Title :
The specific purpose Monte Carlo code McENL for simulating the response of epithermal neutron lifetime well logging tools
Author :
Prettyman, T.H. ; Gardner, R.P. ; Verghese, K.
Author_Institution :
Center for Eng. Applications of Radioisotopes, North Carolina State Univ., Raleigh, NC, USA
fDate :
8/1/1993 12:00:00 AM
Abstract :
A new specific purpose Monte Carlo code called McENL for modeling the time response of epithermal neutron lifetime tools is described. The weight windows technique, employing splitting and Russian roulette, is used with an automated importance function based on the solution of an adjoint diffusion model to improve the code efficiency. Complete composition and density correlated sampling is also included in the code, and can be used to study the effect on tool response of small variations in the formation, borehole, or logging tool composition and density. An illustration of the latter application is given for the density of a thermal neutron filter. McENL was benchmarked against test-pit data for the Mobil pulsed neutron porosity tool and was found to be very accurate. Results of the experimental validation and details of code performance are presented
Keywords :
Monte Carlo methods; geophysical prospecting; geophysics computing; neutron detection and measurement; neutron diffusion; porosity; McENL; Mobil pulsed neutron porosity; Russian roulette; adjoint diffusion; automated importance function; code efficiency; code performance; density correlated sampling; epithermal neutron lifetime well logging tools; experimental validation; response simulation; small variations; specific purpose Monte Carlo code; splitting; thermal neutron filter; time response; weight windows technique; Automatic control; Detectors; Filters; Hydrogen; Monte Carlo methods; Neutrons; Radioactive materials; Sampling methods; Time factors; Well logging;
Journal_Title :
Nuclear Science, IEEE Transactions on
