Ringhals Diagnostics and Monitoring, Annual Research Report 2019-2020
Rapport, 2020

This report gives an account of the work performed by the Division of Subatomic, High Energy and Plasma Physics (formerly, Division of Nuclear Engineering), Chalmers, in the frame of a research collaboration with Ringhals, Vattenfall AB, contract No. 686103-003. The contract constitutes a 1-year co-operative research work concerning diagnostics and monitoring of the BWR and PWR units.

The work in the contract has been performed between July 1st 2019, and June 30th, 2020. Originally, we planned to work with five items as follows:

1. Continued investigation of possible baffle jetting in R3 with noise analysis of in-core and ex-core detector signals;

2. Further analysis of the vibrations of thimble tubes with axially dependent in-core measurements in various radial positions;

3. Evaluation of new ex-core measurements for beam mode and tilting mode vibrations in R3;

4. Experimental work and simulations in support of the use of fission chambers in the current mode for reactor diagnostics, as an alternative of pulse counting methods;

5. Development of a new method to determine the axial velocity profile of the void in the core of a BWR by using four permanent in-core LPRMs and a TIP detector.

Due to changed circumstances, mostly related to the Covid-19 pandemics, some changes were made in the project. Item #1 was reduced, whereas the work planned in item #2 was postponed to the next Stage. The work was performed by Imre Pázsit (project co-ordinator), Luis Alejandro Torres and Cristina Montalvo (research collaborators from UPM, Madrid), Lajos Nagy (double degree PhD student jointly with BME Budapest), Gergely Klujber and Máté Szieberth (research collaborators from BME), Tsuyoshi Misawa and Yasunori Kitamura (research collaborators from KURNS, Kyoto, Japan) and Henrik Nylén, the contact person at Ringhals.



neutron noise

baffle jetting

core-barrel vibrations

fission chambers

reactor diagnostics

pulse counting from continuous signals

void velocity


Imre Pazsit

Chalmers, Fysik, Subatomär, högenergi- och plasmafysik

Luis Alejandro Torres Delgado

Universidad Politecnica de Madrid

Cristina Montalvo

Universidad Politecnica de Madrid

Lajos Nagy

Chalmers, Fysik, Subatomär, högenergi- och plasmafysik

Máté Sziebert

Budapesti Muszaki es Gazdasagtudomanyi Egyetem

Gergely Klujber

Budapesti Muszaki es Gazdasagtudomanyi Egyetem

Tsuyoshi Misawa

Kyoto University

Yasunori Kitamura

Kyoto University

Henrik Nylén

Ringhals AB

Ringhals diagnostik och övervakning

Ringhals AB, 1995-10-01 -- 2023-12-31.


Hållbar utveckling


Subatomär fysik

Övrig annan teknik

Annan fysik



CTH-NT - Chalmers University of Technology, Nuclear Engineering: CTH-NT-342/RR-23



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