- [1]S. Parkes, P. Wang*, K. P. Galvin. Benchmarking a Single-Stage REFLUX™ Flotation Cell Against a Multi-Stage Industrial Copper Concentrator and Lab-Scale Mechanical Cell.Minerals 2025, 15(3), 266
- [2]P Wang, M Yvon, S Parkes, KP Galvin. Improving flotation hydrodynamics to maximize nickel recovery from tailings..Minerals Engineering, 2024, 216, 108880
- [3]P. Wang, M. Yvon, S. Parkes, K. P. Galvin. Enhancing nickel grade and recovery with counter-current washing of the concentrated bubbly-zone of a single stage REFLUX ™ Flotation Cell..Minerals Engineering, 2024, 206, 108506
- [4]S. Parkes, P. Wang*, K. P. Galvin. Investigating the system flotation kinetics of fine chalcopyrite in a REFLUX™ flotation cell: Part II low-grade ores..Minerals Engineering, 2024, 207, 108548
- [5]S Parkes, B Wright, P Wang, E Stiller, M Firouzi, KP Galvin. Hydrophobic-hydrophilic bubble-particle kinetics in a downcomer..Minerals Engineering. 2024, 210, 108646
- [6]G. Wang, Y. Wang, J .Yu, N. Yao, L. Zhao, Y. Liu, S. Chen, P Wang*. Detachment of a particle from the surface of a bubble colliding with a solid surface..Powder Technology, 2023, 430, 119045
- [7]S. Parkes, P. Wang, K. P. Galvin. Revisiting a flotation cell benchmark..Minerals Engineering, 2023, 200, 108134
- [8]M. Yvon, P. Wang, K. P. Galvin. Novel agglomeration process for nickel beneficiation..Sustainable Minerals ‘23, 7-8 June 2023, Falmouth, UK (Conference paper P1-15)
- [9]P. Wang, P. R. Brito-Parada. Dynamics of a particle-laden bubble colliding with an air-water interface..Chemical Engineering Journal, 2022, 429, 132427
- [10]S. Parkes, P. Wang, K. P. Galvin. Investigating the System Flotation Kinetics of Fine Chalcopyrite in a REFLUX™ Flotation Cell using a Standardised Flotation Cell Reference Method..Minerals Engineering, 2022, 178, 10741
- [11]J. Chen, P. Wang, M. Li, J. Shen, T. Howes, G. Wang. Rupture Distance and Shape of The Liquid Bridge with Rough Surface..Minerals Engineering, 2021, 167: 106888
- [12]P. Wang, F. Reyes, J. J. Cilliers, P. R. Brito-Parada. Evaluation of collector performance at the bubble-particle scale..Minerals Engineering, 2020, 14: 106140
- [13]P. Wang, J. J. Cilliers, S. J. Neethling, P. R. Brito-Parada. The behaviour of rising bubbles covered by particles..Chemical Engineering Journal, 2019, 365:111-120
- [14]P. Wang, J. J. Cilliers, S. J. Neethling, P. R. Brito-Parada. Effect of particle size on the rising behaviour of particle-laden bubbles..Langmuir, 2019, 35 (10), 3680-3687
- [15]P. Wang, L. Ren, J. Zeng. Research on mineral processing technology of tungsten contained sulfur concentrate of Yunnan..Nonferrous Metals (Mineral Processing Section), 2016, (1): 47-51
- [16]P. Wang, W. Qin, L. Ren. Solution chemistry and utilization of alkyl hydroxamic acid in the flotation of fine cassiterite..Transactions of Nonferrous Metals Society of China, 2013, 23(6):1789-1796
- [17]W. Qin, P. Wang, L. Ren, Effect of matching relationship between particles and bubbles on the flotation of fine cassiterite..Journal of China University of Mining and Technology, 2012, 41(3): 420-42
- [18]W. Qin, L. Ren, P. Wang. Electro-flotation and collision-attachment mechanism of fine cassiterite..Transactions of Nonferrous Metals Society of China, 2012, 22(4): 917-924
- [19]W. Qin, L. Ren, Y. Xu, P. Wang. Adsorption mechanism of mixed salicyl hydroxamic acid and tributyl phosphate collectors in fine cassiterite electro-flotation system..Journal of Central South University, 2012, 19(6): 1711-1717
- [20]W. Qin, Q. Wei, F. Jiao, N. Li, P. Wang. Effect of sodium pyrophosphate on the flotation separation of chalcopyrite from galena..International Journal of Mining Science and Technology, 2012, 22(3): 345-349