Characterization of Tru Inventories in G and H Cells, 327 Building using a Neutron Instrument Pod
- BATTELLE (PACIFIC NW LAB)
- NUMATEC HANFORD CORP
An instrument pod has been designed and constructed to estimate the quantity of TRU isotopes present in hot cells in Hanfords 327 Building. This estimate is required to assign the proper waste classification for ultimate disposal of the hot cell. The instrument pod consists of a cylindrical polyethylene moderator containing three neutron detectors. The pod diameter was chosen to allow the pod to be deployed through a 7-inch port in the hot cell wall. A polyethylene traverse pipe, long enough to extend through the interior of the cell, was designed for insertion through the hot cell port, allowing the pod to be positioned inside the cell. The neutron detectors chosen for the pod were fission chambers, which provides acceptable sensitivity to neutrons with excellent rejection of gammas even in high-contamination cells. The neutron pod was tested and calibrated in PNNLs Low Scatter Room (LSR), using a 252Cf source in both unmoderated and D2O-moderated configurations. The calibration configurations were then modeled using MCNP to arrive at a calibration constant that relates the neutron flux incident on the pod to neutron count rate. The neutron pod was used in the G and H hot cells in the 327 Building. These hot cells had been decommissioned and are slated for disposal. For each hot cell, the neutron pod was positioned at about 10 locations inside the cell and count rates were recorded. The recorded count rates were all very close to background levels, since substantial cleanup effort had been expended in each cell. MCNP modeling was then performed, with plutonium distributed inside the cell in several likely distributions. The models produced values of neutron count rate per gram Pu in the cell. These values were then applied to the measured count rates to determine the quantity of Pu that is in the cell. The best estimate for the contents of G cell is 1.18 g Pu, with an uncertainty bound ranging from 0 g to 2.75 g Pu. For H Cell, the best estimate is 1.03 g Pu, with an uncertainty bound ranging from 0 g to 2.80 g Pu. The best estimates of the TRU activity as a function of waste mass in the entire cell is 2.34 nCi/g for G cell and 3.87 nCi/g for H cell.
- Research Organization:
- Pacific Northwest National Lab., Richland, WA (US), Environmental Molecular Sciences Lab. (US)
- Sponsoring Organization:
- US Department of Energy (US)
- DOE Contract Number:
- AC06-76RL01830
- OSTI ID:
- 15005589
- Report Number(s):
- PNNL-14178; 2292; 820201000; TRN: US0305576
- Resource Relation:
- Other Information: PBD: 31 Jan 2003
- Country of Publication:
- United States
- Language:
- English
Similar Records
Neutron Screening Measurements of 110 gallon drums at T Plant
Improvements to the operational efficiency of the Portsmouth 'Blue Box' Assay system - 15162