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HVAC INSULATION- One of The Keys to a “HEALTHY BUILDING". Glenn Brower ASHRAE Technical Comm. Member Knauf Fiber Glass. Indoor Environmental Quality. LIGHTING QUALITY. AESTHETICS. AIR PURITY. ACOUSTICAL COMFORT. THERMAL COMFORT. THE ROLE OF HVAC INSULATION IN IEQ.
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HVAC INSULATION- One of The Keys to a “HEALTHY BUILDING" Glenn Brower ASHRAE Technical Comm. Member Knauf Fiber Glass
Indoor Environmental Quality LIGHTING QUALITY AESTHETICS AIR PURITY ACOUSTICAL COMFORT THERMAL COMFORT
THE ROLE OF HVAC INSULATION IN IEQ • Thermal - helps to deliver air at the design temperature, save energy and minimize condensation • Acoustical - helps to reduce sound down the ducts, breakout noise, crosstalk • ventilation - can insulate without contributing to indoor pollution • aesthetics - depending on application, can be finished to blend in
THERMAL COMFORT AIR TEMPERATURE AIR QUANTITY & VELOCITY
THERMAL PERFORMANCE OF DUCT INSULATIONS • Both internal and external insulations can deliver required R-values • R-values should be specified based on installed thickness • Duct Wraps are installed with 25% compression • Most codes specify R-values based on ASTM C518 or C177 testing • no air film benefits are allowed • Radiant barrier insulations tested at high delta T’s will not deliver R-value in duct applications
DUCT THERMAL PERFORMANCE • Temperature Drop or Gain can drive insulation above code requirements • example, 305mm x 610mm duct, delivering air at 12.50 C, at a velocity of 305 meters/min over a length of 30 meters in a space at a temperature of 270 C, would have the following temperature gains: • uninsulated, ~ 40 C • insulated to R-0.74 m2-C/W, ~ 0.80 C
DUCT THERMAL PERFORMANCE • Condensation Control - eliminating sweating as a contributor to mold growth
AIR FLOW CONSIDERATIONS WITH INTERNAL LINED SYSTEMS • The use of any type of material on the inside of a sheet metal duct will have some type of associated friction loss • friction loss can be calculated from surface absolute roughness factors galvanized steel, 1.22 m joints 0.091 mm galvanized steel, 0.61 m joints 0.152 mm fg liner with mat-faced airstream 0.914 mm fg liner with coated airstream 3.048 mm
COMPARISON OF FRICTION FACTORS FOR DIFFERENT ABSOLUTE ROUGHNESS COATED MAT OR FLEX DUCT LINER W/ MAT BARE METAL Pressure loss is linear with friction factor Pressure loss is linear with Hydraulic Diameter 4A/P Pressure loss is the square of velocity, a factor of 2 in f = 30% velocity loss
ACOUSTICAL COMFORT Duct Breakout & Breakin Duct Attenuation Loss Duct Rumble
Air Ducts Are “Speaking Tubes” • Direct energy through a very focused area. • Carry equipment noise, damper noise, and other duct noise. • Can generate their own noise through expansion, contraction, or air velocity. • Carry office noise from interconnected spaces.
ACOUSTICAL PERFORMANCE OF HVAC INSULATION • Attenuation: measure of sound dissipation as it travels down the duct. Typically measured as insertion loss - ASTM E477 STANDARD DUCT SECTION - NO TREATMENT TEST DUCT SECTION - ACOUSTICAL TREATMENT The difference is insertion loss, dB per linear dimension
THE ABILITY OF DUCT LINER TO PROVIDE ATTENUATION • ASHRAE Applications, Sound and Vibration Control gives data on effectiveness of duct liner over a large range of rectangular duct sizes • insulation thickness is the primary driver for attenuation • product density is an insignificant factor • as duct size increases, effectiveness of internal lining is diminished
IF ATTENUATION IS THE GOAL, HOW DO YOU SPECIFY WHAT YOU WANT? • Unless all duct sizes are the same, don’t specify internal liner by dB/meter or dB’s at the target • changes for every duct dimension change • does the contractor include ells and other fittings? • Specify internal liner by sound absorption • gives an easy way to compare materials
SOUND ABSORPTION TESTING • Uses the Reverberation Room (ASTM C423) method, which measures ability to absorb random incidence sound • 6.69 square meters of test material in the room • The mounting method plays a large part in the values obtained • for repeatability, duct liners should be tested using the Type A mounting • Test yields absorption values for each freq. band, also calculates an average, NRC
HOW CAN SOUND ABSORPTION CAN BE RELATED TO DUCT ATTENUATION? Relationship between absorption & attenuation is nearly linear ~ 10 Relationship between absorption & attenuation is nearly linear ~ 7.5
DUCT RUMBLE, BREAKOUT & BREAKIN NOISE • Thermal insulations do not have enough mass to be effective over most frequencies • Flexible insulations in combination with mass can be helpful • for round ducts, can be directly attached, for rectangular, both the insulation and the mass should be physically separated from the duct
NOISE CONTROL FOR EQUIPMENT AND PIPING • Rigid insulation materials tend to pass the majority of vibrating energy right through with minimal attenuation. • Fibrous insulation is a much better attenuator. In specific applications one may have to install fibrous insulation over rigid insulation. • For extra attenuation, use multi-layered fibrous insulation with hard septums between layers.
AIR PURITY PARTICULATE MATTER VOC EMISSIONS BIOLOGICAL CONTAMINANTS
PARTICULATE MATTER - THE ROLE OF INSULATIONS • External duct insulations should not contribute to dust levels in the occupied space • Internal duct insulations are designed to be non-contributors when properly installed • FG duct liners are tested at 2.5 times rated velocity, including an elbow without vanes, to assure that they can withstand air velocity abuse • numerous studies have shown fiber levels to be at background levels
TOUGHNESS OF INTERNAL INSULATIONS • The Surfaces of FG Liners will also take “normal” abuse from cleaning procedures • soft brushes or air washes will not damage the airstream surface • cutting into the duct should be done carefully so as not to damage the insulation • closing the duct after cleaning is also critical for future integrity
1994 BUILDING CONSTRUCTION INDUSTRY ADVISORY COMMITTEE STUDY • Evaluated duct cleaning methods for effectiveness in cleaning the duct surface and improving indoor air quality • contact method (conventional vacuum cleaning) • air sweep method (compressed air through a nozzle) • mechanical brush method (rotary brush in combination with vacuum collection)
BCIAC STUDY RESULTS • Studied 8 identical homes in a single neighborhood, 2 homes for each method and 2 controls • Results: • particle count readings were higher during cleaning than before or after cleaning • cleaning did not lead to higher indoor fiber counts • air sweep method showed the greatest reduction in bioaerosol concentration, although none caused significant improvement
HVAC INSULATIONS AND BIOLOGICAL CONTAMINANTS • FUNGAL GROWTH • requires both moisture and nutrients • dirt and fungal spores are present almost everywhere, therefore they will inevitably be deposited on duct surfaces • this is true regardless of the nature of the duct surface • the only way to minimize this deposition is through the use of better filtration
THE ROLE OF WATER AND FUNGAL GROWTH IN HVAC SYSTEMS • Moisture is the essential element required for fungal growth • Studies in static environmental chambers have shown that fungal growth will initiate at RH>=65% • Field studies in buildings where RH is regularly >65% show that fungal growth is rare
DUKE UNIVERSITY STUDY • Duke University - extensively studied 6 buildings in the Piedmont region • Heavy deposition of dirt and fungal spores on all surfaces inspected • no fungal growth on fresh air intakes, hot deck surfaces or hot deck air distribution surfaces • no evidence of fungal growth on the cold deck of dual-deck systems wherever intake air was preconditioned • it is the condensation of water on surfaces at dew point that have fungal growth
USE OF BIOCIDES AND ENCAPSULANTS WITH INTERNAL INSULATIONS • All FG internal insulations are already treated to be fungal and bacterial inhibited • when dry, these products will not sustain fungal growth • It is very difficult to get significant coverage of the air stream surface except where it is directly applied and visually confirmed • small areas of repair that can be directly reached may be effectively coated
BIOCIDES AND ENCAPSULANTS (CONT.) • Application of these materials could have human health consequences • Fire safety consequences - none have been tested in combination with the insulation, and quantity will be difficult to control • Long term effects - may degrade integrity of air stream surface, definitely voids mfr’s warranty • These treatments are not recommended for FG except for very limited spot repairs
VOLATILE ORGANIC CHEMICAL EMISSIONS • VOC’s are increasingly recognized as significant contributors to poor indoor air quality • Insulation materials, including duct insulations, have long been tested for VOC emissions and shown to be very low contributors • meet US EPA indoor emission requirements, State of Washington, State of Alaska, and State of California requirements
THE PRACTICALITY OF ZERO VOC EMISSION MATERIALS • Many materials in the interior spaces of buildings emit VOC’s • Each VOC has a normal partial pressure that is a function of RH and temperature • if there are multiple sources of a VOC each will contribute until the partial pressure is reached • some materials that contain a VOC may actually act as a sink in the presence of stronger sources • Zero emitting materials in the presence of high emitters makes no sense
HOW CAN A SPECIFIER ADDRESS LOW VOC EMISSIONS? • Follow the guidelines of the US Green Building Council • the LEED design system addresses low emitting sources • There is a independent, recognized certification body that addresses all type of building materials and furnishings • Greenguard is very much like Underwriters Laboratories • Greenguard is recognized by LEEDS for maximum points
SUMMARY • Thermal benefits • radiant effects are not applicable for most ducts • Acoustical benefits • tradeoffs to cellular non-fibrous materials carry a severe acoustical penalty • Minimal air quality issues in well designed systems • water is the issue, design to prevent it • filtration selection & maintenance will minimize any need for cleaning
REFERENCE RESOURCES ON ALL ASPECTS OF INSULATION AND IEQ • NORTH AMERICAN INSULATION MFR’S ASSOCIATION • www.naima.org • Knauf Fiber Glass - www.knauffiberglass.com • brad.omlid@knauffiberglass.com, • glenn.brower@knauffiberglass.com, 317-398-4434, x8801 • ASHRAE Handbooks