Nuclear Engineering and Technology

  • 제30권3호
  • /
  • Pages.245-261
  • /
  • 1998
  • /
  • 1738-5733(pISSN)
  • /
  • 2234-358X(eISSN)
한국원자력학회 (Korean Nuclear Society)
권호 표지

A Study on Validation of Variable Aperture Channel Model: Migration Experiments of Conservative Tracer in Parallel and Wedge-Shaped Fracture

  • Keum, D.K. (Korea Atomic Energy Research Institute) ;
  • Hahn, P.S. (Korea Atomic Energy Research Institute) ;
  • Vandergraaf, T.T. (Whiteshell Laboratories Pinawa)
  • 발행 : 1998.06.01
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

In order to validate the variable aperture channel model that can deal with the non-uniform How rate in flow domain, migration experiments of conservative tracer were performed in two artificial fractures, a parallel and a wedge-shaped fracture. These different fracture shapes were designed to give different flow pattern. The fractures were made from a transparent acrylic plastic plate and a granite slab with dimensions of 10 $\times$ 61 $\times$ 61 cm. Uranine (Fluorescein sodium salt) was used as a conservative tracer. The volumetric flow rates of uranine feed solution were 30 mL/ hr, giving a mean residence time in the fracture of approximately 24 hours for the parallel fracture and 34 hours for the wedge-shaped fracture. The migration plumes of uranine were photographed to obtain profiles in space and time for movement of a tracer in fractures. The photographed migration plume was greatly affected by the geometric shape of fractures. The variable aperture channel model could have predicted the experimental results for the parallel fracture with a large accuracy. It is expected that the variable aperture channel model would be effective to predict the transport of the contaminant, especially, with the flow rate variation in a fracture.

키워드

참고문헌

  1. Water Resour. Res. v.17 Contaminant transport in fractured porous media: An analytical solution for a single fracture Tang, D.H.;E.O. Frind;E.A. Sudicky
  2. Water Resour. Res. v.18 Tracer movement in a single fissure in granite rock : Some experimental results and their Interpretation Neretnieks, I.;T. Eriksen;P. Tahtinen
  3. Water Resour. Res. v.21 Analysis of some laboratory tracer runs in natural fissures Moreno, L. I. Neretnieks;T. Eriksen
  4. J. of Contam. Hydro. v.14 Analysis of the migration of instantaneously injected cesium in artificial fractures of Lac du Bonnet granite,Manitoba Canada Fujikawa, Y.;M. FuKui;D.J. Drew;T.T. Vandergraaf
  5. J. Korean Nuclear Soc. v.26 Stydy on radionuclide migration modeling for a single fracture in geological medium Keum, D.K.;W.J. Cho;P.S. Hahn;H.H. Park
  6. KBS Technical Report 84-07 Study of strontium and cesium migration in fractured crystalline rock Gustafsson, E.;C.E. Klockars
  7. SKB Technical Report 92-25 Tracer experiments in the Stripa mine 1980~1991 Birgersson, L.;H. Widen;T. Argen
  8. J. of Contam. Hydro. v.21 The Grimsel(Switzerland) migration experiment : integrating fields experiments, laboratory investigations and modeling Hadermann, J.;W. Heer
  9. Water Resour. Res. v.19 A note on fracture flow dispersion mechnism in the ground Neretnieks, L.
  10. Nuclear Technology v.120 A stratified channel model with local longitudinal dispersion Keum, D.K.;C.K. Park;P.S. Hahn;T.T. Vandergraaf
  11. Water Resour. Res. v.23 Channel model of flow through fractured media Tsang, Y.W.;C.F. Tsnag
  12. Water Resour. Res. v.24 Flow and tracer transport in fractured media : A variable aperture channel model and its properties Tsang, Y.W.;C.F. Tsang;I. Neretnieks;L. Moreno
  13. Water Resour. Res. v.24 Flow and tracer in a single fracture: A stochastic model and its relation to some field observations Moreno, L.;Y.W. Tsang;C.F. Tsang;F.V. Hale;I. Neretnieks
  14. J. Nuclear Sci. & Tech. v.28 Analysis of tracer movement in single fracture in granite core (INTRAVAL: case 2) Kimura, H.;M. Munakata
  15. J. of Contam. Hydro. v.26 Analysis of the migration of nonsorbing tracers in a natural fracture in granite using a variable aperture channel model Park, C.K.;P.S. Hahn;T.T. Vandergraaf
  16. Ph.D. Thesis, St. Catherine's, Oxford University, Ref. TP1072 Connectivity, flow and transport in network models of fractured media Robin, P.C.
  17. Applied Numerical Methods Carnahan, B.;H.A. Luther;J.O. Wilks