Evaluating Data Center Indoor Air Quality

Evaluating Data Center Indoor Air Quality

Benjamin Chu

Lawrence Berkeley National Laboratory

Environmental Energy Technologies Division

• Data centers must run 24 hours a day.

• Data centers consume large amounts of energy (60 TWh/year) [1].

• 1.5% of the total electricity generated in the US.

• Chillers are a significant energy consumer in data centers (25%) [2].

Data Center Energy Use

LBNL, 2007, Report to Congress on Server and Data

Center Energy Efficiency Public Law 109-431Greenberg et al, 2006, Best Practices for Data Centers

• Turn off the chillers and bring in cool outside air.

• This reduction of operating hours lowers the energy costs.

• Problem: Bringing in outside air increases indoor particle concentrations.

AHUCRAC

AHU

Cold Air

Warm Air

Outside AirCRAC

AHU

office

zone

Rocklin

data center

Walnut Creek

data center

Sunnyvale

data center

Air Side Economizers

Shehabi et al, 2008, Particle Concentrations in Data Centers

Tschudi et al, 2006, Measuring and Managing Data-Center Energy Use

• Contaminants can:

– Corrode metal contacts.

– Bridge the electrical isolation between conductors.

• Objective: Find out how economizers impact indoor air quality.

Particulate Matter

http://www.isa.org/Template.cfm?Section=Article_Index1&template=

/ContentManagement/ContentDisplay.cfm&ContentID=26843

Corrosion coupons used to gauge corrosion rates.

Aerosol Analysis

• Count and identify particles in indoor and

outdoor air.

• Optical measurement devices:

– Aerodynamic particle sizer (APS)

– Optical particle counter (OPC)

– Condensation particle counter (CPC)

– Aethalometer

Chemical Analysis

• Collect indoor and outdoor particles for analysis.

• Two different setups:

– An annular denuder, followed by Teflon, nylon and cellulose filters.

– Two quartz filters.

• Nitrates, sulfates and ammonia are of interest because they are hygroscopic.

• Chemical speciation by ion chromatography.

Quartz Filter Denuder

Size Resolved Data for 7/30/08-8/1/08

0

50000

100000

150000

200000

250000

4:48 PM

8:18 PM

11:48 PM

3:18 AM

6:48 AM

10:18 AM

1:48 PM

5:18 PM

8:48 PM

12:18 AM

3:48 AM

7:18 AM

10:48 AM

2:18 PM

Co

un

ts

Time (hh:mm)

0.5-0.7 microns

Outdoor

Indoor

020000400006000080000

100000120000

4:48 PM

8:18 PM

11:48 PM

3:18 AM

6:48 AM

10:18 AM

1:48 PM

5:18 PM

8:48 PM

12:18 AM

3:48 AM

7:18 AM

10:48 AM

2:18 PM

Co

un

ts

Time (hh:mm)

0.7-1 microns

Outdoor

Indoor

Indoor to Outdoor Concentration Ratio

Carbon Data for 8/4/08-8/5/08

Carbon Data for 8/4/08-8/5/08

Particle Concentrations for 7/31/08-8/1/08

Discussion and Conclusion

• When the economizer is on, there is an increase of particle counts and concentrations of indoor air.

• When it is turned off, the concentrations of indoor air decrease because of recirculation.

• Concentrations are lower than EPA standards for particulate matter smaller than 2.5 μm diameter (15.0 μg/m³).

•DOE Office of Science, LBNL Center for Science and

Engineering Education.

•Ashok Gadgil, Srirupa Ganguly, Arman Shehabi,

Doug Sullivan, Lara Gundel, Melissa Lunden and

Dennis DiBartholomeo.

Acknowledgements

• Create a model of economizer cost implications in different climates.

• SF6 is released as a tracer to measure the particle diffusion.

• Portable ambient air analyzers are used to track the diffusion rate.

• Corrosion coupons measure the corrosion rate of the electronic circuits.

Modeling and Further Work

[1] LBNL, 2007, Report to Congress on Server and Data Center Energy Efficiency Public Law 109-431

[2] Greenberg et al, 2006, Best Practices for Data Centers

[3] Shehabi et al, 2008, Particle Concentrations in Data Centers

[4] Tschudi et al, 2006, Measuring and Managing Data-Center Energy Use

References