Tsoutsanis, PanagiotisDrikakis, Dimitris2016-09-212016-09-212016-06-30Tsoutsanis, P., Drikakis, D. (2016) Addressing the challenges of implementation of high-order finite-volume schemes for atmospheric dynamics of unstructured meshes, Proceedings of the ECCOMAS Congress 2016 VII European Congress on Computational Methods in Applied Sciences and Engineering, 5-10 June 2016, Crete, Greece.http://www.eccomas2016.org/proceedings/pdf/8406.pdfhttps://dspace.lib.cranfield.ac.uk/handle/1826/10560The solution of the non-hydrostatic compressible Euler equations using Weighted Essentially Non-Oscillatory (WENO) schemes in two and three-dimensional unstructured meshes, is presented. Their key characteristics are their simplicity; accuracy; robustness; non-oscillatory properties; versatility in handling any type of grid topology; computational and parallel efficiency. Their defining characteristic is a non-linear combination of a series of high-order reconstruction polynomials arising from a series of reconstruction stencils. In the present study an explicit TVD Runge-Kutta 3rd -order method is employed due to its lower computational resources requirement compared to implicit type time advancement methods. The WENO schemes (up to 5th -order) are applied to the two dimensional and three dimensional test cases: a 2D rising.enPublished by European Congress on Computational Methods in Applied Sciences and Engineering. This is the final published version of the article (version of record). Available at: http://www.eccomas2016.org/proceedings/pdf/8406.pdf Please refer to any applicable publisher terms of use.WENOUnstructured meshesNon-hydrostaticRising bubbleConference paper