Abstract
A real-time graphic display system was developed for the ROSA-V Large Scale Test Facility (LSTF) experiments simulating accident management measures for prevention of severe core damage in pressurized water reactors (PWRs). The system works on an IBM workstation (Power Station RS/6000 model 560) and accommodates 512 channels out of about 2500 total measurements in the LSTF. It has three major functions: (a) displaying the coolant inventory distribution in the facility primary and secondary systems; (b) displaying the measured quantities at desired locations in the facility; and (c) displaying the time histories of measured quantities. The coolant inventory distribution is derived from differential pressure measurements along vertical sections and gamma-ray densitometer measurements for horizontal legs. The color display indicates liquid subcooling calculated from pressure and temperature at individual locations. (author).
Kondo, Masaya;
Anoda, Yoshinari;
Osaki, Hideki;
Kukita, Yutaka;
[1]
Takigawa, Yoshio
- Japan Atomic Energy Research Inst., Tokai, Ibaraki (Japan). Tokai Research Establishment
Citation Formats
Kondo, Masaya, Anoda, Yoshinari, Osaki, Hideki, Kukita, Yutaka, and Takigawa, Yoshio.
Real-time graphic display system for ROSA-V Large Scale Test Facility.
Japan: N. p.,
1993.
Web.
Kondo, Masaya, Anoda, Yoshinari, Osaki, Hideki, Kukita, Yutaka, & Takigawa, Yoshio.
Real-time graphic display system for ROSA-V Large Scale Test Facility.
Japan.
Kondo, Masaya, Anoda, Yoshinari, Osaki, Hideki, Kukita, Yutaka, and Takigawa, Yoshio.
1993.
"Real-time graphic display system for ROSA-V Large Scale Test Facility."
Japan.
@misc{etde_10131648,
title = {Real-time graphic display system for ROSA-V Large Scale Test Facility}
author = {Kondo, Masaya, Anoda, Yoshinari, Osaki, Hideki, Kukita, Yutaka, and Takigawa, Yoshio}
abstractNote = {A real-time graphic display system was developed for the ROSA-V Large Scale Test Facility (LSTF) experiments simulating accident management measures for prevention of severe core damage in pressurized water reactors (PWRs). The system works on an IBM workstation (Power Station RS/6000 model 560) and accommodates 512 channels out of about 2500 total measurements in the LSTF. It has three major functions: (a) displaying the coolant inventory distribution in the facility primary and secondary systems; (b) displaying the measured quantities at desired locations in the facility; and (c) displaying the time histories of measured quantities. The coolant inventory distribution is derived from differential pressure measurements along vertical sections and gamma-ray densitometer measurements for horizontal legs. The color display indicates liquid subcooling calculated from pressure and temperature at individual locations. (author).}
place = {Japan}
year = {1993}
month = {Nov}
}
title = {Real-time graphic display system for ROSA-V Large Scale Test Facility}
author = {Kondo, Masaya, Anoda, Yoshinari, Osaki, Hideki, Kukita, Yutaka, and Takigawa, Yoshio}
abstractNote = {A real-time graphic display system was developed for the ROSA-V Large Scale Test Facility (LSTF) experiments simulating accident management measures for prevention of severe core damage in pressurized water reactors (PWRs). The system works on an IBM workstation (Power Station RS/6000 model 560) and accommodates 512 channels out of about 2500 total measurements in the LSTF. It has three major functions: (a) displaying the coolant inventory distribution in the facility primary and secondary systems; (b) displaying the measured quantities at desired locations in the facility; and (c) displaying the time histories of measured quantities. The coolant inventory distribution is derived from differential pressure measurements along vertical sections and gamma-ray densitometer measurements for horizontal legs. The color display indicates liquid subcooling calculated from pressure and temperature at individual locations. (author).}
place = {Japan}
year = {1993}
month = {Nov}
}