@ARTICLE{Havryliuk_Volodymyr_Mathematical_2021,
 author={Havryliuk, Volodymyr and Bomba, Andrii and Pinchuk, Oleg and Gerasimov, Ievgenii and Klimov, Serhii and Tkachuk, Mykola and Turcheniuk, Vasyl},
 number={No 50},
 pages={74-78},
 journal={Journal of Water and Land Development},
 howpublished={online},
 year={2021},
 publisher={Polish Academy of Sciences; Institute of Technology and Life Sciences - National Research Institute},
 abstract={The article discusses the option for the application of the methodology for the solution of boundary value problems on the conformal mapping for the calculation of filtration process in the horizontal systematic drainage, provided that the drain is installed at a different depth. In particular, the case of methods combining fictitious areas and quasiconformal mappings for solving nonlinear boundary conditions problems for calculating filtration regimes in soils with free sections of boundaries (depression curves) and intervals of the “drainage” type. As an example, the authors designed a hydrodynamic flow grid, determined the values of the flows to the drain, established a section line and elicited other process characteristics. The algorithm for the numerical solution of model nonlinear boundary conditions problems of quasiconformal reflection in areas bounded by two equipotential lines and two flow lines, when for one of the sections, the boundary is an unknown (free) curve with fixed and free ends. The conducted numerical calculations prove that the problems and algorithms of their numerical solution, with a relatively small iterations number (k = 141) suggested in the paper, can be applied in the simulation of nonlinear filtration processes that arise in horizontal drainage systems. Total filtration flow obtained Q = 0.9 dm3·s–1; flow for drains Q1 = 0.55 dm3·s–1 and Q2 = 0.35 dm3·s–1 are quite consistent with practically determined values.},
 type={Article},
 title={Mathematical modelling of filtration processes in drainage systems with different depths of drainage},
 URL={http://journals.pan.pl/Content/121302/PDF/2021-03-JLWD-09-Havryliuk.pdf},
 doi={10.24425/jwld.2021.138163},
 keywords={conformal mapping, drainage systems, filtration processes, flood protection, mathematical modelling},
}