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Noval Approach to Draw Zero Sequence Reactance Diagram of Transformer & To Determine the Short Circuit MVA

Kiran Vijay Rathod1, Chetan Bandu  Badkhal2 ,U.B Vaidya3, Dr. R. K. Dhatrak4

Final year student, RCERT, Chandrapur, Inadia1,2

Professors, Department  of Electrical Engineering, RCERT,Chandrapur,India3,4

Abstract
Zero sequence diagram of a transformer plays an extremely important role, in power system analysis, helps in fault detection, protection, and stability assessment. In this paper, we present a comprehensive exploration of the conventional method for constructing the zero sequence diagrams of transformers. This method, though rooted in traditional principles, offers innovative strategies for solving problems efficiently, making it particularly valuable for competitive examination and cross-checking solutions. Beginning with an introduction to transformers and zero sequence analysis, we delve into the step-by-step process of the conventional method. Through a detailed exposition of equations, algorithms, and assumptions, we analyze the methodology's inner workings. Moreover, we highlight the method's advantages, including its simplicity, accuracy, and applicability across various transformer configurations. Furthermore, we discuss practical applications of the conventional method, showcasing its utility in competitive exams and as a tool for verifying solution correctness. Real world examples and case studies illustrate its effectiveness in problem-solving scenarios.

Keywords

Innovative Technique, Sequence Diagram, Fault, Conventional Method, Zero Sequence Method