Accurate recognition of flow regimes is essential for the analysis of behavior and operation of two-phase flow systems in industrial processes. This paper studies the feasibility of a method for objective recognition of global flow regimes using differential pressure and artificial neural networks. Three main global flow regimes are classified based on differential pressure of the riser. Five statistical parameters are inputted into neural networks classifiers, and good recognition rates of global flow regimes are achieved. With increase of feature parameters, recognition rates of global flow regimes increase, and five selected feature parameters are sufficient to achieve good recognition rates. Recognition rates of two categories are generally higher than those of four categories, and they are found to increase with sample lengths. Average recognition rates of four categories are higher than 943% if sample lengths are longer than 240 s and reach almost 100% when sample lengths are sufficient long. (C) 2019 Elsevier B.V. All rights reserved.