Insulation Thickness Calculator

Calculate the required insulation thickness for a flat wall or cylindrical pipe to meet a target heat flux or surface temperature limit.

Geometry

Calculate For

Inner (Hot) Surface Temperature T₁ (°C)

Outer (Ambient) Temperature T₂ (°C)

Thermal Conductivity of Insulation k (W/m·K)

Target Heat Flux q (W/m²) — for flat wall thickness mode

Known Insulation Thickness d (m) — for heat loss mode

Outer Surface Heat Transfer Coefficient h (W/m²·K) — set 0 to ignore

Results will appear here.

Formulas Used

Flat Wall — Thickness:
Total resistance: R_total = ΔT / q
Insulation resistance: R_ins = R_total − 1/h
Thickness: d = k · R_ins

Flat Wall — Heat Flux:
q = ΔT / (d/k + 1/h)

Cylindrical Pipe — Heat Loss per Unit Length:
Q/L = 2π·ΔT / [ln(r₂/r₁)/k + 1/(h·r₂)]
For thickness mode, r₂ is solved numerically (bisection) since the equation is implicit in r₂.

Critical Radius (cylinder):
r_crit = k / h — adding insulation below this radius increases heat loss.

Assumptions & References

Steady-state, one-dimensional heat conduction (no heat generation).
Thermal conductivity k is constant (temperature-independent).
Flat wall: uniform cross-section; cylindrical pipe: concentric layers.
Outer surface convection resistance = 1/h (flat) or 1/(h·r₂) per unit length (cylinder).
Inner surface resistance is neglected (pipe wall assumed isothermal at T₁).
Radiation heat transfer is not included.
Reference: Incropera & DeWitt, Fundamentals of Heat and Mass Transfer, 7th Ed., Chapters 3 & 3.7.
Typical k values: mineral wool 0.03–0.05 W/m·K, foam glass 0.04–0.06 W/m·K, polyurethane foam 0.022–0.028 W/m·K.

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