Smoothed particle hydrodynamics simulation : a tool for accurate characterization of microfluidic devices

Smoothed particle hydrodynamics simulation : a tool for accurate characterization of microfluidic devices

Edgar Andres Patino-Narino, Hugo Sakai Idagawa, Daniel Silva de Lara, Raluca Savu, Stanislav A. Moshkalev, Luiz Otavio Saraiva Ferreira

ARTIGO

Inglês

Agradecimentos: The authors are grateful to FAPESP and CNPq foundation and to Labmulti (IFGW) Unicamp for laser writing technical support, as well as to the Center for Computational Engineering and Sciences (CCES-CEPID/UNICAMP) for support of computational facilities. E.A.P.-N. is grateful to FAPESP...

Abstract: This work presents a two-dimensional (2D) model employing the mesh-free smoothed particle hydrodynamics (SPH) method for accurate characterization of microdevices. The simulator was validated by comparing analytical and numerical results from literature with the cases of Poiseuille,...

CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQ

FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESP

Fechado

Smoothed particle hydrodynamics simulation : a tool for accurate characterization of microfluidic devices

Edgar Andres Patino-Narino, Hugo Sakai Idagawa, Daniel Silva de Lara, Raluca Savu, Stanislav A. Moshkalev, Luiz Otavio Saraiva Ferreira


										

Smoothed particle hydrodynamics simulation : a tool for accurate characterization of microfluidic devices

Edgar Andres Patino-Narino, Hugo Sakai Idagawa, Daniel Silva de Lara, Raluca Savu, Stanislav A. Moshkalev, Luiz Otavio Saraiva Ferreira

    Fontes

    Journal of engineering mathematics

    Vol. 115, no. 1 (Apr., 2019), p. 183-205