CFD-Based Operational Thermal Efficiency Improvement of a Production Data Center

Effective cooling of data centers presents a dual challenge: increased cooling power to meet the ever increasing device heat loads, and the need for energy efficient cooling. Detailed analysis of the thermal and flow conditions within a data center are necessary for obtaining optimal design and operational parameters. This paper describes the application of a computational fluid dynamics (CFD) based model in a production data center for improving its operational efficiency. The model used in the present work is based on conjugate heat transfer and fluid flow at data center level. The effect of heat dissipation from racks, and thermal and flow conditions at perforated tiles are bought into the model through boundary conditions. The model is rigorously validated by comparing simulation results with actual measurements. Extensive parametric studies have been performed, and key issues, resulting in mixing and ineffective cooling, have been identified. Several design and operational changes have been recommended in terms of placement of blanking panels, operation of CRAC units, and operating set-points. These recommendations have been implemented at the data center, resulting in energy savings to the tune of 20%. Further, the model has been used extensively for obtaining guidelines for efficient ramping up of the data center.

[1]  Cullen E. Bash,et al.  Viability of Dynamic Cooling Control in a Data Center Environment , 2006 .

[2]  Joonwon Lee,et al.  A CFD-Based Tool for Studying Temperature in Rack-Mounted Servers , 2008, IEEE Transactions on Computers.

[3]  Yogendra Joshi,et al.  A Multi-Grid Based Multi-Scale Thermal Analysis Approach for Combined Mixed Convection, Conduction, and Radiation Due to Discrete Heating , 2005 .

[4]  C.D. Patel,et al.  Dynamic thermal management of air cooled data centers , 2006, Thermal and Thermomechanical Proceedings 10th Intersociety Conference on Phenomena in Electronics Systems, 2006. ITHERM 2006..

[5]  Jeffrey Rambo,et al.  Thermal Modeling of Technology Infrastructure Facilities: A Case Study of Data Centers , 2009 .

[6]  Bahram Moshfegh,et al.  Investigation of indoor climate and power usage in a data center , 2005 .

[7]  Chandrakant D. Patel,et al.  Thermo-Fluids Provisioning of a High Performance High Density Data Center , 2007, Distributed and Parallel Databases.

[8]  Jeffrey S. Chase,et al.  Balance of power: dynamic thermal management for Internet data centers , 2005, IEEE Internet Computing.

[9]  Cullen E. Bash,et al.  Efficient Thermal Management of Data Centers—Immediate and Long-Term Research Needs , 2003 .

[10]  Jinkyun Cho,et al.  Measurements and predictions of the air distribution systems in high compute density (Internet) data centers , 2009 .

[11]  Cullen E. Bash,et al.  Computational Fluid Dynamics Modeling of High Compute Density Data Centers to Assure System Inlet Air Specifications , 2001 .

[12]  Karsten P. Ulland,et al.  Vii. References , 2022 .

[13]  C. Bash,et al.  Exergy Analysis of Data Center Thermal Management Systems , 2008 .

[14]  S. Patankar,et al.  Use of Computational Fluid Dynamics for Calculating Flow Rates Through Perforated Tiles in Raised-Floor Data Centers , 2003 .

[15]  Madhusudan K. Iyengar,et al.  Challenges of data center thermal management , 2005, IBM J. Res. Dev..

[16]  Cullen E. Bash,et al.  Thermal considerations in cooling large scale high compute density data centers , 2002, ITherm 2002. Eighth Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (Cat. No.02CH37258).

[17]  Cullen E. Bash,et al.  DIMENSIONLESS PARAMETERS FOR EVALUATION OF THERMAL DESIGN AND PERFORMANCE OF LARGE-SCALE DATA CENTERS , 2002 .

[18]  Cullen E. Bash,et al.  Smart cooling of data centers , 2003 .

[19]  Y. Joshi,et al.  The Thermal Design of a Next Generation Data Center: A Conceptual Exposition , 2007, 2007 International Conference on Thermal Issues in Emerging Technologies: Theory and Application.

[20]  Xuanhang Zhang,et al.  Effect of rack modeling detail on the numerical results of a data center test cell , 2008, 2008 11th Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems.

[21]  Van P. Carey,et al.  Strategies for effective use of exergy-based modeling of data center thermal management systems , 2008, Microelectron. J..