Minoru Funato scite author profile

Minoru Funato

5Publications

30Citation Statements Received

3Citation Statements Given

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Toshiba (Japan)

Publications

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Development of 160 m³/min Large Capacity Sodium-Immersed Self-Cooled Electromagnetic Pump

Ota

Katsuki

Funato

et al. 2004

Journal of Nuclear Science and Technology

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A large capacity sodium-immersed self-cooled electromagnetic pump (LEMP) was developed for application to the main circulation pumps of FBR. This advanced LEMP is a submergible annular linear induction pump designed to be self-cooled by immersing into sodium and applying high temperature electrical insulation. Almost all the internal electrical losses were transferred to the surrounding sodium, which can be recovered as electricity by turbine generators. The LEMP having specifications of 160 m 3 /min flow rate, 0.28 MPa head and more than 40% efficiency at the rating was designed, fabricated and tested in the sodium pump test facility. The test involves magnetic field measurement in the air and a variety of sodium tests during 2,550 h, which demonstrated good pump performance and flow controllability, and satisfied the design target. The boundary between flow stability and instability of the LEMP operation could be defined by peak position of the Q-H curve, which was specified by Re m ÂS (magnetic Reynolds' number times slip) of 1.4 to 1.5 at 335 C. Based on the test results, the applicability of the LEMP for the FBR was confirmed.

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Development of 160m3/min Large Capacity Sodium-Immersed Self-Cooled Electromagnetic Pump

Ota

Katsuki

Funato

et al. 2004

J. Nucl. Sci. Technol.

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Development of a Large Diameter Electromagnetic Pump for 4S

Aizawa

Fujiwara

Oyamatsu

et al. 2010

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Toshiba has been developing the Super-Safe, Small and Simple sodium-cooled fast reactor, named as the 4S. This reactor has features of passive safety, long refueling interval up to 30 years and low maintenance requirement.[1] To approach the features, the 4S adopts a high temperature sodium-immersed electromagnetic pump (EM pump) as the primary circulation pump. The rated flow rate and head are 10.6m3/min and 50kPa respectively. EM pump is static equipment with no moving parts, and then it enables the long-term maintenance to be unnecessary. However, there are some technical issues to apply an EM pump to the 4S. The outer diameter of the 4S EM pump is 1.8 times larger than that of 160m3/min EM pump which Toshiba has already developed. [2] Aspect ratio of the 4S EM pump defined by stator diameter to the length is much larger than our EM pump experiences, which may concern generation of flow instability. In order to confirm the design and fabrication procedure, the prototype full-scale EM pump for the 4S was manufactured. This EM pump characteristics were evaluated using electromagnetic flow code named as EAGLE developed by Toshiba, which combined with Maxwell’s equations and Navier-Stokes equation. To confirm characteristic of the completed EM pump, magnetic field in the annuals flow gap was measured in the air along the axial directional in condition of 250V-18Hz. The data were confirmed to agree with the analytical results of EAGLE. In order to demonstrate applicability of EM pump for the 4S, sodium test facility was constructed. The facility consists of one electromagnetic flow meter (EM flow meter), 14 sodium pressure sensors, EM flow meter calibration tank, 600kW cooler and sodium impurity control system. The pump characteristic tests were performed in sodium, it was demonstrated that the EM pump could apply to the 4S as the performance was satisfied with the design rated.

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E217 Development of small fast reactor 4S : Development of large diameter high temperature electromagnetic pump

Oyamatsu

Fujiwara

Aizawa

et al. 2009

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Development of Large Diameter High Temperature Electromagnetic Pump of Small Fast Reactor 4S(<Special Issue>The 14th National Symposium on Power and Energy System)

et al. 2010

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The smalI fast reactor 4S adopt the high temperaturc electromagneticpump (EMP)as a primary main pump ， which is superi r in reliability ， safety and economy ． The s し ud ゴ es about 4S EMP are carr ｛ ed out for the rcalization of the free maintenance during 4S operating time arld the backup power system ensurillg 且【〕 w coast down at the reactor trip． The4S EMP involve large dimension coil

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Minoru Funato

Development of 160 m³/min Large Capacity Sodium-Immersed Self-Cooled Electromagnetic Pump

Development of 160m3/min Large Capacity Sodium-Immersed Self-Cooled Electromagnetic Pump

Development of a Large Diameter Electromagnetic Pump for 4S

E217 Development of small fast reactor 4S : Development of large diameter high temperature electromagnetic pump

Development of Large Diameter High Temperature Electromagnetic Pump of Small Fast Reactor 4S(<Special Issue>The 14th National Symposium on Power and Energy System)

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Minoru Funato

Development of 160 m3/min Large Capacity Sodium-Immersed Self-Cooled Electromagnetic Pump

Development of 160m3/min Large Capacity Sodium-Immersed Self-Cooled Electromagnetic Pump

Development of a Large Diameter Electromagnetic Pump for 4S

E217 Development of small fast reactor 4S : Development of large diameter high temperature electromagnetic pump

Development of Large Diameter High Temperature Electromagnetic Pump of Small Fast Reactor 4S(<Special Issue>The 14th National Symposium on Power and Energy System)

Contact Info

Product

Resources

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Development of 160 m³/min Large Capacity Sodium-Immersed Self-Cooled Electromagnetic Pump