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Eight Ways to Conserve Energy with HVAC Maintenance

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Eight Ways to Conserve Energy with HVAC Maintenance
Engr. Inayat Ur Rahman (Engineering Sales Manager at Khan Brothers)
Energy conservation is an integral part of commercial facility operations. Managing heating,
ventilation and air conditioning systems (HVAC) through effective operation and maintenance is
a best practice for conserving energy at your facility.
Here are eight areas of focus for HVAC maintenance and management to help improve overall
energy efficiency:
1. Maintain Proper System Boundaries
Overseeing system boundaries by controlling heating and cooling to designated spaces can
improve HVAC energy efficiency by as much as 20%. Boundaries can be adjusted according to
the operating environment and season. A garage or loading area may not be heated or cooled at
all, depending on the time of year. An open warehouse may have open entrances and doors at
times in between seasons, but be sealed and heated or cooled at other times. An energy audit or
commission for energy conservation in new buildings requires that system boundaries be clearly
defined to know what those settings should be and when, where the boundaries lie and how
airflow from HVAC ducting should be directed.
2. Maintain Daily, Seasonal Thermostat Set Points
A programmable thermostat positioned to regulate air current and temperature to provide
reasonable comfort levels at various times of the day and year creates an economical heating and
cooling operation. A pre-set schedule includes programming heat or air conditioning to maintain
temperatures for specific time blocks within a day. Adjusting the temperature settings for rooms
that are not occupied through the day or night can save as much as 10% in energy consumption.
3. Use Automatic Controls Where Possible
Automatically controlling the speed, output and run-time of HVAC equipment such as fans,
chillers and compressor motors allows the entire system to be controlled so as to provide
appropriate amounts of heating and cooling. For example, the installation of a variable air valve
into the air system of an Indiana school was used to regulate airflow. This and other
programmable energy features saved about 25% on the school’s electrical bills while maintaining
student comfort at appropriate times of each day throughout the school year.
4. Maintain Equipment Set Points
Ensure that equipment set points are reasonable to achieve desired comfort levels, and that they
aren’t working more than necessary. Equipment such as fans and blowers should be set to run at
speeds that deliver the required air demanded by the space boundaries they serve. Systems often
deliver more than what is needed and are not set properly. They consume more power to produce
a greater heating or cooling effect than is required, reducing energy efficiency. Implementing
calculated set points will avoid this and result in energy savings.
5. Adjust and Set HVAC Operation for Seasonal Change
Raising the temperature of the system’s chiller water supply to a level that is able to achieve
required temperature settings and levels will help conserve energy. Depending on the
configuration of the system, controlling the temperature of cooling water to your chiller, within
manufacturer's guidelines, can achieve a desired comfort level and consume less power. In fact,
this can be a huge energy saver as the compressor does not have to work as hard while
maintaining the desired comfort level. Be mindful that a modest change in temperature setting
may be all that is needed when the season changes. This alone could result in notable energy
savings.
6. Consider Variable Speed Equipment
Heating and cooling with variable speed alternatives for fans, blowers, motors, and other
components have improved energy efficiency for many commercial facilities. Over the last
decade, air conditioners and thermal equipment have incorporated variable speed features to
create more cost effective and efficient operating systems. Efficiency lies in the ability to
configure settings properly and in preventing motors, fans and operational components from
running at their maximum designed speed at all times. Variable speed control allows the
equipment to be set for what is necessary, less than 100%, and still meet the heating and cooling
demands.
7. Properly Specify and Size Your System
Achieving facility climate conditions while conserving energy relies on an appropriate HVAC
compressor and chiller size. Purchase enough tonnage and capacity for your systems based on
the temperatures demanded throughout the year. Major apparatus in small areas will run at
optimal speeds and consume large volumes of power, while a small unit is placed under strain
for larger areas, decreasing comfort – if the wrong size equipment is used. Different manual
offers correct analyses of insulation, wall, ceiling and floor areas, including possible leakage of
ducts.
8. Schedule and Maintain Equipment Properly
Ensure that HVAC systems and components are on a disciplined, time-based maintenance
schedule and that data is recorded promptly. Develop a standard HVAC maintenance checklist
that Includes, at a minimum, the following actions:
-Audit your HVAC size for the size and capacity of any equipment additions. Statistics have
shown that many contractors often incorrectly install oversize units. According to the ACCA, it
is better to install a smaller unit that can maintain the load. Larger equipment decreases energy
conservation, hikes utility bills and compromises air conditioner longevity.
-Clean and change air filters and check thermostat set points regularly. Optimal HVAC
efficiency is achieved with scheduled maintenance. Filters clogged by carbon particles and dirt
must be replaced, coils cleaned to minimize overheating, and wear on components
determined. Thermostat assessments can detect poor set points or faulty operation causing
constant energy consumption. Faulty thermostats require immediate fixing or complete
replacement to restore a comfortable, efficient space.
-Check for refrigerant leaks regularly. A leak will reduce the system’s effective operation and
lower its efficiency. If not repaired, the capacity of the system can be compromised and
permanent damage could result. When units are unable to deliver a powerful and efficient output,
compressors may be overworked because of leaks in the system. A careful assessment of leakage
within the unit and the system provides HVAC longevity as well as efficient operation.
-Check all drain and pan drip lines regularly. Should system condensate connections become
blocked, the excess moisture can migrate and spill out of drip pans, causing a multitude of
problems. An accumulation of water also increases risk of fungal growth and mold.
This eight-step approach to managing and maintaining your HVAC system will ensure optimal
performance, lower energy consumption and suitably meet the needs of your facility and its
inhabitants.
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