areas: facility power, IT space, and facility cooling. Combined, they comprise the integrated power, cooling and structural systems required to meet the design’s specifications in this overview document.
Visit EcoStruxure for Data Center for more details. >
EcoStruxure Data Center EcoStruxure TM is Schneider Electric’s open, interoperable, integrated Internet of Things (IOT)-enabled system architecture and
platform. EcoStruxure delivers enhanced value around safety, reliability, efficiency, sustainability, and connectivity for our
customers. EcoStruxure leverages advancements in IoT, mobility, sensing, cloud, analytics, and cybersecurity to deliver Innovation
at Every Level. It consists of three layers: connected products, edge control, and applications, analytics, and services. This
includes Connected Products, Edge Control, and Apps, Analytics & Services. EcoStruxure TM has been deployed in 480,000+
sites, with the support of 20,000+ system integrators and developers, connecting over 1.6 million assets under management
through 40+ digital services.
The connected products layer communicates with the edge control layer, which allows users to remotely monitor and control the
connected products in real time. The edge control layer communicates with the application, analytics, and services, which will
translate data into actionable intelligence and better business decisions. All three layers are secured with end-to-end cybersecurity.
EcoStruxure can either be located on-premise (this will only consist of the connected products and edge control layers) or the
cloud.
EcoStruxure Data Center is a combination of three domains of EcoStruxure: Power, Building, and IT. Each domain is focused on a
subsystem of the data center: power, cooling, and IT. These three domains combined will reduce risks, increase efficiencies, and
speed operations across the entire facility.
• EcoStruxure Power monitors power quality, generates alerts, while protecting and controlling the electrical distribution the
electrical distribution system of the data center from the MV level to the LV level. It uses any device for monitoring and
alerting, uses predictive analytics for increased safety, availability, and efficiency, while lowering maintenance costs.
• EcoStruxure Building controls cooling effectively while driving reliability, efficiency, and safety of building management,
security, and fire systems. It performs data analytics on assets, energy use, and operational performance.
• EcoStruxure IT makes IT infrastructure more reliable and efficient while simplifying management by offering complete
visibility, alerting and modelling tools. It receives data, generates alerts, predictive analytics, and system advice on any
device to optimize availability and efficiency in the IT space.
containing all the components used in the design and 3D
images showing real world illustrations of our reference
designs.
Documentation is available in multiple formats to suit the
needs of both engineers and managers working on data center
projects.
Team of over 7,000 trained specialists covering every phase and system in the data center Standardized, documented, and validated methodology leveraging automation tools and repeatable processes developed over 45 years Complete portfolio of services to solve your technical or business challenge, simplify your life, and reduce costs
Schneider Electric Life-Cycle Services
Click here to register to receive the Engineering Package for this design, or email