The manufacturing sector has a substantial influence on worldwide energy consumption. Therefore, improving manufacturing system energy efficiency is becoming increasingly important as the world strives to move toward a more resilient and sustainable energy paradigm. Batch processes are a major contributor to energy consumption in manufacturing systems. In batch manufacturing, a number of parts are grouped together before starting a batch process. To improve the scheduling and control of batch manufacturing processes, we propose a system-level energy-efficient Digital Twin framework that considers Time-of-Use (TOU) energy pricing for runtime decision-making. As part of this framework, we develop a model that combines batch manufacturing process dynamics and TOU-based energy cost. We also provide an optimization-based decision-making algorithm that makes batch scheduling decisions during runtime. A simulated case study showcases the benefits of the proposed framework.
@article{arxiv.2309.10151,
title = {A System-Level Energy-Efficient Digital Twin Framework for Runtime Control of Batch Manufacturing Processes},
author = {Hongliang Li and Herschel C. Pangborn and Ilya Kovalenko},
journal= {arXiv preprint arXiv:2309.10151},
year = {2023}
}