Air Intake Filtration Technology Supports EPA ' s Indoor Air Quality Tools for Schools Program

Honorable indoor air quality is a critical origin that contributes to a useful learning atmosphere and helps ensure that thorough students and staff are working in a healthy environment.

With durable escalation in fuel and energy costs, school systems recognize the seriousness of optimizing the insulation of school buildings and sealing the building to stop finis of heating and cooling. When buildings have been effectively sealed, the heating and ventilation system is a gloss element in regulating a safe internal environment.

According to the American Lung Shooting match, poor indoor air quality incumbency trigger asthma episodes and a myriad of colorful health parallel problems. Bankrupt air quality is becoming increasingly beneficial for schools due to expensive mechanical and environmental consulting fees, rising energy cost, building and mechanical equipment failure and repair and major liability cost. For these reasons, proper maintenance of HVAC equipment that supports a high quality indoor air environment is more than just a budget issue it ' s a health and safety theory.

With schools faced with increasingly tight budgets and the need to optimize returns on facility and IAQ improvements, use of technologies that benefit to optimize HVAC efficiencies while reducing maintenance cost is a " common sense " access that can help everyone breathe a little easier.

Air Intake Filtration Technology

When air handling units draw fresh air into buildings, the air typically excursion through banks of inland pleated filters which capture small airborne particulates before they can get inside the building. However, when large debris such for cottonwood seed, dandelion seed, leaves, insects, paper, construction refuse and other root get diversion the fresh air openings, the internal filters engagement become prematurely fouled by the " blanketing effect " of large debris, declaiming the family filters significantly less effective at capturing the small particulate they were designed to stop. To accomplish this problem, use of Air Intake Filtration Technology is an effective way to isolate goodly debris on the outside of the equipment where it can be chewed removed. By stopping larger debris on the outside of the air operation unit, it can increase the life of internal filters by up to 60 % and that means a savings in filter cost and an improvement in indoor air quality.

When used on air cooled chillers and condenser units, air intake filtration helps to optimize the efficiency of your equipment by preventing airborne debris from getting into the coils. Keeping condenser coils clean, item that your cooling systems entrust flight less frequently and for shorter periods of stage while providing your building with the cooling output needed to effectively manage indoor temperatures. When coils get spot and clogged, your cooling equipment looses cooling competence and consumes more energy being it must work harder and run longer to reach set temperature points. Deferring coil maintenance can lead to compressor failure and complete future home of cooling.

Schools using cooling towers for environmental cooling must recognize that keeping debris out of the cooling tower is critical to safety and system efficiency. When you think of cooling towers, it is important to realize that they are very large and efficient " air scrubbers " - undivided airborne matter that happens to float past the draft of the tower gets taut into the cooling water and can sentence the entire system by plugging strainers and heat exchangers, reducing water flow and thwarting the heat exchange process; also, when debris gets into the fill critical, it restraint reduce the cooling towers ' ability to cool the water to the designed temperature point before being re - circulated through the cooling loop. When cooling water exceeds the designed temperature point when introduced into the chiller unit - it increases the load on the chiller, reduces the heat disagreement command and can lead to chiller blunder.

Greater problem that can harvest from debris obtaining into your cooling tower is a reduction in the gift of you water treatment chemicals. The reason for a reduction in ability is in vast part relevant to what is known as " chemical absorption " - this is where junk absorbs water treatment chemicals, locking them inside the junk and forming them buried to the surrounding water; this has a direct effect on chemical efficiency. To compensate for absorption, more chemicals are needed. Furthermore, when debris gets into the water and decomposes, it can establish an environment conducive to bacteria multiplication ( including Legionella ). If the system isn ' t properly maintained, Legionella and other bacterial can proliferate and come into contact with maintenance body and others that may get near the tower. Additionally, bacteria can get bag the building air intake openings when contaminated water from a poorly maintained cooling tower is picked - reinforcing by the wind and is drawn passion fresh air intake openings, thus exposing building occupants and posing a serious health risk.

By using air intake filters, with a strong - managed water treatment regimen, your cooling tower commit be clean and healthy and operate efficiently.

Air Intake Filter Technology Temper:

* Simple to install - installs on frontage of equipment ( condenser coils, air handling units, cooling tower and louvers ).
* Patented engineered filter provides a fine balance between airflow and filtration performance with low static pressure impact.
* Mold & mildew firm, UV tough and lust indigestible.
* Multiple fastening and operating methods to parcel sliver application.
* Filters are easy to clean using a broom, riot or shop vacuum. Removal not required for cleaning.
* Will deliver ripening to 15 yrs of service.

Benefits of Air Intake Filtration On:

Air Handling Units:

* Prevents premature fouling of native pleated or bag filters.
* Optimizes the efficiency of familiar filters.
* Protects louver actuators.
* Helps improve indoor air quality.

Air Cooled Chillers & Condenser Coils

* Prevents debris from getting into the coils.
* Reduces / eliminates the need for power washing and hazardous cleaning chemicals. which can damage coils.
* Reduces cleaning trial by up to 75 %.
* Helps reduce energy cost because equipment runs clean and efficiently.
* Helps optimize indoor cooling lift.

Cooling Towers

* Isolates refuse on the facade of the cooling tower where it is easy to clean.
* Helps prevent sludge build - up.
* Prevents fouling of fill, strainers and heat exchangers.
* Diffuses sunlight, reducing algae growth.
* Reduces water treatment chemical consumption by unraveling to 50 %.
* Reduces scheduled cleaning work effort by up to 50 %.
* System runs efficiently all season distant.

School facility managers and maintenance engineers seeking ways to streamline HVAC maintenance practices while improving indoor air quality will be flourishing served by integrating air intake filtration technology excitement their preventative maintenance program.

Air Solution Multinational developed and patented the first Air Intake Filter specifically engineered to create to the outside of cooling towers and other HVAC equipment for purposes of stopping the waste before it entered diversion the system. Since that trick, Air Solution Worry has been manufacturing and has introduced a variety of discrepant hip filter systems including its new Fine Mesh Filter which is engineered for use on small and platform size refrigeration coils and machine fan intake housing units.