Simulation of commercial fixed-bed reactor for maleic anhydride synthesis: application of different kinetic models and industrial process data

“…ER 420−450 Wide range/5−30 66 bed and fluidized bed reactors have also been reported. 52,53 Multitubular reactor design is straightforward for identically operated tubes, but several challenges can still occur in practice such as the following: (1) uniform fluid temperature through baffles and segments fails to achieve isothermicity of the shell;…”

“…The reactor design and heat removal are crucial due to exotherm and heat sensitivity, impacting the investment and output costs. The simulation and modeling of MAn synthesis in fixed bed and fluidized bed reactors have also been reported. , Multitubular reactor design is straightforward for identically operated tubes, but several challenges can still occur in practice such as the following: (1) uniform fluid temperature through baffles and segments fails to achieve isothermicity of the shell; (2) the catalyst bed’s packing densities and local structures vary, causing nonuniform flow and temperature profiles, affecting conversions and product yields; (3) prolonged reactor operation may cause uneven distribution; (4) incorrect mixing or evaporation of reactants can cause differences in reactant concentrations at individual tube inlets.…”

n-Butane Oxidation to Maleic Anhydride: Reaction Mechanism and Kinetics Over VPO Catalyst

“…ER 420−450 Wide range/5−30 66 bed and fluidized bed reactors have also been reported. 52,53 Multitubular reactor design is straightforward for identically operated tubes, but several challenges can still occur in practice such as the following: (1) uniform fluid temperature through baffles and segments fails to achieve isothermicity of the shell;…”

“…The reactor design and heat removal are crucial due to exotherm and heat sensitivity, impacting the investment and output costs. The simulation and modeling of MAn synthesis in fixed bed and fluidized bed reactors have also been reported. , Multitubular reactor design is straightforward for identically operated tubes, but several challenges can still occur in practice such as the following: (1) uniform fluid temperature through baffles and segments fails to achieve isothermicity of the shell; (2) the catalyst bed’s packing densities and local structures vary, causing nonuniform flow and temperature profiles, affecting conversions and product yields; (3) prolonged reactor operation may cause uneven distribution; (4) incorrect mixing or evaporation of reactants can cause differences in reactant concentrations at individual tube inlets.…”

n-Butane Oxidation to Maleic Anhydride: Reaction Mechanism and Kinetics Over VPO Catalyst

Evaluation of Selectivity and Yield in the Design of Control Systems for the Production of Maleic Anhydride Carried Out in a Tubular Reactor

Effects of catalyst distribution, particle geometry, and process conditions on the behavior of a water gas shift reactor under moderate pressures: a modeling study