Currently, researchers in the field of bioheat transfer are focused on accurately causing thermal damage to unhealthy tissues while avoiding harm to healthy tissues. This one-dimensional model mimics a paper-based framework for simulating skin burns and hyperthermia. The model solves both steady- and unsteady-state heat equations and offers robust implementation. The variation of different parameters, such as magnitude of surface heating and thermal conductivity, with time is simulated. This model analyzes a simple approach to implement the heat transfer equation using the Bioheat Transfer module of COMSOL Multiphysics and two types of sensitivity analysis are examined. In the first case, the effect of the thermal conductivoty on the temperature distribution of the skin is investigated, and in the second case, the influence of the heating power on the tissue is evaluated.