 |
      |
|||
|
||||
When Weatherization Meets WeatherBruce Manclark of Delta-T, in Eugene, Oregon, and John Krigger of Saturn Resource Management, in Helena, Montana, were offering training in weatherization techniques, insulating underneath the roof of a mobile home. They unscrewed the roof on one side and lifted the edge to access the ceiling cavity with a blowing tube. When they left for the day, they didn't bother to screw down the ten feet of J-Rail (the strip that attaches the roof to the wall), because they knew they'd be back in the morning. That night, 60 mph winds came up and lifted the unfastened side of the roof. The occupants called 911, not understanding that the banging sound they heard was caused by a 60 ft x 14 ft piece of sheet metal flapping against their house.Moral:
While Krigger's and Manclark's experience resulted from circumstances exceeding any reasonable person's expectations, some retrofit goofs stem more from a shortage of common sense. Andy Padian of the New York City Weatherization Coalition tells how his brother's house had three 4 ft x 4 ft bypasses in the attic. When the utility company sent a crew out to insulate the attic, they put fiberglass around the edge of each bypass and taped it, so they would not blow the cellulose into them. But they didn't seal the bypasses. Andy's brother's heating bills actually rose after the job was completed. The company also blew cellulose over the knob-and-tube wiring, creating a fire hazard. Moral:
Fireside TalesAlthough cellulose is treated to resist fire (see "Cellulose Insulation: Not Like Paper and Fire," HE Jan/Feb '91, p. 29), weatherizers still need to keep any insulation off of heat sources.Once when Rob deKieffer of Sunpower, in Wheat Ridge, Colorado, was blowing cellulose insulation into the corners of a low-pitched roof, he didn't notice a recessed downlight in the bathroom ceiling. (Walking through the house and counting recessed fixtures is the best way to avoid such surprises in the attic.) The insulation reached the light and ignited, setting the roof on fire. Fire fighters had to rip the entire roof off.
Moral:
A member of a volunteer insulation team in Pittsburgh had looked very carefully for existing heat sources, but she didn't realize that she'd brought one with her. She was lying in the cap of an attic, blowing cellulose. Her trouble light was on the floor next to her, and it was momentarily buried in cellulose a few times. Though she did remember to turn off the light when she left the job, it had generated enough heat to cause a fire. One of the crew working downstairs saw smoke and thought it was cellulose dust, but when she went up to check, she found a fire. The fire department arrived and chopped a 4-ft hole in the ceiling, giving the insulation team a little more work. As the team repaired the hole the next day, they had a blower door running at low speed to keep the smoke smell out of the house. The blower door did its job so well that, when the fire chief came to inspect the house, he was amazed by the complete absence of smoke damage. Several factors may have contributed to the fire. The old fiberglass insulation had flammable kraft facing. Cellulose had been blown in years before and may not have been fire rated. A blower door was being used to pressurize the house to keep out the cellulose dust, and it created air flow through the attic. The trouble light's broken 75W bulb had been replaced with a 100W bulb, making it create even more heat than usual (she now uses a fluorescent light). And the roof was only two feet from the floor at the highest point, reflecting heat back into the tight space.
Moral:
Cellulose is fire-resistant, so it rarely causes fires and sometimes even serves to dampen them. Ben Brogoitti of Sun Power recalls how dense-pack cellulose installed in the flat roof of a ranch house actually extinguished a fire caused by faulty wiring. Tom Wilson of Residential Energy Services in Fairchild, Wisconsin, has a similar story. When he and his crew at Northwest New Jersey Community Action Program first started using cellulose insulation back in the mid-1970s, they had been taught to use the dense pack sidewall method. They were called in to insulate a small fire-damaged cottage. The fire had started with a wood stove in the basement and had rapidly consumed most of the gable end sidewall above it. Wilson and his crew packed the newly rebuilt wall as well as the undamaged walls with cellulose. Several months after they'd finished the job, the house had another basement fire, starting this time with the furnace beneath the opposite gable end wall. The second fire burned the floor above the furnace and scorched the wall studs, but it did not travel up the wall, thanks to the dampening effect of the cellulose insulation. That was 20 years ago. Wilson says that he has become much more aware of health and safety issues since then. If he were to go into the same house now, he would make sure that the contractor rebuilding the wall installed fire-resistant material above the furnace's flue stack, since the flue was too close to the floor joists above it.
Moral:
Bright Ideas
Eddy Haber of the Illinois Department of Commerce
and Community Affairs and Paul Knight of Domus Plus, in Chicago, were testing
techniques to insulate floors in mobile homes when Haber had a great idea.
Why not attach a sheet of Tyvek to the bottom of the mobile and fill it
with cellulose? So they secured the Tyvek to the trailer with 1 x 2s, blew
in the insulation, and left the site to eat lunch. When they returned,
the belly of the mobile home was sagging to the ground. So they got some
chicken wire and placed it under the Tyvek to pull it up against the mobile
home's undercarriage. A week later, they got a call: the insulation was
wet, because it had absorbed moisture through the Tyvek. (Tyvek blocks
air while allowing water vapor to pass, but it will trap water in its liquid
form. It is designed for vertical, nonload-bearing use as an air barrier.)
|
||||||
 |
