Development of the Experimental Stand for Studying and Testing Digital Protection Terminals

IF 0.3 Q4 ENERGY & FUELS Problemele Energeticii Regionale Pub Date : 2023-02-01 DOI:10.52254/1857-0070.2023.1-57.02
Mykhailo Shabovta, O. Besarab, V. Plis
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Abstract

However, the approach to designing laboratory stands for training students and electrical personnel on the specifics of using digital protections in most cases has remained the same, which does not allow for fully realizing their potential. The purpose of the work is to improve the quality of the knowledge and practical skills received by students in the work with digital protection blocks. To achieve the goal, a specialized laboratory stand for testing digital security terminals has been developed. The stand consists of a mathematical model of the protected object, implemented in the form of a computer program and hardware, which allows real-time conversion of changes in model mode parameters into physical signals transmitted to the digital protection device. The stand provides the terminal feedback with the model, which makes it possible to study the protection behavior in the characteristic operating modes of the protected element. The protection of the "line-transformer" block using the Siprotec 4 7SJ6 Siemens terminal is considered. It is possible to calculate the protection operation parameters, configure the digital protection device, and also check the correct operation of the protections by automatically simulating normal and emergency operation modes of the protected object. The software and hardware of the stand makes it easy to expand its capabilities by adding new models of power system objects and other digital protection devices. The equipment used in the developed stand does not require significant capital investments, which makes this approach accessible to higher educational institutions.
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数字保护终端研究与测试实验台的研制
然而,在大多数情况下,设计实验室代表培训学生和电气人员使用数字保护的具体方法保持不变,这不允许充分发挥其潜力。这项工作的目的是提高学生在数字保护块工作中获得的知识和实践技能的质量。为了实现这一目标,开发了一个用于测试数字安全终端的专业实验室。支架由受保护对象的数学模型组成,以计算机程序和硬件的形式实现,该模型允许将模型模式参数的变化实时转换为传输到数字保护设备的物理信号。该支架为终端反馈提供了模型,这使得研究被保护元件在特征操作模式下的保护行为成为可能。考虑使用Siprotec 4 7SJ6西门子终端对“线路变压器”块进行保护。通过自动模拟被保护对象的正常和紧急操作模式,可以计算保护操作参数,配置数字保护装置,并检查保护的正确操作。该支架的软件和硬件可以通过添加新型号的电力系统对象和其他数字保护设备来轻松扩展其功能。开发展台中使用的设备不需要大量的资本投资,这使得高等教育机构可以使用这种方法。
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来源期刊
CiteScore
0.70
自引率
33.30%
发文量
38
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