Development of a technology for designing microprocessor-based resource-saving relay protection devices based on an open architecture.
Scientific Supervisor: Neftisov A.V.
Competition Name: Ministry of Science and Higher Education of the Republic of Kazakhstan, 2022–2024 (34 months)
Funding Amount: 75 million KZT
Competition Name: Ministry of Science and Higher Education of the Republic of Kazakhstan, 2022–2024 (34 months)
Funding Amount: 75 million KZT
Project Abstract:
Relay protection systems consist of devices that receive information from measuring transformers, which are material-intensive and made of high-quality copper and steel. These transformers exhibit significant errors during transient conditions under high short-circuit currents. In the event of a break in the secondary circuit, dangerous voltages may occur. With the emergence of distributed energy systems, classical relay protection systems are no longer sufficient.
The development of relay protection systems based on a microprocessor platform with an open architecture, using alternative converters instead of traditional transformers and integrating Internet of Things technologies, will improve the reliability of power supply. This approach enables redundancy of both traditional relay protection systems and transformers, while also eliminating their inherent disadvantages.
The development of relay protection systems based on a microprocessor platform with an open architecture, using alternative converters instead of traditional transformers and integrating Internet of Things technologies, will improve the reliability of power supply. This approach enables redundancy of both traditional relay protection systems and transformers, while also eliminating their inherent disadvantages.
Project Objective
The objective of the project is to develop a resource-saving relay protection system that does not require measuring transformers for data acquisition, based on an open architecture and utilizing industrial Internet of Things technologies to ensure reliable power supply.
Task 1. Conducting research and analysis of the current state of the industry, including trends, forecasts, and the technological component of microprocessor-based relay protection systems.
Task 2. Scientific substantiation of the possibility of developing a microprocessor-based resource-saving relay protection system based on an open architecture.
Task 3. Development of a structural model for data collection and a method for processing initial data obtained from measuring converters installed near live parts using industrial Internet of Things technology.
Task 4. Creation of a structural model of the developed microprocessor-based relay protection system based on an open architecture using industrial Internet of Things technology.
Task 5. Development of a model for the interaction of measuring converters with computing systems using cloud technologies, industrial Internet of Things technology, as well as analysis of data transmission paths.
Task 6. Development of the interaction architecture between the software and hardware components of a microprocessor-based resource-saving relay protection system based on an open architecture.
Task 7. Creation of a method for reducing the error in determining current and voltage parameters based on a computing system for decision-making.
Task 8. Development of a conceptual prototype of a microprocessor-based resource-saving relay protection system based on an open architecture using industrial Internet of Things technology.
Task 9. Testing and determination of the characteristics of the developed conceptual prototype of the microprocessor-based resource-saving relay protection system. Pilot operation.
Task 10. Completion of this task will make it possible to secure authorship and protect intellectual property, as well as share the development results with the scientific community.
Task 2. Scientific substantiation of the possibility of developing a microprocessor-based resource-saving relay protection system based on an open architecture.
Task 3. Development of a structural model for data collection and a method for processing initial data obtained from measuring converters installed near live parts using industrial Internet of Things technology.
Task 4. Creation of a structural model of the developed microprocessor-based relay protection system based on an open architecture using industrial Internet of Things technology.
Task 5. Development of a model for the interaction of measuring converters with computing systems using cloud technologies, industrial Internet of Things technology, as well as analysis of data transmission paths.
Task 6. Development of the interaction architecture between the software and hardware components of a microprocessor-based resource-saving relay protection system based on an open architecture.
Task 7. Creation of a method for reducing the error in determining current and voltage parameters based on a computing system for decision-making.
Task 8. Development of a conceptual prototype of a microprocessor-based resource-saving relay protection system based on an open architecture using industrial Internet of Things technology.
Task 9. Testing and determination of the characteristics of the developed conceptual prototype of the microprocessor-based resource-saving relay protection system. Pilot operation.
Task 10. Completion of this task will make it possible to secure authorship and protect intellectual property, as well as share the development results with the scientific community.
Research Team Members
Alexander Vitalyevich Neftisov
PhD, Associate Professor
Project Leader
Asiya Zhumabayevna Sarinova
PhD, Candidate of Technical Sciences
Senior Researcher
Lalita Nikolaevna Kirichenko
Master of Technical Sciences
Junior Researcher
Ilyas Maratuly Kazambayev
Master of Technical Sciences
Junior Researcher
PhD, Associate Professor
Project Leader
Asiya Zhumabayevna Sarinova
PhD, Candidate of Technical Sciences
Senior Researcher
Lalita Nikolaevna Kirichenko
Master of Technical Sciences
Junior Researcher
Ilyas Maratuly Kazambayev
Master of Technical Sciences
Junior Researcher