Publications

Journal

2024

[18] Das A. K., Mankodi, T. K., Saha U. K., Shock Vector Control of a Double Divergent Nozzle for Futuristic Space Vehicles, Journal of Fluids Engineering, pp. 1-36 (2024).

[17] Nidharia M., Mane S., Mankodi T. K., Ab initio-based two-temperature transport property model for hypersonic non-equilibrium flows, Physics of Fluids, Volume 36, pp. 126148 (2024).

[16] Garg G., Mankodi T. K., Esmaeilifar E., Myong R. S., Neural network-based finite volume method and direct simulation Monte Carlo solutions of non-equilibrium shock flow guided by nonlinear coupled constitutive relations, Physics of Fluids, Volume 36, pp. 106113 (2024)

[15] Mankodi T. K., Ejtehadi O., Chourushi T., Rahimi A., Myong R. S., nccrFOAM suite: Nonlinear coupled constitutive relation solver in the OpenFOAM framework for rarefied and microscale gas flows with vibrational non-equilibrium, Computer Physics Communications, Volume 296, pp. 109024 (2024)


2023

[14] Ejtehadi O., Mankodi T. K., Sohn I., Kim B. J., Myong R. S., Gas-particle flows in a microscale shock tube and collection efficiency in the jet impingement on a permeable surface, Physics of Fluids, Volume 35, pp. 103324 (2023)

[13] Das A., Acharyya K., Mankodi T. K., Saha U. K.., Fluidic Thrust Vector Control of Aerospace Vehicles: State-of-the-Art Review and Future Prospects, Journal of Fluids Engineering, 1-107 (2023)


2022

[12] Chourushi T., Rahimi A., Singh S., Ejtehadi O., Mankodi T. K., Myong R. S., Thermal and flow characteristics of nonequilibrium monatomic, diatomic, and polyatomic gases in cylindrical Couette flow based on second-order non-Navier–Fourier constitutive model, International Journal of Heat and Mass Transfer, Volume 187, pp. 122580 (2022)


2020

[11] Mankodi T. K., Myong R. S., Boltzmann-based second-order constitutive models of diatomic and polyatomic gases including the vibrational mode, Physics of Fluids, Volume 32, pp. 126109 (2020)

[10] Mankodi T. K., Bhandarkar U. V., Myong R. S., Collision cross-sections and nonequilibrium viscosity coefficients of N2 and O2 based on molecular dynamics, Physics of Fluids, Volume 32, pp. 036102 (2020)

[8*] Mankodi, T. K., and R. S. Myong. Erratum:Quasi-classical trajectory-based non-equilibrium chemical reaction models for hypersonic air flows, Physics of Fluids, Volume 31, pp. 106102, (2020)


2019

[9] Chae J. H., Mankodi T. K., Choi S. M., Myong, R. S., Combined Effects of Thermal Non-equilibrium and Chemical Reactions on Hypersonic Air Flows Around An Orbital Reentry Vehicle, International Journal of Aeronautical and Space Sciences, pp. 1-15 (2019)

[8] Mankodi T. K., Myong R. S., QCT based Non-Equilibrium Chemical Reaction Models for Hypersonic Air Flows, Physics of Fluids, Volume 31, pp. 106102, (2019)

[7] Mankodi T. K., Bhandarkar U. V., Puranik B. P., Hypersonic flow over Stardust Re-entry Capsule using ab-initio based chemical reaction model, Acta Astronautica, Volume 182, pp. 243, (2019)


2018

[6] Mankodi T. K., Bhandarkar U. V., Puranik B. P., Collision Induced Dissociation Cross-section for High Energy N2-O2 Collisions, Chemical Physics Letters, Volume 706, pp 1, (2018)

[5] Mankodi T. K., Bhandarkar U. V., Puranik B. P., Cross-sections for O2+N system using the QCT method, Chemical Physics Letters, Volume 704, pp 21, (2018)

[4] Mankodi T. K., Bhandarkar U. V., Puranik B. P., Dissociation Cross-section for High Energy O2-O2 collisions, The Journal of Chemical Physics, Volume 148, Issue 14, pp 144305, (2018)

[3] Mankodi T. K., Bhandarkar U. V., Puranik B. P., Global potential energy surface of ground state singlet spin O4, The Journal of Chemical Physics, Volume 148, Issue 8, pp 074305, (2018)


2017

[2] Mankodi T. K., Bhandarkar U. V., Puranik B. P., An ab initio chemical reaction model for the direct simulation Monte Carlo study of non-equilibrium nitrogen flows, The Journal of Chemical Physics, Volume 147, Issue 8, pp 084305, (2017)

[1] Mankodi T. K., Bhandarkar U. V., Puranik B. P., Dissociation cross sections for N2+N→3N and O2+O→3O using the QCT method, The Journal of Chemical Physics, Volume 146, Issue 20, pp 204307, (2017)



Conference

2024

[31] Saiprakash R. N., Sahoo N., Mankodi T. K., Boundary Condition-based Machine Learning Algorithm for Fast Prediction of Hypersonic Flows, International Conference on Applied AI and Scientific Machine Learning, IISc Bangalore, Bengaluru, India (2024)

[30] Saiprakash R. N., Sahoo N., Mankodi T. K., Boundary Condition-based Machine Learning Algorithm for Fast Prediction of Supersonic Flows, 8th National National Symposium on Shock Waves, IIT Kanpur, Kanpur, India (2024)

[29] Garg G., Mankodi T. K., Esmaeilifar E., Myong R. S., Issues in Constructing the Topology of Multivariable Constitutive Relations from DSMC Solutions, 33rd International Symposium on Rarefied Gas Dynamics, Göttingen, Germany, (2024)

[28] Mallick A., Mankodi T. K., Ab-initio based collision model for high temperature molecular gas flows, 33rd International Symposium on Rarefied Gas Dynamics, Göttingen, Germany, (2024)

[27] Shaik N., Gavasane A., Mankodi T. K., Bhandarkar U. V., High Fidelity Coupled Discontinuous Galerkin - Direct Simulation Monte Carlo Analysis of Rocket Plume Interaction with Non-Flat Lunar Surfaces, 33rd International Symposium on Rarefied Gas Dynamics, Göttingen, Germany, (2024)

[26] Srivastava H., Mankodi T. K., Myong R. S., Multi-temperature Nonlinear Coupled Constitutive Relations for Diatomic gases with different Rotational Relaxation Models, 33rd International Symposium on Rarefied Gas Dynamics, Göttingen, Germany, (2024)

[25] Srivastava H., Mankodi T. K., Myong R. S., Analysis of a Binary Mixture of Noble Gases using Nonlinear Coupled Constitutive Relations (NCCR) with Power-law Model, 33rd International Symposium on Rarefied Gas Dynamics, Göttingen, Germany, (2024)

[24] Das A. K., Mankodi T. K., Saha U. K., Fluidic Thrust Vectoring on an Altitude-Adaptive Double-Divergent Nozzle Using a Bypass Passage, Turbo Expo 2024 Turbomachinery Technical Conference & Exposition, London, UK (2024)

[23] Mallick A., Mankodi T. K., Combined Effects of Collision Models and Chemistry Model on Hypersonic Flows using the DSMC Method, International Conference on Advances in Aerospace and Energy Systems, LPSC, Thiruvananthapuram, India (2024)

2023

[22] Shaik N., Gavasane A., Mankodi T. K., Bhandarkar U. V., Effect of Surface Undulations on Flow Field During Lunar Landing, 10th International and 50th National Conference on Fluid Mechanics and Fluid Power, IIT Jodhpur, Jodhpur, India (2023)

[21] Saiprakash R. N., Sahoo N., Mankodi T. K., Boundary condition-based Machine Learning algorithm for incompressible viscous flows, 10th International and 50th National Conference on Fluid Mechanics and Fluid Power, IIT Jodhpur, Jodhpur, India (2023)

[20] Srivastava H., Mankodi T. K., Myong R. S., Effect of viscosity models on diatomic shock structure using multi-temperature approach, 10th International and 50th National Conference on Fluid Mechanics and Fluid Power, IIT Jodhpur, Jodhpur, India (2023)

[19] Shaik N., Bhandarkar U. V., Mankodi T. K., Gopalakrishnan S., Coupled Discontinuous Galerkin-Direct Simulation Monte Carlo Simulation of Rocket Plume Impingement on Non-Flat Lunar Surfaces, 76th Annual Meeting of the Division of Fluid Dynamics, Washington DC, United States of America, (2023)

[18] Shaik N., Gavasane A., Mankodi T. K., Bhandarkar U. V., Effect of Surface Topographyon Ground Shocks During Lunar Landing, 34th International Symposium on Shock Wave, Daegu, Republic of Korea, (2023)

[17] Srivastava H., Mankodi T. K., Myong R. S., Nonlinear coupled constitutive relations based approach to study non-equilibrium flows in chemically inert binary gas mixture, 34th International Symposium on Shock Wave, Daegu, Republic of Korea, (2023)

[16] Das A. K., Mankodi T. K., Saha U. K., Influence of Inflection Mach Number and Base Nozzle Length on the Shock Vector Control of a Planar Nozzle with Double Divergence, 25th AIAA International Space Planes and Hypersonic Systems and Technologies Conference, Bengaluru, India (2023)

[15] Mankodi T. K., Hybrid CPU/GPU DSMC algorithm for large-scale re-entry simulations, 7th National Symposium on Shock Waves, Physical Research Lab Ahmedabad, India, (2023) Invited


2022

[14] Ejtehadi O., Mankodi T. K., Sohn I., Myong R. S., Continuum-based Simulation of the Plume and Dusty Surface Interaction in Lunar Landing Using OpenFOAM, 32nd International Symposium on Rarefied Gas Dynamics, Seoul, Republic of Korea, (2022)

[13] Sengupta B., Mankodi T. K., Myong R. S., Investigation of the Effect of Pseudo-Random Number Generating Algorithms on DSMC Simulation, 32nd International Symposium on Rarefied Gas Dynamics, Seoul, Republic of Korea, (2022)

[12] Mankodi T. K., Runtime based Weighted N-way Partitioning Scheme for Direct Simulation Monte Carlo Codes, 32nd International Symposium on Rarefied Gas Dynamics, Seoul, Republic of Korea, (2022)


2021

[11] Mankodi T. K., Myong R. S., Non-Equilibrium chemical reaction models for Zeldowich reactions for hypersonic re-entry flows, Pre-conference Online meeting on Rarefied Gas Dynamic, Seoul, Republic of Korea (2021)


2019

[10] Mankodi T. K., Myong R. S., Investigating Non-Equilibrium Reacting Air Flow around Stardust Re-entry Vehicle, The Korean Society for Aeronautical and Space Sciences Spring Conference, Byeonsan, Republic of Korea, (2019)


2018

[9] Mankodi T. K., Bhandarkar U. V., Puranik B. P., DSMC study of Shock-Shock Interaction at Rarefied Ambient Conditions, 23rd International Shock Interaction Symposium, Skukuza National Park, South Africa, (2018)

[8] Mankodi T. K., Bhandarkar U. V., Puranik B. P., Computational and Accuracy Analysis of a Reduced and Full Scale Ab-initio Based Chemical Model in DSMC, 5th National Symposium on Shock Waves, Terminal Ballistics Research Laboratory, Chandigarh, India, (2018)


2017

[7] Mankodi T. K., Bhandarkar U. V., Puranik B. P., Comparison of DSMC Chemistry Models for Rarefied Shock Tube Simulations with Nitrogen, 31st International Symposium on Shock Wave, Nagoya, Japan, (2017)


2016

[6] Mankodi T. K., Bhandarkar U. V., Puranik B. P., Chemical Reaction Model for Direct Simulation Monte Carlo, 4th National Symposium on Shock Waves, Karunya Institute of Technology and Sciences,Coimbatore, India, (2016)


2015

[5] Mankodi T. K., Bhandarkar U. V., Puranik B. P., Effect of LB Model Parameters on the Convective Heat Flux in DSMC, 1st International ISHMT-ASTFE Heat and Mass Transfer Conference, Thiruvananthpuram, India, (2015)

[4] Mankodi T. K., Bhandarkar U. V., Puranik B. P., Comparison of Chemical Reaction Models with various Experimental Reentry Capsules using DSMC, 30th International Symposium on Shock Wave, Tel Aviv, Israel, (2015)

[3] Mankodi T. K., Bhandarkar U. V., Puranik B. P., DSMC simulation of a Micro-turbine Blade Cascade Assembly, 24th International Conference on Discrete Simulation of Fluid Dynamics, Edinburgh, (2015)


2014

[2] Mankodi T. K., Bhandarkar U. V., Puranik B. P., Density Distribution based Interpolated Grid for DSMC, 29th International Symposium on Rarefied Gas Dynamics, Xi’an, China, (2014)

[1] Mankodi T. K., Bhandarkar U. V., Puranik B. P., DSMC Simulations to Study Heat Flux Over SA Model Re-entry Vehicle, 3rd National Symposium on Shock Waves, IIT Bombay, Mumbai, India, (2014)


Edited Books

2024

[1] Sharma D., Gautum S. S., Saha U. K., Mankodi T. K., Advances in Multidisciplinary Design, Analysis and Optimization NCMDAO 2023, Lecture Notes in Mechanical Engineering, Springer Publication (2024)


Thesis

Development of Ab-initio based chemical reaction model for Direct Simulation Monte Carlo, Indian Institute of Technology Bombay, 2018