Analytical model for advective-dispersive transport involving flexible boundary inputs, initial distributions and zero-order productions

Jui Sheng Chen, Loretta Y. Li, Keng Hsin Lai, Ching Ping Liang

Research output: Contribution to journalArticlepeer-review

10 Scopus citations


A novel solution method is presented which leads to an analytical model for the advective-dispersive transport in a semi-infinite domain involving a wide spectrum of boundary inputs, initial distributions, and zero-order productions. The novel solution method applies the Laplace transform in combination with the generalized integral transform technique (GITT) to obtain the generalized analytical solution. Based on this generalized analytical expression, we derive a comprehensive set of special-case solutions for some time-dependent boundary distributions and zero-order productions, described by the Dirac delta, constant, Heaviside, exponentially-decaying, or periodically sinusoidal functions as well as some position-dependent initial conditions and zero-order productions specified by the Dirac delta, constant, Heaviside, or exponentially-decaying functions. The developed solutions are tested against an analytical solution from the literature. The excellent agreement between the analytical solutions confirms that the new model can serve as an effective tool for investigating transport behaviors under different scenarios. Several examples of applications, are given to explore transport behaviors which are rarely noted in the literature. The results show that the concentration waves resulting from the periodically sinusoidal input are sensitive to dispersion coefficient. The implication of this new finding is that a tracer test with a periodic input may provide additional information when for identifying the dispersion coefficients. Moreover, the solution strategy presented in this study can be extended to derive analytical models for handling more complicated problems of solute transport in multi-dimensional media subjected to sequential decay chain reactions, for which analytical solutions are not currently available.

Original languageEnglish
Pages (from-to)187-199
Number of pages13
JournalJournal of Hydrology
StatePublished - Nov 2017


  • Analytical solution
  • Boundary input
  • Initial distribution
  • Periodically sinusoidal input
  • Semi-infinite domain
  • Zero-order production


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