Lanthaler, S.Graves, J. P.Pfefferle, D.Cooper, W. A.2019-06-182019-06-182019-06-182019-07-0110.1088/1361-6587/ab1d21https://infoscience.epfl.ch/handle/20.500.14299/157159WOS:000470209800001A kinetic-magnetohydrodynamic model with kinetic pressure closure is derived from a consistent guiding-centre framework. Higher-order (gyroviscous) corrections to the pressure tensor are derived in complex geometry from a reduced kinetic equation. The proposed model allows for flows of the order of the thermal ion velocity, taking into account important centrifugal effects due to the E x B flow, as well as the effects of diamagnetic flows associated with finite Larmor radius corrections to both ion fluid inertia and long mean-free path contributions. Wave-particle interactions, such as toroidal drift-resonance, are retained. Furthermore, the linearised model includes a quasi-neutrality equation, allowing the effects of a parallel electric field to be studied in fast rotating tokamak plasmas.Physics, Fluids & PlasmasPhysicsguiding-centre theorykinetic-mhdgyroviscouslie perturbationmhd stabilityrotationinternal kink modegyroviscous forcehydromagnetic equationscodeinstabilitiesturbulencetransportstabilitymhdtext::journal::journal article::research article