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Heat Loss Bare Surface

Reference data and engineering information about heat loss bare surface for heat transfer applications.

heatlossbaresurfaceCalculator

Overview

Engineering reference data for Heat Loss Bare Surface in heat transfer.

Key Formulas

Fourier's Law

q=kTq = -k \nabla T

Heat flux proportional to temperature gradient.

Convective Heat Transfer

Q=hA(TsT)Q = hA(T_s - T_\infty)

Heat transfer between surface and fluid.

Stefan-Boltzmann Law

q=εσT4q = \varepsilon \sigma T^4

Radiative heat flux from a surface.

Thermal Resistance

Rth=LkAR_{th} = \frac{L}{kA}

Resistance to heat conduction.

Variables

SymbolDescriptionUnit
qqHeat fluxW/m²
kkThermal conductivityW/(m·K)
hhConvection coefficientW/(m²·K)
TTTemperatureK
ε\varepsilonEmissivity
σ\sigmaStefan-Boltzmann constant5.67×10⁻⁸ W/(m²·K⁴)

Conditions and Assumptions

The data and diagrams for heat loss from bare pipes are based on the following conditions:

  • Air Movement: Still air (natural convection only).
  • Ambient Air Temperature: 70°F (21°C).
  • Surface Emissivity (ε\varepsilon): 0.95.

These parameters are critical for accurately applying the general heat loss values, as both convective and radiative heat transfer are dependent on them.

References