Energy
and HVAC Optimization
It’s talk about 30-40%
of your electricity bill. That's how much it costs the average homeowner or
commercial building owner to provide proper heating, ventilating, and
air-conditioning (HVAC). A good HVAC system is the key to maintaining a
comfortable, healthy and interior environment. Through the years, I have been
asked by many owners for a strategy to reduce their cost of energy and HVAC.
They don't want to sacrifice the interior environmental conditions, but they do
want a point-by-point plan to follow. The interesting thing that often happens
is that energy bills are lowered substantially and the HVAC system performance
is improved. This is a standard function of any mechanical engineer
specializing in energy and HVAC.
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The information on
this page will help homeowners, building owners and building operators make
informed decisions about existing HVAC systems or future upgrades.
Load Reduction
HVAC Systems
Control Systems
Operation and
Maintenance
Load Reduction
The first step to
achieve energy and HVAC system optimization is load reduction. This step
normally consists of a long range plan which itemizes the actions to be taken
based on best return on investment. Reducing your building load allows the
existing HVAC system to operate more efficiently. If a new system or systems
are being considered, it will be more cost effective to design for the reduced
load as opposed to the existing load. A few common load reduction strategies
include:
Tighten the building
shell and add additional insulation. Adding insulation in existing buildings
may not be achievable in some instances, so more consideration should be aimed
at the exterior shell, especially windows and doors.
Installing
energy-efficient windows. This is a big item on some buildings that still have
single pane windows. The installation of double pane windows with a thermal
break is a great return on investment. Make sure they are ENERGY STAR qualified
windows. Tinting or Low-E coatings will even be better.
Upgrading lighting
systems. The average commercial building has a lighting density of 2-3 watts
per square foot which maintains proper lighting levels. This is a significant
part of the HVAC load and almost any efforts in this direction will lower the
cooling requirement for the building. Accent lighting (sometimes called
architectural lighting) are not always energy efficient and should not be
considered if you want to reduce energy and HVAC costs. Energy-efficient
lighting systems emit less heat into conditioned space than older incandescent
technology. If you have a return air plenum instead of return air ductwork,
consider light twofers so that some of the heat from the lights is returned to
the HVAC system instead of going into the occupied area.
Selecting efficient
equipment and electronic devices that have a power saver option will reduce the
sensible heat gain in the space. Items to consider include copy machines,
kitchen equipment, computers and refrigerators.
Control ventilation by
having your outside air balanced. Most building owners have drawings of the
original HVAC system installation. Have the drawings reviewed by a mechanical
engineer to confirm your outside air flow rates conform to the latest code
requirements. If no drawings are available, your mechanical engineer should
still be able to make recommendations for improvement.
Addressing these items
is your first step to reducing energy and HVAC costs.
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HVAC Systems
The second step to
achieve energy and HVAC system optimization is knowing your system. Your HVAC
system is critical to your interior environment, but it also represents a large
component of your utility expenses. While it is beyond the scope of this
article to discuss every system, a few recommendations can be addressed. Every
HVAC system component has increased in efficiency over the years. If your
system is more than 13 years old, it's time to begin planning for an upgrade to
new equipment. Well maintained residential systems have a life expectancy of
about 15 years or so but seem to fail at the worse times. Have a replacement
plan ready for the day your equipment fails.
Commercial systems
vary, but if your building is using packaged equipment or split systems, the
same lifetime can be expected. For larger commercial systems and industrial
applications, the HVAC system may be more complex and require an individual
analysis by a mechanical engineer. As I said, HVAC systems vary and no
one-size-fits-all analysis works for larger systems. What all these systems
have in common is they are normally fueled by electricity. Electricity cost
money, so any efforts in the direction of increased efficiency is a plus
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