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Posted: Apr 12, 2008 08:37 PM	definition of insulation terms & calculations the rate of measurement for construction insulation is the amount of heat flow through one square foot, per hour, per degree (f) of temperature differential. this btu is expressed in either "K", "C","F",or "U" values... "C" Factor(thermal conductance): the measurement of heat flow through any single material greater/less than 1" is expressed: C=K/T... (note:K & C are the same for one inch of material)Example: if insulation thickness is required to meet C = 0.10, the calculation for polyurethane spray foam thickness would be as follows: T = K/C = 0.16/0.10 = 1.16 inches... "K" Factor(thermal conductivity): the heat flow measurement through one inch of any single homogeneous material, by lab tests is written: "K" = BTU/(hr)(sq. ft.)(F/inch)... BTU (british thermal unit): the amount of heat required to raise the temperature of one pound of water one degree F. Btu equivalents: 1 therm=100,000btu 1 watt = 3.413 btu 1 kilowatt = 3,413 btu(aint math great?)1 cu ft of natural gas = 1,000 btu 1 gallon of fuel oil = 140,000 to 150,000 btu 1 lbs coal = 7,000 to 14,000 btu 1 cu ft mfg gas = 500btu... "U" Factor (overall coefficient of heat transmission): after total thermal resistance (RT) of the system is determined, the U value (or heat flow) can be calculated as follows: U=1/(RT) the U value is the measure of btu that will flow through a composite system (wall-floor-roof) per hour, square foot or surface, degree F temperature difference between the two sides fo teh system. U= btu/(hr)x(sq ft)x (degree F)... "R" Factor (thermal resistance): since K and C values change and become lower as the material insulation value increases, it is imposssible to add K and C values. therefore, R is the reciprocal of C, and is determined by dividing C into One, or by dividing the materials K factor into its thickness ("T") ,,,, R=1/C or R=T/K to find insulation thickness needed to achieve a specific r-rateing use formula: T=RxK,,, each material in a roof or wall assembly has a resistance value which, when added together, obtains the composite system's total resistance to heat flow... R1+R2+R3+R4+R etc = R total sunspots baby..sure had a real good time...

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Posted: Apr 12, 2008 08:37 PM

definition of insulation terms & calculations

the rate of measurement for construction insulation is the amount of heat flow through one square foot, per hour, per degree (*f) of temperature differential. this btu is expressed in either "K", "C","F",or "U" values...

"C" Factor(thermal conductance): the measurement of heat flow through any single material greater/less than 1" is expressed: C=K/T...

(note:K & C are the same for one inch of material)Example: if insulation thickness is required to meet C = 0.10, the calculation for polyurethane spray foam thickness would be as follows: T = K/C = 0.16/0.10 = 1.16 inches...

"K" Factor(thermal conductivity): the heat flow measurement through one inch of any single homogeneous material, by lab tests is written: "K" = BTU/(hr)(sq. ft.)(*F/inch)...

BTU (british thermal unit): the amount of heat required to raise the temperature of one pound of water one degree F. Btu equivalents: 1 therm=100,000btu 1 watt = 3.413 btu 1 kilowatt = 3,413 btu(aint math great?)1 cu ft of natural gas = 1,000 btu 1 gallon of fuel oil = 140,000 to 150,000 btu 1 lbs coal = 7,000 to 14,000 btu 1 cu ft mfg gas = 500btu...

"U" Factor (overall coefficient of heat transmission): after total thermal resistance (RT) of the system is determined, the U value (or heat flow) can be calculated as follows:
U=1/(RT) the U value is the measure of btu that will flow through a composite system (wall-floor-roof) per hour, square foot or surface, degree F temperature difference between the two sides fo teh system. U= btu/(hr)x(sq ft)x (degree F)...

"R" Factor (thermal resistance): since K and C values change and become lower as the material insulation value increases, it is imposssible to add K and C values. therefore, R is the reciprocal of C, and is determined by dividing C into One, or by dividing the materials K factor into its thickness ("T") ,,,, R=1/C or R=T/K to find insulation thickness needed to achieve a specific r-rateing use formula: T=RxK,,, each material in a roof or wall assembly has a resistance value which, when added together, obtains the composite system's total resistance to heat flow... R1+R2+R3+R4+R etc = R total

sunspots baby..sure had a real good time...

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