SIMULTANEOUS IDENTIFICATION OF TEMPERATURE PROFILE AND WALL EMISSIVITIES IN ONE-DIMENSIONAL SEMITRANSPARENT MEDIUM BY INVERSE RADIATION ANALYSIS

An inverse analysis is presented for simultaneous estimation of the temperature distribution and the boundary emissivities for an emitting, nonscattering, gray, plane-parallel medium from the knowledge of the exit radiation intensities at boundary surfaces. The inverse problem is solved by using a least squares method. In this approach a zeroth-order regularization method is used to stabilize the solution. The effects of the measurement errors on the accuracy of the inverse analysis are investigated. The study shows that the temperature profile can be estimated accurately, even with noisy data, and the estimation of boundary emissivities is more sensitive to increases in measurement errors.