How to Calculate Time for Center Temperature Change of a Sphere?

What is the transient conduction equation for a sphere?

How can we calculate the time it takes for the center temperature of a sphere to reach a certain temperature?

Transient Conduction Equation for a Sphere:

The transient conduction equation for a sphere can be expressed as:

ρcV ∂T/∂t = k (∂^2T/∂r^2) + (2k/r) (∂T/∂r)

Where:

  • ρ = density of the sphere material
  • c = specific heat capacity of the sphere material
  • V = volume of the sphere
  • T = temperature
  • t = time
  • k = thermal conductivity of the sphere material
  • r = radius

To calculate the time it takes for the center temperature of the sphere to reach a specific temperature, we need to consider the transient conduction equation for a sphere. This equation involves parameters such as density, specific heat capacity, volume, temperature, time, thermal conductivity, and radius of the sphere.

Given the initial temperature, final temperature, convection heat transfer coefficient, and thermal properties of the sphere material, a detailed calculation can be performed using the transient conduction equation. It is crucial to have accurate values for density and specific heat capacity for precise calculations.

However, without the specific values for density and specific heat capacity, the time calculation may not be possible. The process typically involves solving partial differential equations numerically or using analytical methods.

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