Prediction of unsteady slug flow in a long curved inclined riser with a slug tracking model.

Padrino, Juan C.; Srinil, Narakorn; Kurushina, Victoria; Swailes, David

doi:10.1016/j.ijmultiphaseflow.2023.104410

All Outputs (3)

Flow-induced forces for a group of one large and several small structures in the sheared turbulent flow. (2023)
Journal Article
ANNAPEH, H.F. and KURUSHINA, V. 2023. Flow-induced forces for a group of one large and several small structures in the sheared turbulent flow. Fluids [online], 8(5), article number 158. Available from: https://doi.org/10.3390/fluids8050158

Evaluating the hydrodynamic force fluctuations acting on each structure in a group of subsea objects of different cross-section shapes, sizes and relative positions represents a challenge due to the sensitivity of the vortex shedding process, especia... Read More about Flow-induced forces for a group of one large and several small structures in the sheared turbulent flow..

Hydrodynamic loads on a group of six structures of different cross-sections in uniform and sheared flow. (2023)
Journal Article
ANNAPEH, H.F. and KURUSHINA, V. 2023. Hydrodynamic loads on a group of six structures of different cross-sections in uniform and sheared flow. Journal of marine science and engineering [online], 11(2), article number 383. Available from: https://doi.org/10.3390/jmse11020383

The estimates of hydrodynamic forces for a group of structures represent a challenge for the design of offshore systems, as they are subject to changes with a variation in flow profiles. The fluctuating effects may be more pronounced or, on the contr... Read More about Hydrodynamic loads on a group of six structures of different cross-sections in uniform and sheared flow..

Prediction of unsteady slug flow in a long curved inclined riser with a slug tracking model. (2023)
Journal Article
PADRINO, J.C., SRINIL, N., KURUSHINA, V. and SWAILES, D. 2023. Prediction of unsteady slug flow in a long curved inclined riser with a slug tracking model. International journal of multiphase flow [online], 162, article number 104410. Available from: https://doi.org/10.1016/j.ijmultiphaseflow.2023.104410

An improved one-dimensional mechanistic model is presented for the prediction of unsteady gas–liquid slug flows in inclined curved pipes, using the slug tracking approach. The equations for mass and momentum conservation are applied to the slug body,... Read More about Prediction of unsteady slug flow in a long curved inclined riser with a slug tracking model..