bobinyelm
Well-known member
Need some practical advice-
(Sorry for the length of the post)
I just had a 32X60 foot shop built in W. Washington where the winters are moderately cold and very damp (It's rained 101 days in a row here in the winter in past years). The building has 4 10X10 insulated overhead doors, and a man door and 3X4 window in the office end.
I had a vapor barrier (6mil poly) placed under the 4" slab floor to limit moisture coming up through the concrete. The slab was a month old when the building was constructed over it, but it had standing water the entire time.
The walls and ceiling have 2 1/2" (uncompressed thickness) insulation with white poly installed as a vapor barrier on one side on the exterior of the wood framing, (raw fiberglass against the metal, vapor barrier in) with the metal siding/roofing screwed over the insulation, compressing it to zero thickness where the insulation is sandwiched tightly between the wood and metal.
The entire wood frame was absolutely water-saturated when the insulation and metal was applied (if you hit ANY of the wood, water splattered out), and a 2X6 2ft long "cut-off" probably weighs 15 pounds. I did't use a moisture meter, but the wood was basically fully saturated almost like it had been submerged in a lake just due to weather conditions at the lumber yard and build site.
I squeeged out the standing water on the floor a month ago after the building was closed-in, but edges of the slab remain a dark, "wet" appearance-impossible for the concrete to actually dry. I placed a 150,000 BTU natural gas torpedo heater inside for 2 weeks set to about 70deg (it's been 40 degrees outside), but obviously it introduces combustion moisture from its exhaust, but it is all I have at the moment.
The result is that the majority of the wood appears MUCH drier, but the floor stays damp from condensation (it gets a tad drier if I turn off the heater for 24hrs), and ALL of the wood, where it is up against the plastic vapor barrier where the insulation is compressed to zero thickness, stays WET to the extent water droplets form at the junction of wood and plastic and if I run the heater, enough droplets form that it literally rains down onto the floor. The insulated steel doors have enough metal edges that water condenses and fills the door section bottoms, so when a door is raised, a good cup or more of water (condensation) rains down onto anything under the door as it is raised.
I've been running a dehumidier inside the building and removing at least 15 gallons of water a day from the closed structure, but the wood/vapor barrier interface stays fully saturated. Part was complicated by the fact the builder didn't run the roof screws down tight enough initially, and left a dozen or two holes where the screws missed the wood open, so it rained into the roof, much of which probably saturated the FG insulation before I got them back to properly screw and seal the holes. There was enough roof leakage to where there were huge puddles and drip-drip-drip leaks in the roof
I just obtained a 100k BTU NG furnace I plan to install when I get the building inspection finished. (digging the required dry well and hooking all the gutters to it in cold and mud have held things up, and I can't get a final inspection until the mandated $3000+ roof-gutter water evacuation system finished), then I need to get electrical and gas permits to install the furnace.
My question (Phew-I am getting there!) is whether my building will EVER dry out, and given that it was built with NO ventilation provisions (as is the custom here), whether it can become a healthy working environment for my auto repair shop. I am also concerned that the FG insulation and wood may sustain permanent damage from staying wet so long.
I've always had stick-built shops, but local building codes have driven the cost estimates for a stick building of this size up to $80,000+, and that is just the shell, with no insulation, sheet rock, wiring, or anything, so I allowed myself to be talked into the cheaper pole construction that will end up at about $50k including the mentioned insulation and insulated doors (that they wanted $2500 MORE than the $80k figure above) in a stick-built.
I'm looking for comments from anyone with a pole building like mine in a damp climate to see if they ever beat the moisture problems I didn't fully appreciate when opting for the pole construction, and if 100k BTU of dry air from the furnace (with intermittent opening of the 10X10 doors, and introduction of dripping vehicles into the shop, since vehicles are seldom if ever dry here).
Also, is there any way to ventilate the building w/o losing all my expensive heat? I've thought of trying to build a ceiling at the 12ft level along the bottom of the trusses (spaced 12ft apart) to keep the heat down inside the shop area, but I am told that the trusses they used won't support a ceiling and also the calculated snow load needed in my area without reinforcement (adding plywood gussets over the perforated self-piercing steel gussets the truss manufacturer used might allow me to do a ceiling I was told).
Any suggestions or comments welcome!
(Sorry for the length of the post)
I just had a 32X60 foot shop built in W. Washington where the winters are moderately cold and very damp (It's rained 101 days in a row here in the winter in past years). The building has 4 10X10 insulated overhead doors, and a man door and 3X4 window in the office end.
I had a vapor barrier (6mil poly) placed under the 4" slab floor to limit moisture coming up through the concrete. The slab was a month old when the building was constructed over it, but it had standing water the entire time.
The walls and ceiling have 2 1/2" (uncompressed thickness) insulation with white poly installed as a vapor barrier on one side on the exterior of the wood framing, (raw fiberglass against the metal, vapor barrier in) with the metal siding/roofing screwed over the insulation, compressing it to zero thickness where the insulation is sandwiched tightly between the wood and metal.
The entire wood frame was absolutely water-saturated when the insulation and metal was applied (if you hit ANY of the wood, water splattered out), and a 2X6 2ft long "cut-off" probably weighs 15 pounds. I did't use a moisture meter, but the wood was basically fully saturated almost like it had been submerged in a lake just due to weather conditions at the lumber yard and build site.
I squeeged out the standing water on the floor a month ago after the building was closed-in, but edges of the slab remain a dark, "wet" appearance-impossible for the concrete to actually dry. I placed a 150,000 BTU natural gas torpedo heater inside for 2 weeks set to about 70deg (it's been 40 degrees outside), but obviously it introduces combustion moisture from its exhaust, but it is all I have at the moment.
The result is that the majority of the wood appears MUCH drier, but the floor stays damp from condensation (it gets a tad drier if I turn off the heater for 24hrs), and ALL of the wood, where it is up against the plastic vapor barrier where the insulation is compressed to zero thickness, stays WET to the extent water droplets form at the junction of wood and plastic and if I run the heater, enough droplets form that it literally rains down onto the floor. The insulated steel doors have enough metal edges that water condenses and fills the door section bottoms, so when a door is raised, a good cup or more of water (condensation) rains down onto anything under the door as it is raised.
I've been running a dehumidier inside the building and removing at least 15 gallons of water a day from the closed structure, but the wood/vapor barrier interface stays fully saturated. Part was complicated by the fact the builder didn't run the roof screws down tight enough initially, and left a dozen or two holes where the screws missed the wood open, so it rained into the roof, much of which probably saturated the FG insulation before I got them back to properly screw and seal the holes. There was enough roof leakage to where there were huge puddles and drip-drip-drip leaks in the roof
I just obtained a 100k BTU NG furnace I plan to install when I get the building inspection finished. (digging the required dry well and hooking all the gutters to it in cold and mud have held things up, and I can't get a final inspection until the mandated $3000+ roof-gutter water evacuation system finished), then I need to get electrical and gas permits to install the furnace.
My question (Phew-I am getting there!) is whether my building will EVER dry out, and given that it was built with NO ventilation provisions (as is the custom here), whether it can become a healthy working environment for my auto repair shop. I am also concerned that the FG insulation and wood may sustain permanent damage from staying wet so long.
I've always had stick-built shops, but local building codes have driven the cost estimates for a stick building of this size up to $80,000+, and that is just the shell, with no insulation, sheet rock, wiring, or anything, so I allowed myself to be talked into the cheaper pole construction that will end up at about $50k including the mentioned insulation and insulated doors (that they wanted $2500 MORE than the $80k figure above) in a stick-built.
I'm looking for comments from anyone with a pole building like mine in a damp climate to see if they ever beat the moisture problems I didn't fully appreciate when opting for the pole construction, and if 100k BTU of dry air from the furnace (with intermittent opening of the 10X10 doors, and introduction of dripping vehicles into the shop, since vehicles are seldom if ever dry here).
Also, is there any way to ventilate the building w/o losing all my expensive heat? I've thought of trying to build a ceiling at the 12ft level along the bottom of the trusses (spaced 12ft apart) to keep the heat down inside the shop area, but I am told that the trusses they used won't support a ceiling and also the calculated snow load needed in my area without reinforcement (adding plywood gussets over the perforated self-piercing steel gussets the truss manufacturer used might allow me to do a ceiling I was told).
Any suggestions or comments welcome!
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