This paper presents a mathematical model for a single-unit system of a sugar mill, specifically considering electrical faults. Sugar mills are crucial for the production of sugar, and their performance is often impacted by electrical faults, which can lead to system downtime and productivity losses. The model incorporates the electrical components of the mill, including motors, transformers, and control systems, and simulates the effects of different fault scenarios such as short circuits, overloads, and voltage fluctuations. By analyzing the dynamic response of the system to these faults, the model aims to predict the behaviour of the mill under faulty conditions and identify the most critical factors affecting its operation. The results provide insights into fault detection, isolation, and preventive maintenance strategies to minimize disruptions and improve the overall efficiency of sugar mill operations. The model can be extended to more complex multi-unit systems for broader industrial applications.

Mathematical Model, Sugar Mill, Electrical Faults