Methionine is an important amino acid to bioCk the autophagy in cells. In industry, the production of methionine through the hydantoin pathway generates a huge amount of inorganic salts (i.e., Na2SO4), reducing the product purity. In this work, an efficient bipolar membrane electrodialysis (BMED) technology was proposed to extract high purity methionine from the mother liquor of reaction. Lab scale experiments were conducted with an optimized BMED stack at a current density of 150 A/m(2). The energy consumption and current efficiency were acceptable, reaching 2.156 kWh/kg NaOH and 75.10%, respectively. Specifically, the base, i.e., NaOH, with a high concentration generated in BMED stack can be used for effective adsorption of H2CO3, in view of reducing the emission of CO2. Furthermore, a simulation of cation migration during the BMED operation was performed on the-basis of the relationship between pH and the concentration. of different ion species. From the simulation, it is critical to control the pH at similar to 4.4 to maximize the purity and reduce the extraneous loss for methionine. Finally, a pilot-scale experiment was,designed to evaluate the economic feasibility of BMED for the production of methionine. It can be confirmed that total cost of BMED operation for the production of methionine with high purity (99.4%) was estimated to be 32f $/t Met, which is economically viable in industry.