TY - JOUR
ID - 3952
TI - Analytical Solutions for Spatially Variable Transport-Dispersion of Non-Conservative Pollutants
JO - Journal of Heat and Mass Transfer Research
JA - JHMTR
LA - en
SN - 2345-508X
AU - Shukla, Vidya Prasad Visvanath
AD - Professor, Department of Mathematics
Y1 - 2019
PY - 2019
VL - 6
IS - 2
SP - 125
EP - 132
KW - Transport
KW - dispersion
KW - logarithmic transformation
KW - one-dimensional
KW - non-conservative pollutant
DO - 10.22075/jhmtr.2019.15592.1217
N2 - Analytical solutions have been obtained for both conservative and non-conservative forms of one-dimensional transport and transport-dispersion equations applicable for pollution as a result of a non-conservative pollutant-disposal in an open channel with linear spatially varying transport velocity and nonlinear spatially varying dispersion coefficient on account of a steady unpolluted lateral inflow in accordance to the channel. A logarithmic transformation in the space variable has been applied in order to derive a general solution of the transport equation for spatially variable initial pollutant distribution and upstream time-dependent pollutant concentration. The logarithmic transformation reduces both conservative and non-conservative forms of transport-dispersion equation to a form with constant coefficients that is solvable by analytical methods. An analysis of these solutions indicates that only the solution of a conservative form of the governing equation yields appropriate results that are conceptually acceptable in a real physical situation. The solution lends to analyze the damping effect of such transport on the pollutant with an initial Gaussian profile, in contrast with that of the initial quasi-Gaussian profile available in the literature. It is noteworthy to mention that the solution of conservative form of the transport equation implies that mass of the non-conservative pollutant in the channel decreases with an increase in time, and finally reaches to a constant value that is a ratio of product of the transport velocity coefficient and upstream concentration to the coefficient of decay of the pollutant.
UR - https://jhmtr.semnan.ac.ir/article_3952.html
L1 - https://jhmtr.semnan.ac.ir/article_3952_53440464d56b818ec2e919189740f8d3.pdf
ER -