| 1 |
A study of coal aggregation by standing-wave ultrasound
Chen YR, Xie GY, Chang J, Grundy J, Liu QX
Fuel, 248, 38, 2019 |
| 2 |
Brushless Doubly Fed Machine Magnetic Field Distribution Characteristics and Their Impact on the Analysis and Design
Mathekga ME, Ademi S, McMahon RA
IEEE Transactions on Energy Conversion, 34(4), 2180, 2019 |
| 3 |
Influence of standing wave characteristics on hydrodynamic behaviours in sound-assisted fluidization of Geldart group A powder
Cherntongchai P, Chaiwattana S, Leruk R, Panyaruean J, Sriboonnak S
Powder Technology, 350, 123, 2019 |
| 4 |
Numerical studies of co-axial travelling-wave thermoacoustic cooler powered by standing-wave thermoacoustic engine
Saechan P, Jaworski AJ
Renewable Energy, 139, 600, 2019 |
| 5 |
Study on separation characteristics of water in oil (W/O) emulsion under ultrasonic standing wave field
Luo XM, Cao JH, Yan HP, Gong HY, Yin HR, He LM
Chemical Engineering and Processing, 123, 214, 2018 |
| 6 |
Prediction of oscillatory heat transfer coefficient for a thermoacoustic heat exchanger through artificial neural network technique
Rahman AA, Zhang XQ
International Journal of Heat and Mass Transfer, 124, 1088, 2018 |
| 7 |
Theoretical and experimental investigation of the dynamic behaviour of a standing-wave thermoacoustic engine with various boundary conditions
Chen G, Tang LH, Mace BR
International Journal of Heat and Mass Transfer, 123, 367, 2018 |
| 8 |
Stability study of a nonlinear thermoacoustic combustor: Effects of time delay, acoustic loss and combustion-flow interaction index
Li XY, Huang Y, Zhao D, Yang WM, Yang XL, Wen HB
Applied Energy, 199, 217, 2017 |
| 9 |
Open-cell foams for thermoacoustic applications
Napolitano M, Romano R, Dragonetti R
Energy, 138, 147, 2017 |
| 10 |
Proximate Standing Wave Feature of Magnetic Field and its Influence on the Performance of Wound Rotor Brushless Doubly-Fed Machine
Chen X, Wang XF
IEEE Transactions on Energy Conversion, 32(1), 296, 2017 |
