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  1. G. Zhou (2021). Macroscopic axisymmetric lattice Boltzmann method (MacAxLAB). Computer Methods in Applied Mechanics and Engineering. 376, pp.113657.

  2. J.G. Zhou (2020). Macroscopic Lattice Boltzmann Method. Water. 13(1), pp.61.

  3. J.G. Zhou (2019). Macroscopic Lattice Boltzmann Method for Shallow Water Equations (MacLABSWE). arXiv:1902.02999.

  4. S. De Chowdhury, JG. Zhou, L. Qian, D. Causon, C. Mingham2, T. Pullen, K Hu, M Russell, S Manson, DStewart, M Wood, H Winter, A. Joly (2020) Wind effects on wave overtopping at the vertical sea defence. In: The Proceedings for the virtual ICCE. 6/10/2020.

  5. S. De Chowdhury, JG. Zhou, L. Qian, et al. Wind effects on wave overtopping at the vertical sea defence. In: The Proceedings for the virtual ICCE. 6/10/2020.

  6. S. De Chowdhury, D. Causon, L. Qian, C. Mingham, H. Chen, et al. (2019). Investigation of Wind Effects on Wave Overtopping at Sea Defences. Hanover, Germany, 30/9/2019. pp.841-850.

  7. E. Barker, J.G. Zhou (2019). Python-based Graphical User Interface for a Lattice Boltzmann Model Solving the Shallow Water Equations. In: Proceedings of iSymWater 2019. Beijing, China, 8/7/2019.

  8. A. Cunningham, J.G. Zhou, J. Shiach (2019). Effect of obstacles on lid-driven cavity flows using the lattice Boltzmann method. In: Proceedings of iSymWater 2019. Beijing, China, 8/7/2019.

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