andyvh1959
Well-known member
Not in my garage, but thought I'd pitch this to the experienced here. My house is a early 70's trilevel here in Green Bay. My office and den area is on the slab.ground level. The basement of the house is only under the central living room area, 16 x 24, the rest of the first floor and attached garage are on the slab/ground. The house is near 3,000 sq ft so the gas forced air furnace is good sized. In the winter though the floor in the office/den can be quite, um, cool.
I plan to install a new wood floor over the concrete slab, using the new spacer panels that allow for tubing to be routed under the floor. The panels create an air gap between the concrete slab and the new floor, which itself may improve the floor temperature. My idea is to use a heat exchanger in the ducting in the basement, to heat glycol flowed through the tubing under the wood spacer floor. I can get access to the ducting in the basement and run PEX through the wall at the floor level of the office/den. The floor level of the office/den is slightly higher than the level of the hot air ducting in the basement. So, like a passive hot water heat system in my 1st house, the thermal delta from bottom to top of the system is enough to create fluid flow without a pump. A heat exchanger in the ducting should warm the glycol easily above the current floor temperature, at least enough to provide a much warmer floor than is current in the winter. The heat exchanger could even be a larger heater coil from a large car.
However, since the house was built in the 70's, I'm certain there is no insulation under the slab. The soil here is very sandy, so I'd bet the soil was graded to suit the slab, and the concrete simply poured over the sand. So unless I can get a significant heat gain into the floor I wonder if it'd even be worth the effort. The area to heat the floor is only about 520 sq ft. Thoughts?
Ideas? Worth it?
I plan to install a new wood floor over the concrete slab, using the new spacer panels that allow for tubing to be routed under the floor. The panels create an air gap between the concrete slab and the new floor, which itself may improve the floor temperature. My idea is to use a heat exchanger in the ducting in the basement, to heat glycol flowed through the tubing under the wood spacer floor. I can get access to the ducting in the basement and run PEX through the wall at the floor level of the office/den. The floor level of the office/den is slightly higher than the level of the hot air ducting in the basement. So, like a passive hot water heat system in my 1st house, the thermal delta from bottom to top of the system is enough to create fluid flow without a pump. A heat exchanger in the ducting should warm the glycol easily above the current floor temperature, at least enough to provide a much warmer floor than is current in the winter. The heat exchanger could even be a larger heater coil from a large car.
However, since the house was built in the 70's, I'm certain there is no insulation under the slab. The soil here is very sandy, so I'd bet the soil was graded to suit the slab, and the concrete simply poured over the sand. So unless I can get a significant heat gain into the floor I wonder if it'd even be worth the effort. The area to heat the floor is only about 520 sq ft. Thoughts?
Ideas? Worth it?