TY - JOUR
T1 - Developing a correlation index and U disequilibrium factor for the exploratory boreholes in Wahkut block of West Khasi Hills district, Meghalaya (India)
AU - Kukreti, B. M.
AU - Kumar, Pramod
PY - 2013/2
Y1 - 2013/2
N2 - With the objective to affirm the apparent uranium ore zone grade/thickness with good confidence for the non-cored as well as those boreholes with poor core recovery in the sedimentary environment of Wahkut block, West Khasi Hills district of Meghalaya, a systematic study between the in situ measured γ-ray logs under field conditions and laboratory analyzed core assay under controlled conditions has been carried out.The study area spans 2sqkm having 33 cored and 39 non-cored boreholes with a cumulative drilled depth of about 11,000m. On this available cored borehole database, simultaneous uranium ore zone continuity, both for in situ γ-ray logs and radiometric core assay, was evaluated with the experimental parameters of 1.0m ore zone thickness at 0.010% eU3O8 cut off grade. A population of 18 such simultaneous qualifying zone (borehole log and core assay) across the 15 cored boreholes gave a grade thickness continuity index of 0.92 with a moderately strong relationship between the radiometric core assay and the in situ γ-ray logs.After validation of an in situ uranium ore zone, study boreholes were examined for their uranium disequilibrium status by fitting regression equations for the radiometric U3O8(Β/γ) and spectrometric radium measurements, done on the borehole core samples. A parent favoring uranium disequilibrium was observed in the sedimentary environment of Wahkut block, with a log normal distribution. An average uranium disequilibrium factor 1.46±0.245 was estimated for the 19 study boreholes, across the block.
AB - With the objective to affirm the apparent uranium ore zone grade/thickness with good confidence for the non-cored as well as those boreholes with poor core recovery in the sedimentary environment of Wahkut block, West Khasi Hills district of Meghalaya, a systematic study between the in situ measured γ-ray logs under field conditions and laboratory analyzed core assay under controlled conditions has been carried out.The study area spans 2sqkm having 33 cored and 39 non-cored boreholes with a cumulative drilled depth of about 11,000m. On this available cored borehole database, simultaneous uranium ore zone continuity, both for in situ γ-ray logs and radiometric core assay, was evaluated with the experimental parameters of 1.0m ore zone thickness at 0.010% eU3O8 cut off grade. A population of 18 such simultaneous qualifying zone (borehole log and core assay) across the 15 cored boreholes gave a grade thickness continuity index of 0.92 with a moderately strong relationship between the radiometric core assay and the in situ γ-ray logs.After validation of an in situ uranium ore zone, study boreholes were examined for their uranium disequilibrium status by fitting regression equations for the radiometric U3O8(Β/γ) and spectrometric radium measurements, done on the borehole core samples. A parent favoring uranium disequilibrium was observed in the sedimentary environment of Wahkut block, with a log normal distribution. An average uranium disequilibrium factor 1.46±0.245 was estimated for the 19 study boreholes, across the block.
KW - Core assay
KW - Disequilibrium factor
KW - Gamma ray logs
KW - Mahadek basin
KW - Sedimentary
UR - http://www.scopus.com/inward/record.url?scp=84870155974&partnerID=8YFLogxK
U2 - 10.1016/j.apradiso.2012.09.021
DO - 10.1016/j.apradiso.2012.09.021
M3 - ???researchoutput.researchoutputtypes.contributiontojournal.article???
AN - SCOPUS:84870155974
SN - 0969-8043
VL - 72
SP - 6
EP - 10
JO - Applied Radiation and Isotopes
JF - Applied Radiation and Isotopes
ER -