Take a tape measure into your attic and measure the depth of your existing insulation.
A little known fact is that most homes are built with the minimum required insulation by local building codes. Even new homes don't have an optimal level of insulation. When energy was cheap, home insulation was less of a concern. The older your home, the higher potential for dramatic energy loss exists.
As you can see by the map and chart below, our area is in Zone 2 and we recommend a minimum of R-38 for the attic to provide appropriate, energy-saving insulation levels for your home. If you have less than14 inches of insulation in your attic (14"=R-38), it is safe to say you are spending more money on energy than you should. If you don't measure up, contact us for a free quote.
R-Value Recommendations:
The Dallas area is in insulation Zone 2
We recommend a minimum of R-38 for attics
R-38 equals approximately 14" of insulation
Definition of R-Value
The measure of resistance to heat flow. Insulation materials have tiny pockets of trapped air. These pockets resist the transfer of heat through material. The ability of insulation to slow the transfer of heat is measured in R-values. The higher the R-value, the better the insulation material's ability to resist the flow of heat through it.
How Insulation Works: It Resists Heat Flow
To maintain comfort in your home, the heat lost in winter must be replaced by your heating system and the heat gained in summer must be removed by your air conditioner. Insulating ceilings, walls, and floors decreases this heat flow by providing an effective resistance to the flow of heat.
Heat flows naturally from a warmer to a cooler space. In winter, heat flow moves directly from heated living spaces to adjacent unheated attics, garages, and basements, or to the outdoors; or indirectly through interior ceilings, walls, and floors – wherever there is a difference in temperature. During the cooling season, heat flows from outdoors to the house interior.
Most Common Types of Attic Insulation
Fiber Glass
Fiber glass loose-fill insulation is an extremely effective insulating material because its fibers prevent air movement and the resulting heat loss to resist the flow of heat and cold. It is designed for use in attics and hard-to-reach locations such as corners, nooks and crannies. It is installed dry, and because it will not settle over time, maintains its full R-value over the life of the home. Fiber glass loose-fill insulation is fed into a pneumatic blowing machine and blown under high pressure through a long flexible hose into the attics and walls. Although homeowners can rent blowing machines, it is typical practice to have blown in insulation installed by a professional.
Rock and Slag Wool
Rock wool (or slag wool) loose-fill insulation is similar to fiberglass except that it is spun from blast furnace slag (the layer of impurities that forms on the surface of molten metal) and other rock-like materials instead of molten glass. The production of rock wool uses by-products that would otherwise be put in a landfill. Rock wool insulation is well suited for locations where it is difficult to install other types of insulation, such as irregularly shaped areas, around obstructions (such as plumbing stacks), and in hard-to-reach places. Blown-in loose fill insulations are particularly useful for retrofit situations because, except for the holes that are sometimes drilled for installations, they are one of the few materials that can be installed without disturbing existing finishes. Rock wool is installed dry, and because it will not settle over time, maintains its full R-value over the life of the home.
Cellulose
Cellulose is made from ground-up newspapers. It is treated with fire retardants, some of which have been known to cause corrosion of wiring and pipes. The product settles significantly over time and must be over-installed to compensate for this settling. All loose-fill insulations are required to detail their installed and settled thickness on the bag label to let consumers know the expected settled R-value. Cellulose is applied using a mechanical blowing machine. In an attic, cellulose is not typically installed above an R-30 because its weight can cause sagging of the drywall. Most energy codes now call for R-38 to R-49 in attics.
Why We Install Blown Fiberglass Insulation vs. Cellulose
Issue
Fiberglass
Cellulose
Settling & R-Value
Settling = Less R-Value
Properly installed fiber glass batts and rolls do not settle. Fiber glass loose-fill insulation will experience negligible settling (less than 2%) over time. When manufacturers’ installation procedures are employed, fiber glass insulation maintains its thermal performance for the life of the building.
Cellulose manufacturers agree that
their products settle over time. Most set the settling rate at about 20%. Therefore, always consult the “minimum settled thickness” and the “initial installed thickness” listed on the cellulose manufacturer’s coverage chart, which is required by the FTC, to ensure future settling is accounted for.
Fire Safety
Fiber glass insulation is made from
sand and other inorganic materials which
are melted and then spun into glass
fibers. Fiber glass is naturally
noncombustible and remains so for the
life of the product. It requires no
additional fire-retardant chemical
treatments. Unfaced fiber glass insulation
is recognized by building code groups as
an acceptable fire stop in residential
wood frame walls.
Cellulose insulation is made of
ground-up or shredded newspaper
which is naturally combustible. In fact,
cellulose insulation is regulated as a
recognized fire hazard by the Consumer
Product Safety Commission (CPSC).
To protect against fire hazards, cellulose
insulation is heavily treated with fireretardant
chemicals prior to installation.
These fire-retardant chemicals can leach
out of the cellulose insulation over
time. Tests conducted by the
California Bureau of Home Furnishings
and Thermal Insulation have
demonstrated that some cellulose
samples failed the standard fire safety
test only six months after installation.
Additionally, smoldering combustion
and re-ignition problems are concerns
with cellulose insulation should a fire
start. Even properly treated cellulose
insulations will burn at about 450°F, the
surface temperature of a 75 watt light
bulb.
Use of Recycled Materials
Between 1992 and 2008, the fiber
glass insulation industry recycled over
18 billion pounds of pre- and postconsumer
glass containers, eliminating
the need for millions of cubic feet of
landfill space.
Many fiber glass insulation
manufacturers have plants that use up
to 40% or more recycled materials in
their products. The current industry
average is 30% recycled content.
Manufacturers are currently exploring
ways in which their use of recycled
materials can be increased without
compromising the performance of their
insulation products.
Cellulose insulation is generally
made up of about 80% recycled
newspaper and 20% fire-retardant
chemicals. Three times more cellulose
material by weight than fiber glass is
needed to insulate a typical home. An
average 1,200 square foot attic insulated
to R-38 with cellulose insulation would
introduce 300 pounds of fire-retardant
chemicals into the home.
Water Vapor Sorption
Insulation made of fiber glass is not
absorbent.
Under normal
conditions, all
insulation is
exposed to
humidity in the
air. Fiber glass
will not wick
up and hold water, thus it resists
permanent loss of R-value. Because it is
inorganic, it is naturally fire resistant. If
fiber glass insulation becomes saturated
as the result of flooding or other
catastrophic events, the manufacturer of
the product should be consulted to
determine whether the product should
be replaced.
Cellulose insulation is made of
shredded newspaper with an added fire
retardant. Two relevant properties of
shredded newspaper are as follows:
(1) without special treatment it will
burn; and (2) it naturally absorbs
moisture from the air. This can result in
the cellulose insulation losing its added
fire retardancy as it ages. Cellulose
insulation that is saturated because of a
flood or other catastrophic event can
lose its fire retardants, and even if it can
be dried, it should not be reused without
consulting the product’s manufacturer.
Mold Growth
Fiberglass is inorganic, mold cannot grow in or on it.
Cellulose is organic, cellulose itself is a food source for mold.
Resistance to Corrosion
Fiber glass insulation is not corrosive
and contains no chemicals that can
corrode pipes and wires.
Certain chemicals routinely applied
as a fire retardant to most cellulose
insulation (particularly the sulfates) can
cause the corrosion of pipes, wires, and
fasteners under some conditions.
Bug Proof
Fiberglass being inorganic is bug proof. It will not attract bugs as food source
Cellulose being organic has to be treated with insecticides which will wear off.
Safety Tested
Fiber glass insulation is the most
thoroughly tested insulation material in
use today. The great amount of medical
scientific evidence compiled over more
than 70 years by industry, government,
and independent research organizations
supports the conclusion that fiber glass
insulation is safe to use when
manufacturers’ recommended work
practices are followed.
Questions about the health and safety
aspects of cellulose insulation persist in
the building industry because very little
medical scientific testing of the products
has been conducted. Repeated requests
by union and contractor groups that
such testing be undertaken have been
ignored. Full toxicological testing of
dust from cellulose building insulation
and indeed dust from pure cellulose
fibers as well is needed. Given the high
levels of exposure to fibers and dust
measured during cellulose installation,
only after long-term experiments are
available will the safety of cellulose
insulation be known.
Why We Use Attic-Guard Plus Virgin Fiberflass Insulation
Attic Guard plus insulation is a white virgin insulation which means it contains no formaldehyde additives that will emit a toxic gas into your home.
In Texas, the payback period depends on the insulation levels, efficiencies of the HVAC units and the average temperature you condition your home. Texas payback time will range from 3 to 4 years.
Attic Guard plus has a Greenguard certification meaning:
It is made with 35% recycled glass.
It is made from Silica sand, a virtually inexhaustible resource.
This product saves 12 times the energy used to produce it in the first year of installation.
It contains no, toxic gas emitting, chemical binding agent that will turn it pink or yellow.
It complies with CA 01350 for testing of chemical emissions, rendering safe to use in any school system construction.
We provide Cooling, Heating, Installation, Repair & Maintenance in Wharton, Fort Bend and surrounding counties.
