PUBLICATIONS

JOURNAL ARTICLES AT UA

  1. Jordan, S.M., Schreiber, C.O., Parhizi, M., & Shah, K. (2024). A new multiphysics modeling framework to simulate coupled electrochemical-thermal-electrical phenomena in Li-ion battery packs. Applied Energy, 360, 122746. https://doi.org/10.1016/j.apenergy.2024.122746.  
  2. Kiesewetter, L., Shakib, K. H., Singh, P., Rahman, M., Khandelwal, B., Kumar, S., & Shah, K. (2023). A holistic review of the current state of research on aircraft design concepts and consideration for Advanced Air Mobility Applications. Progress in Aerospace Sciences142, 100949. https://doi.org/10.1016/j.paerosci.2023.100949 
  3. Uppaluri, M., Shah, K., Viswanathan, V., Subramanian, V.R., 2022. ‘The Importance of a Moving Boundary Approach for Modeling the SEI Layer Growth to Predict Capacity Fade,’ Journal of The Electrochemical Society, 169,  040548, 2022
  4.  Mishra, D., Shah, K., Jain, A., ‘Investigation of the Impact of Radiative Shielding by Internal Partitions Walls on Propagation of Thermal Runaway in a Matrix of Cylindrical Li-Ion Cells,’ Journal of The Electrochemical Society, 168(12), 120507, 2021
  5. Mishra, L., Subramaniam, A., Jang, T., Shah, K., Uppaluri, M., Roberts, S. A., Subramanian, V. R., ‘Perspective – Mass conservation in models for electrodeposition/stripping in lithium metal batteries,’ Journal of Electrochemical Society, 168(9), 092502, 2021

PREVIOUS JOURNAL ARTICLES

  1. Mishra, D., Shah, K., Jain, A., ‘Investigation of the impact of flow of vented gas on propagation of thermal runaway in a Li-ion battery pack,’ Journal of Electrochemical Society, 168(6), 060555, 2021  
  2. 18. Shah, K., Subramaniam, A., Mishra, L., Jang, T., Bazant, M. Z., Braatz, R. D., & Subramanian, V. R., ‘Editors’ Choice—Perspective—Challenges in Moving to Multiscale Battery Models: Where Electrochemistry Meets and Demands More from Math,’ Journal of The Electrochemical Society, 167(13), 133501, 2020
  3. Yu, Q., Shah, K., Wang, D., Ma, Y., ‘Model Based Study of Crop Evapotranspiration Under Canopy Shading,’ Agronomy, 9(6), pp.334, 2019
  4. Shah, K.*, An, Z. *, Jia, L., Ma, Y., ‘Modeling and Analysis of Thermal Runaway in Li-ion Cell,’ Applied Thermal Engineering, 160, 2019 (*Equal contributor) 
  5. Shah, K.*, An, Z.*, Jia, L., Ma, Y., ‘A Parametric Study for Optimization of Minichannel Based Battery Thermal Management System,’ Applied Thermal Engineering, 154, pp.593-601, 2019 (*Equal contributor)
  6. Shah, K., Jain, A., ‘Prediction of thermal runaway and thermal management requirements in cylindrical Li-ion cells in realistic scenarios,’ International Journal of Energy Research, 43, pp. 1827-1838, 2019
  7. Esho, I.*, Shah, K.*, Jain, A., ‘Measurements and modeling to determine the critical temperature for preventing thermal runaway in Li-ion cells,’ Applied Thermal Engineering, 145, pp.287-294, 2018 (*Equal contributor)
  8. Chalise, D., Shah, K., Prasher, R., Jain, A., ‘Conjugate heat transfer analysis of thermal management of a Li-ion battery pack,’ Journal of Electrochemical Energy Conversion and Storage, 15(1), 011008, 2018
  9. Shah, K., Balsara, N., Banerjee, S., Chintapalli, M., Cocco, A.P., Chiu, W.K.S., Lahiri, I., Martha, S., Mistry, A., Mukherjee, P., Ramadesigan, V., Sharma, C., Subramanian, V., Mitra, S., Jain, A., ‘State-of-the-art and Future Research Needs for Multiscale Analysis of Li-ion Cells’ ASME. J. Electrochem. Energy Conv. Storage, 14(2), 020801, 2017
  10. Chalise, D., Shah, K., Halama, T., Komsiyska, L., & Jain, A., ‘An experimentally validated method for temperature prediction during cyclic operation of a Li-ion cell,’ International Journal of Heat and Mass Transfer, 112, pp. 89-96, 2017
  11. Ostanek, J., Shah, K., Jain, A., ‘Measurement sensitivity analysis of transient hot source sensors,’ ASME Journal of Thermal Science & Engineering Appl., 9, 2017
  12. Shah, K., Chalise, D., Jain, A., ‘Experimental and theoretical analysis of a method to predict thermal runaway in Li- ion cells,’ Journal of Power Sources, 330, pp. 167-174, 2016
  13. Shah, K.*, Vishwakarma, V.*, Jain, A., ‘Measurement of multiscale thermal transport phenomena in Li-ion cells: A review,’ ASME. J. Electrochem. Energy Conv. Storage., 13, 2016 (*Equal contributor)
  14. Shah, K., McKee, C., Chalise, D., Jain, A., ‘Experimental and numerical investigation of core cooling of Li- ion cells using heat pipes,’ Energy, 113, pp. 852-860, 2016
  15. Shah, K., Jain, A., ‘Modeling of Steady-State and Transient Thermal Performance of a Li- ion Cell with an Axial Fluidic Channel for Cooling’, International Journal of Energy Research, 39, pp. 573-584, 2015
  16. Sarkar, D., Shah, K., Haji-Sheikh, A., Jain, A., ‘Analytical modeling of temperature distribution in an anisotropic cylinder with circumferentially- varying convective heat transfer’, International Journal of     Heat and Mass Transfer, 79, pp. 1027–1033, 2014
  17. Shah, K., Jain, A., ‘An iterative, analytical method for solving conjugate heat transfer problems,’ International Journal of Heat Mass Transfer, 90, pp. 1232-1240, 2015
  18. Shah, K., Drake, S.J., Wetz, D.A., Ostanek, J.K., Miller, S.P., Heinzel, J.M., Jain, A., ‘Experimentally validated transient model for cylindrical Li- ion Cells’, Journal of Power Sources, 271, pp. 262-268, 2014
  19. Shah, K., Drake, S.J., Wetz, D.A., Ostanek, J.K., Miller, S.P., Heinzel, J.M., Jain, A., ‘Modeling of Steady-State Convective Cooling of Cylindrical Li- ion Cells’, Journal of Power Sources, 258, pp. 374-381, 2014

STUDENT PRESENTATIONS

POSTER PRESENTATIONS

  1. Schreiber, O., Horner, J., ‘Ignite Talk: Mesoscale Modeling of Battery Electrode Drying,’ Advanced Materials & Manufacturing Technologies Research Symposium, Online, Oct 26, 2023
  2. Kiesewetter, L. ‘Critical Review & Analysis of Aircraft Design Approaches for Urban Air Mobility Applications’, Undergraduate Research and Creativity Conference in Tuscaloosa, AL, April, 2023.
  3. Kiesewetter, L. ‘Critical Design Review of Rotor Configurations and Propulsion System Architectures for Urban Air Mobility Applications’, University of Alabama Department of Mechanical Engineering Student Research Exposition in Tuscaloosa, AL, November, 2022.
  4. Schreiber, O. ​’A Specialized Two-Dimensional Electrochemical-Thermal Modeling Framework to Study Large-Form Batteries’, Undergraduate Research and Creativity Conference in Tuscaloosa, AL, April 2022. ​