| 1 |
Inertial measurement unit as a tool within dense phase pneumatic conveying. Investigation into velocity measurement accuracy, pressure and velocity relationships in slug flow
Lavrinec A, Orozovic O, Rajabnia H, Williams K, Jones MG, Klinzing G
Powder Technology, 382, 454, 2021 |
| 2 |
A continuum mechanics derivation of the empirical expression relating slug and particle velocities
Orozovic O, Lavrinec A, Georgiou F, Wensrich CM
Powder Technology, 380, 598, 2021 |
| 3 |
Insights into horizontal slug flow pneumatic conveying from layer fraction and slug velocity measurements
Orozovic O, Lavrinec A, Alkassar Y, Chen J, Williams K, Jones MG, Klinzing GE
Powder Technology, 364, 218, 2020 |
| 4 |
Velocity and porosity relationships within dense phase pneumatic conveying as studied using coupled CFD-DEM
Lavrinec A, Orozovic O, Rajabnia H, Williams K, Jones MG, Klinzing G
Powder Technology, 375, 89, 2020 |
| 5 |
Observations of dense phase pneumatic conveying using an inertial measurement unit
Lavrinec A, Orozovic O, Williams K, Jones MG, Klinzing G, Clark W, Wang Z
Powder Technology, 343, 436, 2019 |
| 6 |
On the kinematics of horizontal slug flow pneumatic conveying and the relationship between slug length, porosity, velocities and stationary layers
Orozovic O, Lavrinec A, Alkassar Y, Williams K, Jones MG, Klinzing G
Powder Technology, 351, 84, 2019 |
