Beat the Heat-Effective Cooling Strategies For Today's
Data Centers and Server Rooms
by 42U
Uptime and
Data Center
Cooling are the main concerns for many Data Center
managers. Excess heat in a server room adversely affects
equipment performance, shortens its lifespan, and leads
to a premature end of life for equipment. Keeping a
server room at the recommended 68 ° to 77 ° F (1)
is not an easy task. There are many factors that make
cooling today's Data Centers a significant challenge,
including high-density computing clusters and rapid
changes in technology.
High-Density Computing Clusters
The rise in the use of blade servers and virtual servers
has greatly increased the potential amount of power
consumed per rack, as well as the resulting heat output.
While the heat dissipated by a 2 ft by 2.5 ft rack is
currently about 10 kilowatts or more, experts estimate
that designs for future equipment will require dissipations
of 30-50 kW in the same rack space.(2) The
trend toward increased power consumption has been documented
in several studies, including one recent five-year study
of 19 computer rooms that showed that power consumption
rose by 39% from 1999-2005.(3)
Changes in Technology
Traditionally, advances in technology have occurred
at an extremely rapid rate, as illustrated by "Moore's
Law," which predicts the doubling of semiconductor performance
approximately every 24 months. Historically, increased
computational abilities have led to increased power
consumption and heat loads. Data Center managers should
take these trends into account when planning for future
expansion. According to Gartner Research, "Without careful
planning and coordination between the data center facilities
staff and the server procurement staff, data centers
will not be able to increase power or cooling in line
with increases in server deployments…through year-end
2008, heat and cooling requirements for servers will
prevent 90 percent of enterprise data centers from achieving
the maximum theoretical server density." (4)
Isolating Hot Spots
Hot Spots are areas in a Data Center that are not properly
cooled, often resulting in temperatures that exceed
recommend conditions for maximum equipment reliability
and performance. Hot spots are not necessarily caused
by a lack of cooling capacity and commonly occur in
Data Centers with sufficient or excess cooling capacity,
but can be caused by poor circulation or improper air
flow.
- Zone Hot Spots can be present over fairly
large areas in a Data Center and occur when the temperature
at all air intake levels of a rack or cabinet are
too hot, due to expelled air flow that is not properly
routed.
- Vertical Hot Spots occur over a small
area and often affect a single server rack. They
occur when equipment at the bottom of a rack consumes
the available supply of cold air and devices higher
up in the rack pull in the hot air exhaust of adjacent
equipment or ambient air.
Strategies to Improve
Data Center Cooling
Data Center managers can take several steps to meet
Data Center
cooling challenges, including choosing the right rack,
increasing Data Center energy efficiency, using liquid
cooling units, and taking advantage of environmental
monitoring.
1. Select The Right Rack And Accessories
To fully maximize equipment cooling, when selecting
a server
rack consider intelligent and space-efficient design
features that various rack models offer, including frame
profile and capacity for increased packing density.
Use blanking panels to manage air flow efficiency and
select a rack with built-in channels for better cable
management and improved air flow. Fully perforated doors
and top panels can help improve ventilation as well.
Also consider
server rack accessories that will improve cooling,
including fans, enclosure blowers, and rack air conditioners.
In addition, consider using energy-efficient power supplies,
such as 220V power, which significantly increases available
amperage into the server rack, using fewer circuits
while providing a more balanced power load. This can
reduce the overall number of PDUs needed to power equipment,
leaving more space for airflow.
2. Aim for Energy Efficiency
There are several steps you can take to reduce overall
energy consumption and resulting heat loads in your
data center. To begin with, consider hiring an expert
to conduct room diagnostics, measure airflow, and correct
any cooling problems identified. Next, conduct a thorough
audit of your equipment and determine if any servers
can be consolidated or discarded-this process can cut
power consumption in some organizations by up to 30%.
(5) Finally, clean up any clutter under your
Data Center floor, including cabling, that might be impeding
air flow.
3. Deploy Liquid Cooling Units
As power-intensive applications and server densities
have increased,
Liquid
Cooling Packages (LCPs) have become a valuable alternative
to ambient air cooling and can better meet the cooling
challenges presented by high-density computing clusters.
These modular, temperature-neutral high-density cooling
solutions utilize air/water heat exchangers to provide
uniform, effective cooling. Liquid cooling units use
a special horizontal airflow with constant-temperature
cold air provided at the front intake and hot air removed
from the rear of the enclosure. They can be mounted
at the rack base, in a rack "side car." Fully-loaded
LCPs have a 30kW cooling output with three cooling modules
possible per equipment rack, and controlled variable
speed fan and water flow based on actual heat load generated
in a cabinet.
4. Use Environmental Monitoring
These devices allow administrators to proactively monitor
rack and server room temperature, including hot spots,
at any time and from anywhere and provide protection
to mission-critical applications. They also allow administrators
to continuously monitor amperage draw per circuit, water
leaks, and
physical
security and can send alerts automatically via SMTP/SMS/SNMP
when conditions exceed established thresholds. This
allows IT managers to quickly respond to any irregularities
before they become larger problems.
Environmental monitoring devices also help administrators
in future planning, as they provide valuable data that
can be used for trending analysis.
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