Brian M. Medina PE Associate Brett M. Griffin PE, LEED AP Vice President Environmental Systems Design, Inc. Mission Critical Facilities Specialty Environment Design Mission Critical Facilities March 25, 2014
Objective / Agenda Broad overview of mission critical facilities and how they differ from commercial buildings. What are Mission Critical Facilities? Internal Components Air Distribution & CFD Modeling Uptime and Redundancy ASHRAE 90.1 & PUE Q&A throughout!
What is a Mission Critical Facility (of hardware or software) vital to the functioning of an organization. Any factor of a system (equipment, process, procedure, software, etc.) whose failure will result in the failure of business operations. That is, it is critical to the organization's "mission."
What is a Mission Critical Facility A facility that requires continuous operation 24x7x365. HVAC Power Security Controls Communications
What?
What a data center is NOT
Typical data center layout/components
Data Center Infrastructure Components RACK RACK RPP RPP RPP RPP
Utility Power
Data Center Infrastructure Components Data Suite NetPOP / Meet Me Room
Fiber Local / International
Data Center Infrastructure Components
Data Center Design Hot Aisle/Cold Aisle Layout Arranging servers to avoid mixing of server inlet and outlet air http://www.datacenterknowledge.com/archives/2012/03/27/smart-data-center-design-for-more-effective-cooling/
Air Distribution Overhead
Air Distribution - Underfloor Tate Access Floors
Air Distribution - Underfloor Tate Access Floors
Data Center Design Containment Options Physical separation of airstreams to avoid mixing and achieve design return air temperature. Cabinet Chimneys Strip Curtains Deploy as Needed Low Leakage (Depends on Install) Hot Spot Reduction Rigid Frame & Panel Lowest Cost Higher Leakage Easy Install Higher Cost Low Leakage (Depends on Install)
Computational Fluid Dynamics
Data Center Design CFD Modeling Modeling of data center airflow to predict where issues will arise within cabinet layout. Validate design concepts Visually demonstrate simulated performance. Hot/Cold Aisle Layout w/o Ceiling Plenum Return Same Layout w/ Ceiling Plenum Return
Data Center Design Equipment Redundancy Data centers often have redundant equipment for concurrent maintainability. Example: Chiller Plant, Design Load = 1,200 tons, Using (3) 400 ton chillers Redundancy Level Min. # of Chillers Redundant Units N (No Redundancy) 3 0 N+1 3 1 N+2 3 2 2N 3 3 Min. # of Chillers for Cooling Redundant Unit
Data Center Design Equipment Redundancy
Tier Classifications Active Capacity Components to Support IT Load Distribution Paths 1 1 Concurrently Maintainable Fault Tolerance (single event) Tier I Tier II Tier III Tier IV N N+1 N+1 1 Active and 1 Alternate N After any Failure 2 Simultaneously Active No No Yes Yes No No No Yes Compartmentalization No No No Yes Continuous Cooling Load Density Dependent Load Density Dependent Load Density Dependent Yes (Class A) Availability 99.671% 99.741% 99.982% 99.999% Annual Downtime (hrs.) 28.8 22.0 1.6 0
North America
ASHRAE TC 9.9 - Recommended Temperatures http://www.symposium.uptimeinstitute.com/images/stories/symposium_2013/2013_slides/day4/0516_ashrae_update_donbeaty_lexcoors.pdf
Thermal impact on equipment
ASHRAE 90.1 Economizer Requirements... 875 kw 175 kw
SPC 90.4P Energy Standard for Data Centers and Telecommunications Buildings. Proposed Standard authorized (San Antonio) 6/27/2012. Issued for advisory public review until 12/30/13. To establish the minimum energy efficiency requirements of Data Centers and Telecommunications Buildings, for: design, construction, and a plan for operation and maintenance, and utilization of on-site, renewable energy resources
Power Usage Effectiveness (PUE) THE GREEN GRID Avg PUE = 2.9 Avg IT load = 2.6 MW Total facility = 7.54 MW 20% report a PUE below 2.0 58.1 MW 207k MT CO 2 9.71 MW 60k MT CO 2