Process Control is a practical course that prepares chemical engineering graduates for work in chemical plants; the objective is to equip students with the ability to maintain stable chemical plant operations by using control systems. However, most Process Control courses have been designed as such that students deduce mathematical equations to learn the principles and implementation of the control systems, which fail to prepare chemical engineering graduates for real-life chemical plant control-related operations. Therefore, this study used Aspen HYSYS, a dynamic process simulator, to simulate operating units and controllers. This teaching method facilitated students' understanding and enabled them to apply the tools and methods commonly used in control systems. The proposed Process Control course also incorporated problem-based learning to design process operation problems, thereby assessing the course's effectiveness in preparing students for chemical plant control. This study employed case study research. The participants were 40 and 47 seniors from Classes A and B of the Chemical Engineering Department, respectively. Classes A and B were taught by different teachers using the same textbook. Teacher of Class B applied the conventional teaching method of deducing mathematical equations, whereas teacher of Class A imparted process control methods to students using a dynamic process simulator, Aspen HYSYS, and had students solve the predesigned process operation problems. According to the learning outcome assessment, students in Class A achieved superior learning outcomes and were capable of differentiating controlled and manipulated variables of the process and understanding methods of measuring signal transmission. Abiding by the principle of safe operations, students in Class A were able to properly adjust the settings of control valves. Moreover, they were competent enough to identify process operation problems and resolve them with the appropriate control strategies, and correctly matched the controlled and manipulated variables as well.