Chemical Reactions System: A Theorical Analysis Using Homotopy Perturbation Method

This work describes a chemical furnace and the reaction suction system using mathematical techniques. Chemical processing facilities all around the world employ chemical kinetics and energy absorption technology. In chemical and process engineering, accurate modeling of reactive absorption systems and chemical reactors is crucial for modeling, optimization, and scale-up. Precise modeling of chemical furnaces and reactive absorption systems is necessary for process/chemical engineering simulation, optimization, and scale-up. An effective, straightforward, and accurate homotopy perturbation technique (HPM) for solving differential equations yields the Concentration specification. Generally speaking, the approximation analytical findings with a set of unknown parameters discovered by applying the beginning circumstances are preferable.