Status of EVOLVE boiling flow regime experiments M.H. Anderson M.L. Corradini J. Murphy I. Sviatoslavsky M. Sawan APEX TASK IV APEX ELECTRONIC MEETING Feb. 7, 2002 U- Madison of Nuclear Systems Nuclear Engr & Engr Physics, University of isconsin - Madison
Outline Test section N 2 - He/NaK experiments Experimental results (Void fraction distributions) Cryostat design and progress Time line of progress Summary U- Madison of Nuclear Systems Nuclear Engr & Engr Physics, University of isconsin - Madison
Test section Test section and rails to be Inserted into magnet bore Injector holes seen through mirror Test section Front view Top view of test section Support rails for magnet bore U- Madison of Nuclear Systems Nuclear Engr & Engr Physics, University of isconsin - Madison
X-ray void calibration Artificial voids X-ray image of calibration block used to generate the curve below NaK filled calibration block 2.5 2.0 NaK Calibration data (16 bit) Z Void =2.01*ln(P(x,y)/P back )+0.33 Z void [cm] 1.5 1.0 0.5 0.0 Z Void = B*ln(P(x,y)/P back )+A Parameter Value Error A = 0.33 0.08 B = 2.01 0.12 R = 0.99 0.12 U- Madison 0.0 0.2 0.4 0.6 0.8 1.0 1.2 ln[(p-d)/(p b -D)] of Nuclear Systems Nuclear Engr & Engr Physics, University of isconsin - Madison
He/NaK experiments Average void distribution of Helium injected into NaK at 85 cm 3 /s. The pixel value is proportional to the void. U- Madison of Nuclear Systems Nuclear Engr & Engr Physics, University of isconsin - Madison
Average void distribution in the NaK pool Plots show the average void produced for different volumetric flow rates. As the flow increases the amount of liquid metal lifted by the jet increases. Average line void [%] 1.25 1.00 0.75 0.50 0.25 0.00 He Q = 285 cm 3 /s He Q = 256.6 He Q = 200.0 He Q = 142.5 He Q = 0.0 Average line void [%] 1.25 1.00 0.75 0.50 0.25 0.00 N 2, Q = 35.0 cm 3 s N 2, Q = 27.0 N 2, Q = 19.0 N 2, Q = 11.0 N 2, Q = 0.0-0.25-0.5 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 Axial height of pool [cm] -0.25-0.5 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 Axial height of pool [cm] U- Madison of Nuclear Systems Nuclear Engr & Engr Physics, University of isconsin - Madison
N 2 - He/NaK experiments: Sample images of 200 frames taken at 136 fps 19 cm 3 /s N2 285 cm 3 /s He U- Madison of Nuclear Systems Nuclear Engr & Engr Physics, University of isconsin - Madison
Horizontal 6 clear bore cryo-vessel and magnet This facility will allow several MHD studies at high field strengths Power stack American Magnetics A6080-3 Central field 60KG Clear bore 6.0 inches Overall Length 12 inches LN2 44.03 Inches LHe S.C. Magnet 12.00 Inches Horizontal Clear bore 6.00 Inches 0.7500 22.00 Inches U- Madison of Nuclear Systems Nuclear Engr & Engr Physics, University of isconsin - Madison
Progress on LHe Cryo- Stat U- Madison of Nuclear Systems Nuclear Engr & Engr Physics, University of isconsin - Madison
Magnet and Cryostat setup LHe vapor cooled current leads Test section pressure Injector flow control valves NaK Handling facility U- Madison Test section assembly in magnet bore of Nuclear Systems Nuclear Engr & Engr Physics, University of isconsin - Madison Magnet power supplies
Feb-01 Aug-01 Schedule of experimental activity e have completed the tasks shown in the green and are at the stage of preliminary experiments with NaK and helium injection. The cryogenic system has been designed and is under construction and scheduled for completion sometime this month. Obtain S.C. Magnets Power supplies and other necessary equipment (current leads, level sensors) Task Design Experiment And Perform scaling analysis Construction of test section Perform Preliminary experiments with air/water Design and construction of cryogenic LHe chamber for S.C. Magnet Perform Experiments ith NaK and helium MHD study Review MHD literature May-01 Dec-00 Jan-01 Mar-01 Apr-01 June-01 July-01 Sept-01 Oct-01 Nov-01 Dec-01 Jan -02 Feb-02 Mar-02 Apr-02 May-02 Jun-02 U- Madison Time Line of Nuclear Systems Nuclear Engr & Engr Physics, University of isconsin - Madison
Summary: Experimental test section and X-ray calibration block have been constructed and instrumentation and control systems for gas injection and imaging are in place. NaK handling system to control O 2 and H 2 O during transfer and gas injection is in place. X-ray image experiments have been conducted for air/water and for N 2 He/NaK and void vs- position was obtained for several flow rates. Air/water experiments result in high liquid entrainment and significant decrease in pool volume for low flow rates. He/Nak experiments had little liquid metal entrainment however large oscillations on the surface of the liquid metal during moderate volumetric injection rates. The horizontal clear bore cryogenic chamber is in place and final setup is being finished (ie. Power supply, liquid helium level detectors) U- Madison of Nuclear Systems Nuclear Engr & Engr Physics, University of isconsin - Madison