Hawk Restoration Attic and Basement Mold Removal Services
Park Ridge Insulation, IL
Park Ridge is a city in Cook County, Illinois 15 miles northwest of downtown Chicago It is a part of the Chicago metropolitan area, bordering two northwestern neighborhoods of Chicago As its name suggests, Park Ridge lies on a ridge. The soil is abundant with clay deposits
Common Symptoms: If your home experiences any of these problems, it might be a good candidate for an attic insulation project:
Hot or cold ceilings, walls, or whole rooms; uneven temperature between rooms
High heating or cooling bills
Ice dams in the winter
Demographics: 2010 census 37,775 people The population density was 5,374.6 people per square mile (2,074.7/km²) median income for a family was $110,842 Places to visit:
Main auditorium theater
Park Ridge Public Library
A good, quick way to check if you need insulation in your Park Ridge Home is to look across your attic floor. If the existing insulation comes up just to the tops of the joists, then you probably need to add insulation. If you can’t see the joists and the insulation is well above the tops of the joists, you’re probably okay and you won’t recoup the cost of adding more.
BENEFITS: Savings in Energy and Money in Park Ridge Home
The attic is usually where you can find some of the largest opportunities to save energy in your home. By adding insulation in your attic, you can maintain the desired temperature throughout your home much better. Combined with attic air sealing, it can also help to alleviate the formation of dangerous ice dams in the winter.
Add attic insulation to lower heating and cooling costs by as much as $600 per year.
HOW INSULATION WORKS IN Park Ridge Home To understand how insulation works it helps to understand heat flow, which involves three basic mechanisms -- conduction, convection, and radiation. Conduction is the way heat moves through materials, such as when a spoon placed in a hot cup of coffee conducts heat through its handle to your hand. Convection is the way heat circulates through liquids and gases, and is why lighter, warmer air rises, and cooler, denser air sinks in your home. Radiant heat travels in a straight line and heats anything solid in its path that absorbs its energy. Most common insulation materials work by slowing conductive heat flow and to a lesser extent convective heat flow. Radiant barriers and reflective insulation systems work by reducing radiant heat gain. To be effective, the reflective surface must face an air space.