Some Technical Issues on Continuous Subcriticality Monitoring by a Digital Reactivity Meter during Criticality Approach
スポンサーリンク
概要
- 論文の詳細を見る
It has been proposed that a digital reactivity meter can be used for not only subcriticality measurement but also continuous subcriticality monitoring during criticality approach. In this study, a mock up numerical simulation was carried out to investigate some technical issues that still exist. These are sampling interval, time lag of estimated subcriticality due to filtering effect as well as due to the error contribution to the initial reference subcriticality and the way to avoid time lag of estimated subcriticality from safety point of view. It was found that there is influence of sampling interval on the reactivity fluctuation. Filter can cause time lag of estimated subcriticality when a large filter time constant is used. In subcriticality monitoring, the error contribution to the initial reference subcriticality obtained by some design calculation should be investigated to detect accurately an unexpected criticality as earlier as possible. It was known that the negative error contribution to the initial reference subcriticality should be used from safety point of view. We have analytically obtained the relation between the error of the initial reference subcriticality, ramp rate of reactivity addition, warning subcriticality and the margin of the time interval for the counter action.
- 一般社団法人 日本原子力学会の論文
- 2005-06-25
著者
-
SHIMAZU Yoichiro
Department of Nuclear Engineering, Graduate School of Engineering, Hokkaido University
-
NAING Win
Department of Nuclear Engineering, Graduate School of Engineering, Hokkaido University
-
Naing Win
Department Of Nuclear Engineering Graduate School Of Engineering Hokkaido University
-
Shimazu Yoichiro
Research Institute Of Reactor Engineering University Of Fukui
-
Shimazu Yoichiro
Department Of Energy And Environmental Systems Graduate School Of Engineering Hokkaido University
関連論文
- Feasibility Study for Evaluation of Control Rod Worth in Pressurized Water Reactors using Neutron Count Rate during a Control Rod Drop Testing
- Development of the Hierarchical Domain Decomposition Boundary Element Method for Solving the Three-Dimensional Multiregion Neutron Diffusion Equations
- Stability Monitoring for BWR based on Singular Value Decomposition Method using Artificial Neural Network
- Subcriticality Measurement by Neutron Source Multiplication Method with a Fundamental Mode Extraction
- Feasibility Study on Subcriticality Monitoring with a Digital Reactivity Meter
- Evaluation of Decay Ratio of BWRs using Singular Value Decomposition Method
- Estimation of the Doppler Coefficient from a Lower Power Transient Observed in a Zero-Power Reactor Physics Test of a PWR (I) : Methodology
- Estimating Temperature Reactivity Coefficients by Experimental Procedures Combined with Isothermal Temperature Coefficient Measurements and Dynamic Identification
- Subcriticality Measurement of Pressurized Water Reactors during Criticality Approach using a Digital Reactivity Meter
- Subcriticality Measurement of Pressurized Water Reactors by the Modified Neutron Source Multiplication Method
- The Effect of Neutron Source Distribution on Subcriticality Measurement of Pressurized Water Reactors Using the Modified Neutron Source Multiplication Method
- Subcriticality Monitoring with a Digital Reactivity Meter
- Left Extended Hepatectomy for a Metastatic Gastrointestinal Stromal Tumor After a Disease-Free Interval of 17 Years : Report of a Case
- Some Technical Issues on Continuous Subcriticality Monitoring by a Digital Reactivity Meter during Criticality Approach
- Examination of Actual Neutron Count Rate Data during a Control Rod Drop Testing for Estimation of Control Rod Worth in PWRs
- Monitoring and Control of Radial Xenon Oscillation in PWRs by a Three-Radial-Offset Concept
- Small PWR Using Coated Particle Fuel of Thorium and Plutonium
- Continuous Guidance Procedure for Xenon Oscillation Control
- Application of Three Axial Offsets Trajectory Method for Load Follow Operation Control in PWRs
- Errors in the Estimated Neutron Source and Gamma Source Strengths for Reactivity Measurement and the Influence on the Measured Reactivity
- A Feasibility Study on Wavelet Transform for Reactivity Coefficient Estimation
- Analysis on Calculated Reactivity Error Caused by Inaccuracy of Sampling Intervals
- Fuel cycle cost analysis on molten-salt reactors.