4 steps to quickly improve pue through airflow management
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Transcript of 4 steps to quickly improve pue through airflow management
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Optimizing Cooling: 4 Steps to Quickly Improve PUE Through Airflow Management
Lars Strong P.E.Company Science Officer and Senior Engineer
Upsite Technologies, Inc.
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Given that cooling typically consumes around half of a data center's power, it's imperative that cooling is optimized to achieve a low PUE. But how can this be done quickly, with all possible benefits realized, and with the fastest return on investment?
Based on research from 45 data centers around the world, we have identified a series of steps to optimize cooling and lower PUE through proper airflow management.
Optimizing Cooling
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Research
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Identify Your Opportunity
• There are two types of computer rooms• Those without IT equipment intake air temperature
problems• Improving AFM enables them to be more efficient
• Those with IT equipment intake air temperature problems• Improving AFM solves intake air temperature
problems (hot spots and cold spots) and enables them to be more efficient
• More efficient results in: lower OPEX, deferred CAPEX, increased cooling capacity
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Total Load
IT LoadPUE =
Mechanical plant + cooling fans: 35% of total load, 73% of non IT Load
Why Airflow Management (AFM)
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On Avg. 3.9 times more capacity than load Raised
floor area (sq ft)
# of running cooling units
Raised floor
bypass open
area (%)
Hot spots (%
of cabinets
)
Cold spots (%
of cabinets) (Data from 6 sites)
Proper perforated tile
placement (%)
Cooling Capacity Factor (CCF)
Averages 7,527 8 48% 20% 35% 77% 3.9Minimum 720 2 13% 0% 0% 7% 1.2Maximum 37,00
040 93% 86% 86% 100% 32.0
Recommended
n/a n/a <10% 0% 0% 100% 1.2Conclusion: Inefficient cooling configuration / airflow management is the problem; capacity is not the problem.
Research
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7
Based on a research study conducted by Upsite Technologies of 45 data centers worldwide, we found that the average data center has nearly 4 times more rated cooling capacity than IT load.
Only 4 sites had CCF of 1.3 or less.
The average data center has a cooling capacity nearly 4 times the IT load!
Research
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IT Intake Air Temperatures are Paramount
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• Airflow is invisible• Cooling capacity is difficult to quantify (ton ???)• Mixed messages in the market• Vendor influence• Lack of education
Why Are Myths and Over Capacity Prevalent
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• Money
• OpEx Savings• CapEx Savings
• Capacity• Cooling Capacity
• IT Reliability
• Green Initiatives• CO2 Reduction
“…an average a 10,000 sq ft data center could reduce its operating expense by $42,500 annually, simply by improving airflow management.” - Upsite CCF White Paper
AFM Problems Are An Opportunity
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Bypass Airflow Clarified
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Any cooling air that does not pass through IT equipment before returning to a cooling unit
Bypass flow rate (CFM) = total cooling supply flow rate (CFM) – total IT equipment flow rate (CFM)
Definition of Bypass Airflow
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CFM =
CFM = cubic feet per minute of airflow through the server
3.16 = factor for density of air at sea level in relation to F⁰
ΔT = temperature rise of air through the server in F⁰
3.16 x W ΔT
ΔT Through IT Equipment
Heat Transfer Equation
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• “Pizza box” servers• at 20 ⁰F ΔT consume 158 CFM / kW• 500 kW - 1,000 servers• Would require 79,000 CFM of chilled air
• “Blade” servers • at 35 ⁰F ΔT consume 90 CFM / kW• 500kW - 1,600 servers (100 chassis)• Would require 45,140 CFM of chilled air• 43% less than servers with 20 ⁰F ΔT
ΔT Through IT Equipment
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UPS load (kW) x avg CFM/kW = Total IT CFM
IT Equipment Required Flow Rate
IT Equipment Delta T (deg F)
15 20 25 30 35 40Required flow rate (CFM/kW
)
211
158
126
105
90
79
ΔT Through IT Equipment
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Typical existing conditions
Bypass Airflow Clarified
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After AFM improvements
Bypass Airflow Clarified
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Optimized
Bypass Airflow Clarified
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Bypass Airflow Revealed
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Upsite’s 4 R’s of Airflow Management™
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Upsite's 4 R's of Airflow Management™ provide a guide for implementing changes and achieving the greatest benefits in your data center.
Optimizing Airflow
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• 3,900 sq. ft.• 81 cabinets (avg. 4 kW / cabinet)• UPS load 332 kW• 10 – 25 ton cooling units• Rated cooling capacity
• 250 ton• 880 kW
CFD Modeling
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Raised Floor Airflow Management
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• Raised floor open area management
• 2 types (good and bad)
1. Good• Supply tiles in cold aisle, in front of IT equipment
2. Bad• Supply tiles in open areas and hot aisles• unsealed cable openings• PDU and perimeter openings
• It is easier to seal a cable opening before cabinets and IT equipment are in place
Raised Floor AFM Best Practices
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• Seal all cable and data cutouts• Seal all conduit penetrations• Seal or reduce open area under PDUs• Seal perimeter penetrations (fair rated?)• Remove unused cables• Use cable trays• Manage type and location
of every supply tile
Raised Floor AFM Best Practices
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• CFD Result
• By sealing cable openings flow through supply tiles increased by 30%
• Allowed a 10% reduction in fan speeds
• Data center manager reported $80K savings as a result of just relocating and removing perforated tiles.
Raised Floor AFM Best Practices
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Rack Airflow Management
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• Blanking panels in 100% of open space• Seal between rails and sides of rack• Seal under the rack• Few sites have done this fully • Cabinet design plays a large role in AFM
• Benefits from IT and facilities cooperation
Rack AFM Best Practices
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Rack AFM Best Practices
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Hot air is flowing from the hot aisle under the racks and into the cold aisle. The hot air coming from under the racks prevents the conditioned air supplied by the tiles in the cold aisle from reaching the equipment in the bottoms of the racks
Rack AFM Best Practices
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Sealing the space under racks prevents hot air from flowing into the cold aisle. The conditioned air supplied by the tiles in the cold aisle can fill the space and support the IT equipment from the bottom to the top of the rack
Rack AFM Best Practices
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• CFD results
• By sealing racks the maximum IT intake air temperature dropped 14.6 F. Avg maximums ⁰dropped 6.6 F⁰
• Allowing a 15% reduction in fan speeds• Allowing a 3 F increase in supply temperatures⁰
Rack AFM Best Practices
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Row Airflow Management
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• Seal spaces between cabinets• Seal spaces where cabinets are missing• Aisle end doors• Block flow over cabinets
• Baffles• Full containment
Row AFM Best Practices
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• CFD results
• By installing partial containment (aisle end doors and rack top baffles) the maximum IT intake air temperature dropped 5.5 F. Avg maximums dropped ⁰2.1 F⁰
• Allowing a 10% reduction in fan speeds• Allowing a 7 F increase in supply temperatures⁰
Row AFM Best Practices
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Room / Controls Changes
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• It is still common to see 72° F cooling unit return set today, and lower set points in the range of 68° F are still not uncommon
• Often driven by IT conservatism or hot spot mitigation
Raise Cooling Unit Set Points
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1 Through IT equipment2 IT equipment exhaust to cooling unit3 Through cooling unit4 Cooling unit to IT intake
The 4 Δ T’s
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Raise Cooling Unit Set Points
Common situation
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Raise Cooling Unit Set Points
Ideal Situation
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Improve Efficiency / Release Stranded Capacity
Liebert DX Model VH267W 20-Ton Cooling Unit
Environmental Condition
Total(kW)
Latent(kW)
Sensible(kW)
72°F, 45% Rh 67.0 0 67.070°F, 48% Rh 64.5 4.8 59.7Stranded 2.5 4.8 7.3Stranded (%) 4% 11%
Cooling capacity increase from 2°F return air increase
Raise Cooling Unit Set Points
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Cooling capacity increase from 7°F return air increase
Environmental Condition
Total(kW)
Latent(kW)
Sensible(kW)
72°F, 45% Rh 98.0 0 98.065°F, 45% Rh 70.0 0 70.0Stranded 28.0 0 28.0Stranded (%) 40% 40%
Improve Efficiency / Release Stranded CapacityLiebert Chilled Water Model 600C CRAH Unit
Raise Cooling Unit Set Points
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• At 50% fan speed• 50% airflow volume• Only 12.5% of fan energy (87.5% savings)
• CFD Modeling • With the raised floor, racks, and rows sealed one
cooling unit was able to be turned off and fan speeds were reduced to 65%
• Annual fan energy savings $36,898
Raise Cooling Unit Fan Speeds
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• Maximum IT inlet temperature reduced by 8.4°F• Supply temperature increased 10 °F• Fan speeds reduced 35% and one cooling unit
turned off• Total annual savings $58,163• ROI 1.4 yrs• Partial PUE (pPUE) reduced from 1.54 to 1.34
(chiller plant and cooling unit fans)
Final Results
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Conclusions
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1. Cooling optimization is about improving data center airflow so the least amount of conditioned air at the highest supply temperature can be used to effectively cool IT equipment
2. AFM fundamentals of sealing Raised floor and Rack, and managing airflow at Row level are essential to effective and efficient cooling
3. Changes need to be made at the room level, to cooling controls, to reduce operating cost and recover stranded capacity
3 Key Takeaways
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Thank you!
Lars Strong, P.E.Company Science Officer Senior Engineer, Upsite [email protected]
Follow Upsite for the latest news and information on data center AFM.
@UpsiteTech blog.upsite.com
On LinkedIn