PUBLICATIONS

* Corresponding author 

Patents

1. J.F. Klausner , K. Randhir , N. AuYueng , L. Li, N. Rhodes, A. Barde, R. Mei, D.W. Hahn, “Method for the Generation of Power” Patent No.: US 10,266,420 B2, (2019).

Book Chapters

2. A. Singh*, K. Randhir, L. Li, N. AuYeung, A. Arabkoohsar, “Thermochemical thermal energy storage” in Book: Future Grid-Scale Energy Storage Solutions: Mechanical and Chemical Technologies and Principles, pages: 169-213, Academic Press, (2023).

1. D. Korba, L. Li*, “Interface Treatment for Conjugate Conditions in the Lattice Boltzmann Method for the Convection Diffusion Equation” in Book: Lattice Boltzmann Model - Theoretical Modelling, Numerical Simulation and Engineering Applications, IntechOpen, (2019).

Journal Articles

36. A Mishra, D Korba, J Zhao, L Li, "Heat and mass transfer model for a counter-flow moving packed-bed oxidation reactor/heat exchanger." Journal of Solar Energy Engineering, in press, (2024).

35. J Zhao, D Korba, A Mishra, J Klausner, K Randhir, N AuYeung, L. Li*, "Particle-based high-temperature thermochemical energy storage reactors." Progress in Energy and Combustion Science 102, 101143 (2024).

34. D Korba, M Hayes, P Schimmels, K Randhir, J Klausner, N AuYeung, L. Li*, "Continuum modeling of high-temperature (> 1000° C) heat extraction from a moving-bed oxidation reactor for thermochemical energy storage." J. Energy Storage 82, 110579 (2024).

33. A Mishra, P Singh, L Li, "Heat transfer model for moving packed-bed particle-to-sCO2 heat exchangers integrated with metal foams.", Appl. Thermal Eng. 239, 122062 (2024).

32. M. Hayes, D. Korba, P. Schimmels, J. Klausner, J. Petrasch, N. AuYeung, L. Li*, K. Randhir*, “Experimental demonstration of high-temperature (> 1000° C) heat extraction from a moving-bed oxidation reactor for thermochemical energy storage.” Applied Energy 349, 121625 (2023).

31. Y. Aider, I. Kaur, A. Mishra, L. Li, H. Cho, J. Martinek, Z. Ma, P. Singh*, "Heat transfer characteristics of particle and air flow through additively manufactured lattice frame material based on octet-shape topology." ASME J. Sol. Energy Eng. 145 (6), 061004 (2023).

30. A. Mishra, D. Korba, I. Kaur, P. Singh, L. Li*, "Prediction and validation of flow properties in porous lattice structures." ASME J. Fluids Eng. 145(4), 041402 (2023). 

29. D. Korba, L. Li*, “Effects of pore scale and conjugate heat transfer on thermal convection in porous media.” J. Fluid Mechanics 944, A28 (2022).

28. D. Korba, W. Huang, K. Randhir, J. Petrasch, J. Klausner, N. AuYeung, L. Li*, “A continuum model for heat and mass transfer in moving-bed reactors for thermochemical energy storage.Applied Energy 313, 118842 (2022).

27. N. Wang, S. Bhushan, H. Cho, L. Li*, “Modeling of vapor-liquid interactions in condensing ejectors.” Appl. Thermal Eng. 206, 118111 (2022).

26. W. Huang, D. Korba, K. Randhir, J. Petrasch, J. Klausner, N. AuYeung, L. Li*, “Thermochemical reduction modeling in a high-temperature moving-bed reactor for energy storage: 1D model.” Applied Energy 306, 118009 (2022).

25. F. Lei, D. Korba, W. Huang, K. Randhir, L. Li, N. AuYeung*, “Thermochemical heat recuperation for compressed air energy storage.” Energy Conversion and Management 250, 114889 (2021).

24. N. Wang, D. Korba, Z. Liu, R. Prabhu, M.W. Priddy, S. Yang, L. Chen, L. Li*, "Phase-field-lattice Boltzmann method for dendritic growth with melt flow and thermosolutal convection–diffusion." Computer Methods in Applied Mechanics and Engineering 385, 114026 (2021).

23. D. Korba, L. Li*, "Lattice Boltzmann model for conjugate heat transfer across thin walls." Phys. Rev. E 103, 043304 (2021).

22. X. Wang, Y. Liu, L. Li, C.O. Yenusah, Y. Xiao, L. Chen*, "Multi-scale phase-field modeling of layer-by-layer powder compact densification during solid-state direct metal laser sintering." Materials & Design, 203, 109615 (2021). 

21. N. Wang, I. Kaur, P. Singh, L. Li*, “Prediction of effective thermal conductivity of porous lattice structures and validation with additively manufactured metal foams.Appl. Thermal Eng., 187, 116558 (2021). 

20. D. Korba, N. Wang, L. Li*, “Accuracy of interface schemes for conjugate heat and mass transfer in the lattice Boltzmann method.” Int. J. Heat Mass Transfer, 156, 119694 (2020). 

19. L. Li*, “Multiple-time-scaling lattice Boltzmann method for the convection diffusion equation.Physical Review E, 99, 063301 (2019). 

18. K. Randhir*, K. King, N. Rhodes, L. Li, D. Hahn, R. Mei, N. AuYeung, J. Klausner, “Magnesium-manganese oxides for high temperature thermochemical energy storage.J. Energy Storage, 21, 599-610 (2019). 

17. C. Chen, L. Li*, R. Mei, and J.F. Klausner, “Chapman-Enskog analyses on the gray lattice Boltzmann equation method for fluid flow in porous media.J. Statistical Physics, 171, 493-520 (2018). 

16. J.T. Waters, Y. Liu, L. Li, and A.C. Balazs*, “Optimizing micromixer surfaces to deter biofouling.ACS Applied Materials & Interfaces, 10, 8374-8383 (2018).

15. K. Randhir*, N.R. Rhodes, L. Li, N. AuYeung, D.W. Hahn, R. Mei, and J.F. Klausner, “Magnesioferrites for solar thermochemical fuel production.Solar Energy, 163, 1-15 (2018).

14. L. Li*, R. Mei, and J.F. Klausner, “Lattice Boltzmann models for the convection-diffusion equation: D2Q5 vs D2Q9.Int. J. Heat Mass Transfer, 108, 41-62 (2017).

13. L. Li*, N. AuYeung, R. Mei, and J.F. Klausner, “Effects of tangential-type boundary condition discontinuity on the accuracy of lattice Boltzmann method for heat and mass transfer.Physical Review E, 94, 023307 (2016).

12. L. Li*, C. Chen, N. Rahmatian, A. Singh, N. AuYeung, K. Randhir, R. Mei*, J.F. Klausner*, D.W. Hahn, and J. Petrasch, “A transient heat transfer model for high temperature solar thermochemical reactors.Int. J. Hydrogen Energy, 41, 2307-2325 (2016).

 

11. N. Rhodes, A. Barde, K. Randhir, L. Li, D.W. Hahn, R. Mei, J.F. Klausner, and N. AuYeung*, “Solar thermochemical energy storage through carbonation cycles of SrCO3/SrO cycling supported on SrZrO3.ChemSusChem, 8, 3793-3798 (2015).

-- Cover Article of ChemSusChem

10. K. Guo, L. Li, G. Xiao, N. AuYeung, and R. Mei*, “Lattice Boltzmann method for conjugate heat and mass transfer with interfacial jump conditions.Int. J. Heat Mass Transfer, 88, 306-322 (2015).

9. J. Leonard, N. Reyes, K.M. Allen, K. Randhir, L. Li*, N. AuYeung*, J. Grunewald, N. Rhodes, M. Bobek, and J.F. Klausner, “Effects of dopant metal variation and material synthesis method on the material properties of mixed metal ferrites in yttria stabilized zirconia for solar thermochemical fuel production.Int. J. Photoenergy, 2015, 856385 (2015).

8. L. Li*, C. Chen, R. Mei, and J.F. Klausner, “Conjugate heat and mass transfer in the lattice Boltzmann equation method.Physical Review E, 89, 043308 (2014).

7. L. Li*, R. Mei, and J.F. Klausner, “Heat transfer evaluation on curved boundaries in thermal lattice Boltzmann equation Method.ASME J. Heat Transfer, 136, 012403 (2014).

6. L. Li*, R. Mei, and J.F. Klausner, “Multiple-relaxation-time lattice Boltzmann model for the axisymmetric convection diffusion equation.Int. J. Heat Mass Transfer, 67, 338-351 (2013).

5. L. Li, R. Mei*, and J.F. Klausner, “Boundary conditions for thermal lattice Boltzmann equation method.J. Computational Physics, 237, 366-395 (2013).

-- Top 1 of the five Most Downloaded Journal of Computational Physics Articles in 2013.

4. L. Li*, R. Mei, J.F. Klausner, and D.W. Hahn, “Heat transfer between colliding surfaces and particles.ASME J. Heat Transfer, 134, 011301 (2012).

-- Top 10 Most Downloaded ASME Journal of Heat Transfer in 2011.

3. J. Chi, Z. Wang, and L. Li, “Numerical simulation and analysis of low hysteresis brush seals.” Advanced Materials Research, 452, 1455-1459 (2012).

2. Z. Wang, M. Guo, and L. Li, “Mechanical behaviors of brush seals and sealing performance.” J. Beijing University of Aeronautics and Astronautics, 37, 10 (2011) (in Chinese).

1. L. Li, Z. Wang, F. Song, W. Wang, and C. Chen, “Numerical investigation of temperature field in brush seals.” J. Aerospace Power, 25, 5 (2010) (in Chinese).


Conference Papers

10. W. Huang, E. Million, K. Randhir, J. Petrasch, J. Klausner, N. AuYeung, L. Li, “Heat transfer modeling in a counter-current moving-bed tubular reactor for high-temperature thermochemical energy storage.” Proceedings of the ASME 15th International Conference on Energy Sustainability, Virtual, 2021.

9. N. Wang, L. Li, “Lattice Boltzmann-phase field method for dendritic growth modeling.” Proceedings of the 5-6th Thermal and Fluids Engineering Conference, Virtual, 2021.

8. L. Li, K. Randhir, J.F. Klausner, R. Mei, and N. AuYeung, “Multiscale thermal transport in solar thermochemical energy storage systems.” Proceedings of the 16th International Heat Transfer Conference, Beijing, China, 2018.

7. J.F. Klausner, L. Li, A. Singh, N. AuYeung, R. Mei, D.W. Hahn, and J. Petrasch, “The role of heat transfer in sunlight to fuel conversion using high-temperature solar thermochemical reactors.” Invited Keynote Papers of the 15th International Heat Transfer Conference, Kyoto, Japan, 2014.

6. L. Li, C. Chen, R. Mei, and J.F. Klausner, “Conjugate interface heat and mass transfer simulation with the lattice Boltzmann equation method.” Proceedings of the ASME 2014 4th Joint US-European Fluids Engineering Division Summer Meeting and 12th International Conference on Nanochannels, Microchannels, and Minichannels, Chicago, IL, 2014.

5. L. Li, A. Singh, N. AuYeung, R. Mei, J. Petrasch, and J.F. Klausner, “Lattice Boltzmann simulation of high-diffusivity problems with application to energy transport in a high-temperature solar thermochemical reactor.” Proceedings of the ASME 2013 Summer Heat Transfer Conference, Minneapolis, MN, 2013.

4. L. Li, R. Mei, and J.F. Klausner, “Heat transfer in thermal lattice Boltzmann equation method.” Proceedings of the ASME 2012 International Mechanical Engineering Congress & Exposition, Houston, TX, 2012.

3. L. Li, R. Mei, J.F. Klausner, and D.W. Hahn, “Heat transfer between colliding surfaces and particles.” Proceedings of the ASME/JSME 2011 8th Thermal Engineering Joint Conference, Honolulu, HI, 2011.

2. J. Chi, Z. Wang, and L. Li, “Numerical simulation and analysis of low hysteresis brush seals.” Proceedings of the 2011 Int. Conference on Management, Manufacturing & Materials Engineering, Henan, China, 2011.

1. F. Song, Z. Wang, L. Li, and M. Guo, “Thermal field and performance analysis of brush seal.” Proceedings of the 7th China-Japan International Conference on History of Mechanical Technology and Mechanical Design, Beijing, China, 2008.