Abstract
In recent years, research for systematic process design approaches has gained traction, especially with the rise in popularity of generative machine learning models and reinforcement learning. However, works from the literature will often focus on proof-of-concept studies, limited to a specific process synthesis problem. Despite showing promising results, it is not clear how easily these methodologies could be transposed to new applications, and whether they would be successful. In this context, this work evaluates the possibility of using a Natural Language Processing model, which has already proven itself for thermodynamic cycle generation, for another different case: seawater desalination. The processes generated by this model will initially be those using reverse osmosis processes aimed at desalinating a seawater solution containing 25000 ppm of NaCl. Results show that the model has been successful in designing structural reverse osmosis desalination processes without defining assembly rules or a superstructure. Given the large number of these generated processes, a clustering method based on their similarity has been developed. This made it possible to identify different known heuristics (like multi-stage) in process engineering. This adaptation was made possible by modifying aspects external to the original model: a dedicated vocabulary, design rules and objective function.