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Irradiation Sample Transfer Line Snubbing Section Behavior Greg Padilla and Keane Nishimoto.

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Presentation on theme: "Irradiation Sample Transfer Line Snubbing Section Behavior Greg Padilla and Keane Nishimoto."— Presentation transcript:

1 Irradiation Sample Transfer Line Snubbing Section Behavior Greg Padilla and Keane Nishimoto

2 Introduction Background The MIT reactor and Transfer Line Motivation Safety measure in case of Transfer Line failure Desired Findings Model to help design snubbing section

3 Procedure Apparatus Experimental Procedure Data Processing

4 Apparatus Smooth Section W/ Bend First Sensor Snubbing Section Pressure Sensor Second Sensor Transfer Cylinder Transfer line

5 Experimental Procedure Calibration of pressure sensor Drops at 4 heights for each of 3 different masses Data Recorded

6 Data Processing Calibration data Capsule velocity calculated Pressure calculations

7 Typical Data from Drop Test Data taken form container mass = 0.7kg Height = 42” inches

8 Data Trigger Trace from first sensor Trace from second sensor Trace from Pressure sensor

9 Theoretical Analysis Model of the falling capsule Transfer Line Snubbing Section MATLAB Simulation

10 Transfer Line Model The capsule is a falling object

11 Snubbing Section Model Force due to gravity Force due to pressure Ideal Gas Law – PV=mRT Navier Stokes Used to determine the mass of air left

12

13 MATLAB simulation ODE 23 solver State Variables Position and velocity of capsule Mass of air in snubbing section

14 Results

15 Smooth Section Model Velocity is independent of Mass Velocity is a Function of Height Velocity = 1.46*Height + 2.18 Ave. Error of 16%

16 Snubbing Section Model Initial Conditions: Mass = 0.7kg Velocity = 4.0m/s Temperature = 298K

17 Recommendations Temp = 574K Velocity = 5.0m/s Snubbing Length =1.5m Max P=1.81kPa Snubbing Length =1.0m Max P=1.86kPa

18 Final Temp = 574K Velocity = 5.0m/s Snubbing Length =1.3m Max P=1.83kPa

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