00000nam 2200000za 4500 9.846589 CaOODSP 20241203113640 cr ||||||||||| 171103s1996 onca|||fo f000 0 eng d CaOODSP eng n-cn--- En13-5/97-113E-PDF Novakowski, Kent S. A semi-analytical model for the simulation of solute transport in a network of fractures having random orientations [electronic resource] / by K.S. Novakowski and J.D. Bogan. [Burlington, Ont.] : Environment Canada, Water Science and Technology Directorate, [1996]. 22, [16] p. : ill. NWRI contribution ; 97-113 "for submission to: Journal of Contaminant Hydrology". "November, 1996". Digitized edition from print [produced by Environment and Climate Change Canada]. Includes bibliographical references. "A semi-analytical model is developed which accounts for solute transport through a multidimensional network of fractures having random orientations and sparse distribution. Transport processes including hydrodynamic dispersion, matrix diffusion, retardation, decay and solute transfer at fracture intersections, are considered. The model is derived by application of the Laplace transform to the governing transport equation for each fracture element. The resulting ordinary differential equations are linked using robust descriptions of mass conservation at the fracture intersections. Solute concentrations are determined by numerically inverting the transformed equations in a sequential fashion. The model is verified using a formal mass balance and through comparison to existing solutions for solute transport in porous and fractured media. To illustrate the use of the model, solute transport in a hypothetical network domain was simulated based on fracture conditions measured at a real field setting in a granitic rock"--Abstract. gccst Hydrogeology gccst Sediments Bogan, J. D. Canada. Environment Canada. National Water Research Institute (Canada) NWRI contribution ; no. 97-113 (CaOODSP)9.844121 PDF 1.51 MB https://publications.gc.ca/collections/collection_2017/eccc/En13-5-97-113-eng.pdf