Abstract The reverse Monte Carlo ray tracing technique (RMCRT) based on radiation
distribution factor is applied to obtain high resolution directional radiative signals for solving …

Generally, there is no common method for directly and quantitatively evaluating
computational errors in the calculation of radiative transfer. A method for quantitatively …

The ultrasonic-assisted solar photochemical splitting of water had been explored in recent
years to enhance hydrogen production efficiency. In this study, a photon-absorption-based …

A novel integral equation method based on radiation distribution factor (RDFIEM) is
developed for solving radiation transfer equation (RTE) to obtain radiation intensity signal in …

An efficient and accurate method to solve the directional radiation intensity in the
participating medium has always been a pursuit in radiative transfer fields, especially in …

Radiative intensity with high directional and spatial resolutions can provide abundant useful
information for combustion diagnosis systems based on radiative images. In this paper, an …

An improved integral equation method based on radiation distribution factors (RDFIEM) is
developed to solve the radiative intensity with high directional resolution in semitransparent …

Abstract The Monte Carlo method (MCM) is one of the most accurate methods for calculating
the optical characteristics of spatial targets. However, there are two limitations when using …

The generalized source term multiflux method (GSMFM) combined with Runge-Kutta ray
tracing technique is developed to calculate arbitrary directional radiative intensity of graded …

Abstract The Distribution of Ratios of Energy Scattered by the medium Or Reflected by the
boundary surface (DRESOR) method based on the Monte Carlo method is an important new …