Subject
Mechanical Engineering,Waste Management and Disposal,Safety, Risk, Reliability and Quality,General Materials Science,Nuclear Energy and Engineering,Nuclear and High Energy Physics
Reference26 articles.
1. Al Issa S., Macian-Juan R. Murase M., Tomiyama A., Hayashi K., On CCFL in COLLIDER test facility: CCFL results at PWR hot-leg pipe geometry with 190 mm diameter, 17th International Topical Meeting on Nuclear Reactor Thermal Hydraulics, Xian, China, 2-8 September (2017)-2.
2. Al Issa, S., Macian-Juan, image-processing of time-averaged interface distributions representing CCFL characteristics in a large scale model of a PWR hot-leg pipe geometry, Annals of nuclear energy 103(2017)-1, pp 282–293.
3. A review of CCFL phenomenon;Al Issa;Ann. Nucl. Energy,2011
4. Experimental investigation of countercurrent flow limitation (CCFL) in a large-diameter hot-leg geometry: A detailed description of CCFL mechanisms, flow patterns and high-quality HSC imaging of the interfacial structure in a 1/3.9 scale of PWR geometry
5. Assessment of the System Code DRUFAN/ATHLET using Results of LOBI Tests, Commission of the European Communities, Final Report, September 1989, EUR 124.