Analytical solution for partial heating on the exterior of the pipe with application to measuring fluid flow rate

•A new analytical solution for partial heating of pipe is found.•Solution features are discussed to evaluate the analytical solution.•A potential method for measuring fluid flow rate in pipes is evaluated.•The optimal location and time duration for recording the temperature to measure the flow are identified. An analytical model using Green's functions for partial external heating of a pipe is developed, which results in an exact mathematical solution for the radial and axial temperature distribution in the pipe wall. Partial heating consists of a constant heat flux function imposed over a small section of the exterior of a pipe and for a limited time duration. The solution comprises steady-state and transient parts, and an algebraic identity is used to decrease the number of summation terms in the slowly-converging steady-state part. Intrinsic verification principles are used to verify the solution. As an example application, this transient solution is applied toward the development of a simple, noninvasive method for in-field measurement of the flow rate in pipes. To simulate this application, a pulse of energy is imposed to the wall of the pipe, and the developed mathematical solution is used to find the flow rate of the fluid inside the pipe. An optimal experiment is designed to find the best measurement location and time.