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@@ -130,3 +130,31 @@ Wandeffekte in Betracht zieht.}
   year = 2017
 }
 
+@article{KRAUSE2017HLBM,
+title = {Particle flow simulations with homogenised lattice Boltzmann methods},
+journal = {Particuology},
+volume = {34},
+pages = {1-13},
+year = {2017},
+issn = {1674-2001},
+doi = {https://doi.org/10.1016/j.partic.2016.11.001},
+url = {https://www.sciencedirect.com/science/article/pii/S167420011730041X},
+author = {Mathias J. Krause and Fabian Klemens and Thomas Henn and Robin Trunk and
+Hermann Nirschl},
+keywords = {Particulate flow simulations, Arbitrarily shaped particles, Lattice Boltzmann
+methods, Validation, Sedimentation processes},
+abstract = {An alternative approach to simulating arbitrarily shaped particles submersed in
+viscous fluid in two dimensions is proposed, obtained by adapting the velocity parameter of
+the equilibrium distribution function of a standard lattice Boltzmann method (LBM).
+Comparisons of exemplifying simulations to results in the literature validate the approach as
+well as the convergence analysis. Pressure fluctuations occurring in Ladd’s approach are
+greatly reduced. In comparison with the immersed boundary method, this approach does
+not require cost intensive interpolations. The parallel efficiency of LBM is retained. An
+intrinsic momentum transfer is observed during particle–particle collisions. To demonstrate
+the capabilities of the approach, sedimentation of particles of several shapes is simulated
+despite omitting an explicit particle collision model.}
+}
+
+@article{Peskin_2002, title={The immersed boundary method}, volume={11},
+DOI={10.1017/S0962492902000077}, journal={Acta Numerica}, author={Peskin, Charles
+S.}, year={2002}, pages={479–517}}