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           Heinzel, A., Hering, W., Konys, J., Marocco, L., Litfin, K., Mueller, G., Pacio, J., Schroer, C.,
               Stieglitz, R., Stoppel, L., Weisenburger, A., Wetzel, T., 2017. Liquid metals as efficient
               high-temperature heat-transport fluids. Energy Technol. https://doi.org/10.1002/ente.
               201600721.
           J€ ager, W., 2016. BFS experiment: instrumentation and setup. Karlsruhe Institute of Technology,
               Karlsruhe, Germany, SESAME Project, Report MS4.
           Kottowski, H. (Ed.), 1981. Safety Problems Related to Sodium Handling in Liquid Metal Fast
               Breeder Reactors and Large Test Facilities: Lectures From a Course at Ispra (Italy).
               Publishers, Harwood Academic.
           Moreau, R., 2007. In: Molokov, S., Moffat, H. (Eds.), Magnetohydrodynamics. Springer,
               The Netherlands.
           OECD, 2015. Handbook on Lead-Bismuth Eutectic Alloy and Lead Properties, Materials Com-
               patibility, Thermal-Hydraulics and Technologies. OECD Publishing, Paris, France.
           Pacio, J., Daubner, M., Fellmoser, F., Litfin, K., Marocco, L., Stieglitz, R., Taufall, S.,
               Wetzel, T., 2014. Heavy-liquid metal heat transfer experiment in a 19-rod bundle with grid
               spacers. Nucl. Eng. Des. 273, 33–46.
           Pacio, J., Daubner, M., Fellmoser, F., Litfin, K., Wetzel, T., 2016. Experimental study of heavy-
               liquid metal (LBE) flow and heat transfer along a hexagonal 19-rod bundle with wire
               spacers. Nucl. Eng. Des. 301, 111–127.
           Schroer, C., Konys, J., 2007. Physical chemistry of corrosion and oxygen control in liquid lead
               and lead-bismuth eutectic. Forschungszentrum Karlsruhe, Report FZKA7364.
           Schroer, C., Wedemeyer, O., Novotny, J., Skrypnik, A., Konys, J., 2011. Long-term service of
               austenitic steel 1.4571 as a container material for flowing lead–bismuth eutectic. J. Nucl.
               Mater. 418, 8–15.
           Schulenberg, T., Stieglitz, R., 2010. Flow measurement techniques in heavy liquid metals. Nucl.
               Eng. Des. 240, 2077–2087.
           Shah, R., Sekuli  c, D., 2003. Fundamentals of Heat Exchanger Design. Wiley, Hoboken.
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