Abstract
A major objective of the project is to develop a digital automatic supervisory limitation system and validate its design for the next generation= nuclear power plant. The limitation system assures that the plant does not exceed the operating limits by regulation the plant operations through on-line monitoring the operating margins of the critical parameters. A new conceptual model of power maneuverability has been proposed for the design of the limitation system and for its validation. Also, the limitation system monitors overall operation processes throughout a nuclear power plant by implementing hierarchical communication networks. Based on the conceptual design in software of the 1 st year results, the detailed design of the limitation system has been performed during the 2 nd year with constructing a prototype digital system. The system consists of the software module for plant simulation and the hardware module for implementation of limitation system and the associated interfaces in hardware. The limitation algorithm were implemented into the microprocessor and the interfaces were realized through the I/O modules. Also, these modules are incorporated into the communication networks. The products of the project could be directly applicable to the following nuclear unit adopting the limitation system, providing the bumpless transition
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Choi, Jung In;
Chung, Sung Wook;
Koh, Won Seok;
[1]
Suh, Duk Young;
Cheon, Sei Young;
[2]
Lee, Sang Kyung;
Kim, Sung Hun
[3]
- Kyungwon University, Sungman (Korea, Republic of)
- Kyunghee University, Seoul (Korea, Republic of)
- Seoul National University, Seoul (Korea, Republic of)
Citation Formats
Choi, Jung In, Chung, Sung Wook, Koh, Won Seok, Suh, Duk Young, Cheon, Sei Young, Lee, Sang Kyung, and Kim, Sung Hun.
Development of basic technology for instrumentation and control - Development of digital automatic supervisory limitation system and its design= validation.
Korea, Republic of: N. p.,
1995.
Web.
Choi, Jung In, Chung, Sung Wook, Koh, Won Seok, Suh, Duk Young, Cheon, Sei Young, Lee, Sang Kyung, & Kim, Sung Hun.
Development of basic technology for instrumentation and control - Development of digital automatic supervisory limitation system and its design= validation.
Korea, Republic of.
Choi, Jung In, Chung, Sung Wook, Koh, Won Seok, Suh, Duk Young, Cheon, Sei Young, Lee, Sang Kyung, and Kim, Sung Hun.
1995.
"Development of basic technology for instrumentation and control - Development of digital automatic supervisory limitation system and its design= validation."
Korea, Republic of.
@misc{etde_575353,
title = {Development of basic technology for instrumentation and control - Development of digital automatic supervisory limitation system and its design= validation}
author = {Choi, Jung In, Chung, Sung Wook, Koh, Won Seok, Suh, Duk Young, Cheon, Sei Young, Lee, Sang Kyung, and Kim, Sung Hun}
abstractNote = {A major objective of the project is to develop a digital automatic supervisory limitation system and validate its design for the next generation= nuclear power plant. The limitation system assures that the plant does not exceed the operating limits by regulation the plant operations through on-line monitoring the operating margins of the critical parameters. A new conceptual model of power maneuverability has been proposed for the design of the limitation system and for its validation. Also, the limitation system monitors overall operation processes throughout a nuclear power plant by implementing hierarchical communication networks. Based on the conceptual design in software of the 1 st year results, the detailed design of the limitation system has been performed during the 2 nd year with constructing a prototype digital system. The system consists of the software module for plant simulation and the hardware module for implementation of limitation system and the associated interfaces in hardware. The limitation algorithm were implemented into the microprocessor and the interfaces were realized through the I/O modules. Also, these modules are incorporated into the communication networks. The products of the project could be directly applicable to the following nuclear unit adopting the limitation system, providing the bumpless transition to the commercial design phase. And the prototype evaluation scheme will be very useful for the succeeding studies related to the digital nuclear I and C fields, such as fault-tolerance design methods, software verification and validation and response time execution of digital systems. 69 refs., 3 tabs., 44 figs. (author)}
place = {Korea, Republic of}
year = {1995}
month = {Jul}
}
title = {Development of basic technology for instrumentation and control - Development of digital automatic supervisory limitation system and its design= validation}
author = {Choi, Jung In, Chung, Sung Wook, Koh, Won Seok, Suh, Duk Young, Cheon, Sei Young, Lee, Sang Kyung, and Kim, Sung Hun}
abstractNote = {A major objective of the project is to develop a digital automatic supervisory limitation system and validate its design for the next generation= nuclear power plant. The limitation system assures that the plant does not exceed the operating limits by regulation the plant operations through on-line monitoring the operating margins of the critical parameters. A new conceptual model of power maneuverability has been proposed for the design of the limitation system and for its validation. Also, the limitation system monitors overall operation processes throughout a nuclear power plant by implementing hierarchical communication networks. Based on the conceptual design in software of the 1 st year results, the detailed design of the limitation system has been performed during the 2 nd year with constructing a prototype digital system. The system consists of the software module for plant simulation and the hardware module for implementation of limitation system and the associated interfaces in hardware. The limitation algorithm were implemented into the microprocessor and the interfaces were realized through the I/O modules. Also, these modules are incorporated into the communication networks. The products of the project could be directly applicable to the following nuclear unit adopting the limitation system, providing the bumpless transition to the commercial design phase. And the prototype evaluation scheme will be very useful for the succeeding studies related to the digital nuclear I and C fields, such as fault-tolerance design methods, software verification and validation and response time execution of digital systems. 69 refs., 3 tabs., 44 figs. (author)}
place = {Korea, Republic of}
year = {1995}
month = {Jul}
}