Don’t Overlook Blanking Panels for Cost-Effective Rack Cooling

When planning your data center cooling strategy, the use of blanking panels in empty rack spaces can greatly improve rack cabinet cooling at a fraction of the cost of forced heat removal or supplemental air conditioning. Energy Star has included blanking panels as key devices for efficient airflow control in server rooms.

Rack enclosures are designed for front-to-rear airflow. Cool air flows through the perforated front door and cools your equipment, which exhausts warm air through the perforated rear doors. Airflow management prevents warm air from recirculating and contaminating cool air.

Block empty rack spaces with SR1UPANEL10 and SR1UPANEL50 blanking panels to prevent heat recirculation.

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Increase Rack Cooling Efficiency and Solve Heat-Related Problems
Low-Cost and No-Cost Cooling Best Practices Provide Exceptional ROI for Small to Mid-Size Data Centers

6 Steps to Improve Data Center Cooling Efficiency

CoolingEnergy efficiency in the data center used to be an afterthought, if it was on the radar at all. It made sense at the time. If your data center felt uncomfortably cold, people were impressed. It was considered a sign that you were doing a good job keeping servers from overheating. Rack densities were lower, electricity was cheaper and nobody was paying attention to the electric bill.

Today, data center managers need to keep a close eye on energy costs. According to the Uptime Institute’s 2011 Data Center Survey, 97 percent of respondents said reducing energy use was either “somewhat” or “very” important, and 87 percent said the primary motivation was cost reduction. An Uptime Institute study also found that up to 70 percent of data center energy use is for cooling and air handling, so increasing cooling efficiency is vital to reducing costs. Start with the low-hanging fruit. You’ll be surprised how much you can save with a few simple steps.

1. Implement Hot-Aisle/Cold-Aisle
You don’t need to keep your data center at meat locker temperatures. Instead, concentrate on removing hot air from the room before it recirculates. Separating hot and cold air is the key to cooling efficiency. Start by arranging racks in rows so the fronts face each other in cold aisles and the backs face each other in hot aisles. That prevents servers from drawing in hot air from servers in the adjacent row. According to studies by TDI Data Centers, hot-aisle/cold-aisle configurations can reduce energy use up to 20%.

2. Install Blanking Panels
Blocking off unused rack spaces isn’t just cosmetic. It forces cold air through your servers and prevents hot air from recirculating through the enclosure. If you look, you can find blanking panels that snap into place without tools, saving significant installation time.

3. Organize Cables
Tangled cables block airflow. They prevent efficient cold air distribution under raised floors and cause heat to build up inside enclosures. In raised-floor environments, move cabling to overhead cable managers. Inside enclosures, use high-capacity cable managers to organize patch cables.

4. Replace Inefficient UPS Systems
Removing unnecessary heat sources helps cool the room. Replace traditional on-line UPS systems with energy-saving models to increase efficiency and reduce heat output, especially where redundant UPS systems operate below full capacity.

5. Use Close-Coupled Cooling
Gartner Group reports that close-coupled cooling increases efficiency compared to traditional perimeter and/or raised floor systems. Close-coupled cooling allows you to focus cooling where it’s needed most without lowering the temperature of the entire room. The modular nature of close-coupled cooling also allows data center managers to quickly reconfigure cooling to handle new equipment or overheating racks.

Some companies offer close-coupled cooling solutions that are completely self-contained and can be installed by IT staff without costly contractors, plumbing, piping, special ductwork, floor drains, water tanks or extra parts.

6. Isolate and Remove Hot Air Cooling
Thermal duct rack enclosures route hot air through an overhead duct to the HVAC or CRAC return air stream. They isolate hot air so it can’t recirculate in the room. Convection forces hot air up through the duct, like a chimney, and positive pressure in the room and negative pressure in the plenum increase airflow.

See Our Selection of Portable and In-Row Cooling Solutions

Download the White Paper:
Increase Rack Cooling Efficiency and Solve Heat-Related Problems
Low-Cost and No-Cost Cooling Best Practices Provide Exceptional ROI for Small to Mid-Size Data Centers