Sponsored Research
Projects / Workshops
(Current) National Science Foundation, DMS-2208590, PI; "Developing
Efficient and Robust Computational Tools for Subdiffusive
Transport in Poroelastic Media"
- Boyang Yu, Yonghai
Li, Jiangguo Liu,
Fast numerical solvers for subdiffusion problems with
spatial interfaces, Submitted (2023).
- #6. Boyang Yu,
Yonghai Li, Jiangguo Liu, A positivity-preserving and robust fast solver for
time-fractional convection-subdiffusion problems, J. Sci. Comput.,
98(2024), Article #59. DOI:
https://doi.org/10.1007/s10915-024-02454-z
- #5. Ruishu Wang, Zhuoran Wang, Simon Tavener, Jiangguo Liu, Full weak Galerkin finite element
discretizations for poroelaticity problems in the primal
formulation, J. Comput. Appl. Math., 443(2024),
Article #115754. Link
- #4. Y.Sun, J.Heacock, C.Chen, K.Qiu, L.Zou, J.Liu, Y.V.Li, Incorporation of gentamicin-encapsulated
poly (lactic-co-glycolic acid) nanoparticles into
polyurethane/poly(ethylene oxide) nanofiber scaffolds for
biomedical applications, ACS Appl. Nano
Mater., 6(2023), pp.16096-16105. Link
- #3. Yu Sun, Yan Li, Jiangguo Liu, Mathematical
modeling and numerical simulations for drug release from
PLGA particles, Lec. Notes
Comput. Sci., Vol.14077,
pp.347-360. (ICCS
2023 Proceedings Part V, Springer)
DOI: https://doi.org/10.1007/978-3-031-36030-5_28
- #2. Ruishu Wang, Zhuoran Wang, Jiangguo Liu, Penalty-free any order weak GalerkinFEMs for
linear elasticity on quadrilateral meshes, J. Sci. Comput., 95(2023), Article
#20. DOI: https://doi.org/10.1007/s10915-023-02151-3
-
Penalty-Free Any-Order Weak Galerkin FEMs for Linear
Elasticity on Quadrilateral Meshes
#1. Zhuoran Wang, Ruishu Wang, Jiangguo Liu, Robust weak Galerkin finite element solvers
for Stokes flow based on a
lifting operator, Comput. Math.
Appl., 125(2022), pp.90-100. DOI: https://doi.org/10.1016/j.camwa.2022.08.043
- DarcyLite
(Ver.1.2.4) How
To Use DarcyLite DarcyLite
Release Notes
Matlab toolbox for simulations of flow and transport in porous
media, poroelasticity, and more;
Mainly for 2-dim problems by the weak Galerkin (WG) finite
element methods.
- Darcy+
(Ver.1.3.2)
C++ toolbox for simulations of flow and transport in porous
media, poroelasticity, and more;
Mainly for 3-dim problems by the weak Galerkin (WG) finite
element methods.
Finished Projects
- National
Science Foundation,
DMS-1819252, PI; "Developing Efficient and Accessible
Computational Tools for Poroelasticity Problems"
- National
Science Foundation,
DMS-1419077, PI; "Developing
Novel Numerical Methods for Flow and Transport in Porous Media"
- National
Science Foundation,
DMS-0915253, PI; "New
Techniques in Characteristic Finite Element Methods for Flow
Problems"
- National Science Foundation,
DMS-0854518, Co-PI; "Workshop
on Mathematical Modeling and Computer Simulations for Soft
Materials"
- Pacific Northwest National Lab (PNNL) subcontracts (2014,
2013, 2012)
- Colorado State University, CIMS 2009; "Mathematical Modeling of Gag
Protein Trafficking Inside Cytoplasm"
Useful tool/link (conversion to NSF
accepted PDF/A format): https://docupub.com/pdfconvert/
Funding Opportunities
DOE: Advanced
Scientific Computing Research
NSF Math Division: ApplMath
ComputMath
MathBiology
NSF/NIH:
Joint DMS/NIGMS Initiative: Interface of the Biological and
Mathematical Sciences
Qatar National Research Fund