International Journals

Articles in International Journals (SCI/SCIE/WOS/SCOPUS)

1. Arjun P S and D. Arumuga Perumal*, Computational Modelling of Heat Transfer through Aluminium Metal Foams for LiFePO4 Battery Cooling, Recent Patents on Mechanical Engineering, Vol. 17 (3), 196-207, 2024, Bentham Science Publishers (impact factor:: 0.609, Scopus Indexed).

2. Basha, S.M.M, Ezaz Ahammed, D. A. Perumal*, Ajay Kumar Yadav, A Computational Approach on Mitigation of Hotspots in a Microprocessor by Employing CNT Nanofluid in Bifurcated Microchannel, Arabian Journal for Science and Engineering, Springer (SCIE (Scopus Indexed), impact factor:2.2) Vol. 49, 2199-2215, 2024 DOI: https://doi.org/10.1007/s13369-023-08168-y

3. Joswin P.R, R.S. Thanumoorthy, Shambhu K.M, Prithvirajan S, D. A. Perumal, Srikanth B, A.S.S. Balan*, Hybrid additive manufacturing of ER70S6 steel and Inconel 625: A study on microstructure and mechanical properties, Materials Today Communications, Volume 37, December 2023, 106977, (SCIE (Scopus Indexed), impact factor:3.8) DOI: https://doi.org/10.1016/j.mtcomm.2023.106977

4. Sthavishtha Bhopalam R., D.A. Perumal*, Ajay Kumar Yadav, Three-dimensional simulations of fluid flows in oscillating lid-driven cavities using lattice Boltzmann method, Fluid Dynamics Research, IOP Science, Article number 045504, Volume 55, Issue 4, (SCI (Scopus Indexed), impact factor:2) 2023. DOI: https://doi.org/10.1088/1873-7005/ace37c

5. Erin Sam Joe, D.A. Perumal*, Combustion modelling of sequential combustion in steam-methane reformation (SMR) furnace using adiabatic flamelet generated manifold, Vol. 40, ID 101795, Thermal Science and Engineering Progress, Elsevier, (SCIE (Scopus Indexed), impact factor:4.56) 2023. DOI: https://doi.org/10.1016/j.tsep.2023.101795 

6. G. Narendran, A. Walnuj, M.A. Kumar, P. Jeyachandran, S.N. Awwad, A.H. Ibrahium, M.R. Gorji, D.A. Perumal, Experimental Demonstration of Compact Polymer Mass Transfer Device Manufactured by Additive Manufacturing with Hydrogel Integration to Bio-Mimic the Liver Functions, Vol. 10 (4), MDPI, (SCIE (Scopus Indexed), impact factor:4.6) 2023. DOI: https://doi.org/10.3390/bioengineering10040416 

7. N. Fatima, I. Rajan, D.A. Perumal, A. Sasith, Shaima, M.R. Gorji, Z. Ahmad, Simulation of fluid flow in a lid-driven cavity with different wave lengths corrugated walls using Lattice Boltzmann method, Vol. 144, 104748, 1-9, Journal of the Taiwan Institute of Chemical Engineers, (SCIE (Scopus Indexed), impact factor:5.47), March 2023, DOI: https://doi.org/10.1016/j.jtice.2023.104748 

8. G. Narendran, N. Gnanasekaran, D.A. Perumal*, Sreejesh M, Nagaraja H.S., Integrated microchannel cooling for densely packed electronic components using vanadium pentaoxide (V2O5)-xerogel nanoplatelets-based nanofluids, Journal of Thermal Analysis and Calorimetry, (SCI (Scopus Indexed), impact factor:4.6) Springer, 2023. 

9. Pratik Bagde, Nithin Nayak, D. A. Perumal, Development of Micromixer for efficient mixing of Blood and Insulin in human arteries, Materials Today: Proceedings, (Scopus Indexed), Vol. 76, pp. 182-189, 2023.

10. Erin Sam Joe, D.A. Perumal*, Computational analysis of fluid immersed active cooling for battery thermal management using thermal lattice Boltzmann method, The European Physical Journal Special Topics, Vol. 231, 2865-2877, (2022). (SCI (Scopus Indexed), impact factor:2.891), Springer https://doi.org/10.1140/epjs/s11734-022-00605-7 

11. G. Narendran, Amit Kumar, N. Gnanasekaran, D. A. Perumal*, A Numerical Study on Microgap-Based Focal Brain Cooling Device to Mitigate Hotspot for the Treatment of Epileptic Seizure, ASME Open Journal of Engineering, Vol. 1, 011042, No. AOJE-22-1053, 2022. DOI: https://doi.org/10.1115/1.4055465 

12. Amit Kumar, G. Narendran, D. A. Perumal*, Effects of nanorefrigerants for refrigeration system: A Review, Nanoscience and Technology: An International Journal, (Scopus Indexed), 2022. Begell House. DOI: https://doi.org/10.1615/NanoSciTechnolIntJ.2022040981 

13. Pawan Karki, D.A. Perumal, Ajay Kumar Yadav*, Comparative studies on air, water and nanofluids based Rayleigh Benard natural convection using Lattice Boltzmann Method: CFD and exergy analysis", Journal of Thermal Analysis and Calorimetry, Vol. 147, 1487-1503, (2022) (SCI (Scopus Indexed), impact factor:4.6) Springer, DOI: https://doi.org/10.1007/s10973-020-10496-2 

14. Prakash H. Jadhav, Gnanasekaran N* and D. A. Perumal, Thermodynamic analysis of entropy generation in a horizontal pipe filled with high porosity metal foams, Materials Today: Proceedings, (Scopus Indexed), Vol. 51, Part 3, 1598-1603, 2022. DOI: https://doi.org/10.1016/j.matpr.2021.10.451 

15. S. Sen, T. Hegde, D.A. Perumal, Ajay Kumar Yadav, A Numerical Approach for Natural Convection With Curved Obstacles in an Enclosure Using Lattice Boltzmann Method, ASME Open Journal of Engineering, Vol. 1, 011004 (1-21), No: AOJE-21-1013, (2022). DOI: https://doi.org/10.1115/1.4053545

16. Tirthraj Bhatt, D. A. Perumal, A. Sasith, Numerical Investigations of Free and Forced Convection with various features using Mesoscopic Lattice Boltzmann Method, Materials Today: Proceedings, (Scopus Indexed), Vol. 68, pp. 2658-2664, 2022.

17. Prakash H. Jadhav, Gnanasekaran N* and D. A. Perumal, Moghtada Mobedi*, Performance evaluation of partially filled high porosity metal foam configurations in a pipe, Applied Thermal Engineering, Vol. 194, 117081, (SCI (Scopus Indexed), impact factor: 5.29), 2021, Elsevier.

18. Erin Sam Joe, D.A. Perumal*, Computational analysis of nonhomogeneous fluid flow in a two-cylinder driven rectangular cavity, Applications in Engineering Science, Volume 7, September 2021, 100064, 1-16, Elsevier, DOI: https://doi.org/10.1016/j.apples.2021.100064

19. Deepak Kumar, D.A. Perumal*, Gnanasekaran N and Harsha Kumar MK, Lattice Boltzmann Method combined with Levenberg-Marquardt algorithm to estimate the unknown heat flux – A new inverse approach, Materials Today: Proceedings, (Scopus Indexed), Vol. 46, Part 19, 9994-9999, 2021 DOI:https://doi.org/10.1016/j.matpr.2021.04.160

20. Prakash H. Jadhav, Gnanasekaran N* & D. A. Perumal, Conjugate heat transfer study comprising the effect of thermal conductivity and irreversibility in a pipe filled with metallic foams. Heat and Mass Transfer/Waerme- und Stoffuebertragung Vol 57(6), 911-930 (2021) . https://doi.org/10.1007/s00231-020-03000-x (SCI (Scopus Indexed), impact factor: 1.85), Springer

21. Sthavishtha Bhopalam R., D.A. Perumal*, Ajay Kumar Yadav, Computational appraisal of fluid flow behavior in two-sided oscillating lid-driven cavities, International Journal of Mechanical Sciences, Vol 196, 106303 1-15, April 2021 (SCI (Scopus Indexed), impact factor:4.63) Doi: https://doi.org/10.1016/j.ijmecsci.2021.106303

22. Prakash H. Jadhav, Gnanasekaran N* and D. A. Perumal, Numerical Consideration of LTNE and Darcy Models for the Analysis of Forced Convection in a Horizontal Pipe in the Presence of Metal Foam, ASME Journal of Heat Transfer, (SCIE (Scopus Indexed) Impact factor: 1.8), Vol 143 (1), 012702, 1-16, Jan 2021 DOI:https://doi.org/10.1115/1.4048622

23. Santosh Chavan, Veershetty G and D.A. Perumal* , Performance Assessment of Composite Phase Change Materials for Thermal Energy Storage - Characterization and Simulation Studies, Recent Patents on Mechanical Engineering, Vol. 14 (1), 75-85, 2021, Bentham Science Publishers (Scopus Indexed). DOI:https://doi.org/10.2174/2212797613999200708140952

24. Santosh Chavan, Veershetty G and D.A. Perumal* , Computational Investigation on the effect of geometrical parameters on thermal energy storage systems, Computational Thermal Sciences, Vol. 13 (1), 55-71, 2021. DOI: 10.1615/ComputThermalScien.2020033738 (Scopus Indexed).

25. Isac Rajan, D.A. Perumal*, Flow Dynamics of Lid-Driven Cavities with obstacles of various shapes and configurations using the Lattice Boltzmann Method, Journal of Thermal Engineering, Vol 7 (2), 83-102, 2021 (Scopus Indexed)

26. G. Narendran, D.A.Perumal*, N.Gnanasekaran, A Review Of Lattice Boltzmann Method Computational Domains For Micro- And Nanoregime Applications, Nanoscience and Technology: An International Journal, Vol. 11 (4), 343-373, (Scopus Indexed), 2020. DOI: 10.1615/NanoSciTechnolIntJ.2020033817

27. Tirthraj Bhatt, D. A. Perumal*, Application of Lattice Boltzmann Method for fluid flow modelling of FSLDR Domain, Materials Today: Proceedings, Vol. 22 Part 4, 2066-2073 (Scopus Indexed), 2020. DOI: https://doi.org/10.1016/j.matpr.2020.03.221

28. Sthavishtha Bhopalam R., D.A. Perumal*, Numerical analysis of fluid flows in L-Shaped cavities using Lattice Boltzmann method, Applications in Engineering Science, Volume 3, September 2020, 100016, 1-14, Elsevier, DOI: https://doi.org/10.1016/j.apples.2020.100016

29. Santosh Chavan, Veershetty G and D.A. Perumal*, Numerical and Experimental Analysis on Thermal Energy Storage of Polyethylene/Functionalized Graphene Composite Phase Change Materials, Journal of Energy Storage, Vol. 27, 101045, 1-11, February 2020, Elsevier, (SCIE (Scopus Indexed)Impact factor: 3.517) DOI;https://doi.org/10.1016/j.est.2019.101045

30. G. Narendran,N.Gnanasekaran*, D.A.Perumal, Thermodynamic irreversibility and conjugate effects of integrated microchannel cooling device using TiO2 nanofluid, Heat and Mass Transfer, (SCI (Scopus Indexed), impact factor: 1.55), Springer , 56, 489–505, 2020. DOI: https://doi.org/10.1007/s00231-019-02704-z

31. G. Narendran,N.Gnanasekaran*, D.A.Perumal, Experimental Investigation on Heat Spreader Integrated Microchannel using Graphene Oxide Nanofluid, Heat Transfer Engineering, (SCI (Scopus Indexed), impact factor: 1.12),Vol. 41 (14), 1252-1274, Taylor & Francis, 2020. DOI: https://doi.org/10.1080/01457632.2019.1637136

32. Isac Rajan, D.A. Perumal*, and Ajay Kumar Yadav, Fluid flow characteristics in double-sided lid-driven microcavity using lattice Boltzmann method, Computational Thermal Sciences, Vol. 11(6), 565-577, 2019, Begell House Publishers (Scopus Indexed). DOI: 10.1615/ComputThermalScien.2019028960

33. P. Bhowmick, A.K. Jeevanantham, B. Ashok, K. Nanthagopal*, D.A. Perumal, V. Karthikeyan, K.C. Vora, A. Jain, Effect of fuel injection strategies and EGR on biodiesel blend in a CRDI engine, Energy - The International Journal, Vol. 181, 1094-1113, August 2019, Elsevier, ((SCI (Scopus Indexed), Impact factor: 5.537) [ Cited 17 times]

34. Pawan Karki, Ajay Kumar Yadav, and D.A. Perumal*, Study of adiabatic obstacles on natural convection in a square cavity using Lattice Boltzmann method, Journal of Thermal Science and Engineering Applications, ASME ,Vol. 11, 034502, 1-16, June 2019 (Scopus Indexed, Impact factor: 1.0) [ Cited 5 times]

35. Santosh Chavan, Veershetty G and D.A. Perumal*, Computational Investigation of Bounded Domain with Different Orientations using CPCM, Journal of Energy Storage, Vol. 22, 355-372, 2019, Elsevier, (SCIE (Scopus Indexed)Impact factor: 3.517) [ Cited 3 times]

36. Santosh Chavan, Veershetty G and D.A. Perumal*, Characterization of linear low-density polyethylene with graphene as thermal energy storage material, Materials Research Express, Vol. 6, 065511, 1-10, 2019, (SCIE (Scopus) Indexed, Impact factor: 1.151) [ Cited 4 times]

37. Ashok B, Nanthagopal K*, D.A. Perumal, J.M. Babu, A. Tiwari, A. Sharma, An investigation on CRDi engine characteristic using renewable orange-peel oil, Energy Conversion and Management, Vol. 180, 1026-1038, 2019, Elsevier, (SCIE (Scopus) Indexed, Impact factor: 6.3) [ Cited 19 times]

38. Amit Kumar, G. Narendran and D.A. Perumal*, Numerical Study of TiO2 Nanofluid in Multistage Bifurcated Microchannel subjected to Hotspots, Lecture Notes in Mechanical Engineering, Springer, Vol. 1, 793-801, 2019. (Scopus Indexed)

39. Balashanker K, Vikas V Shetty and D.A. Perumal*, Lattice Boltzmann Simulation of Double-Sided Deep Cavities at low Reynolds number, Lecture Notes in Mechanical Engineering, Springer, Vol. 2, 373-379, 2019. (Scopus Indexed) 

40. G. Narendran, Mithilesh M. Bhat, L. Akshay, D.A.Perumal*, Experimental Analysis on Exergy Studies of flow through a minichannel using Tio2/Water nanofluids, Thermal Science and Engineering Progress, Elsevier, 8,  pp.  93-104, 2018 (Scopus Indexed) [ Cited 7 times]

41. Ashok B, Nanthagopal K*, Saravanan B, Kavalipurapu R.T, D.A. Perumal, Muhammad U.K., Experimental study of methyl tert-butyl ether as an oxygenated additive in diesel and Calophyllum inophyllum methyl ester blended fuel in CI engine, Environmental Science and Pollution Research, Vol. 25(33), 33573-33590, Springer Nature, 2018 (SCI (Scopus) Indexed, Impact factor: 2.8) [ Cited 11 times]

42. Sthavishtha Bhopalam R., D.A. Perumal*, Ajay Kumar Yadav, Computation of fluid flow in double sided cross-shaped lid-driven cavities using Lattice Boltzmann method, European Journal of Mechanics - B/Fluids, Vol. 70, pp. 46-72, Elsevier, Jul-Aug. 2018, (SCI (Scopus) Indexed,  Impact factor: 1.80). [ Cited 8 times]

43. D.A. Perumal*, Lattice Boltzmann Computation of Multiple Solutions in a Double-Sided Square and Rectangular Cavity Flows, Thermal Science and Engineering Progress, Elsevier, Vol. 6, pp. 48-56, 2018. (Scopus Indexed)

44. Santosh Chavan, Veershetty G and D.A. Perumal*, A Review on Thermal Energy Storage Using Composite Phase Change Materials,Recent Patents on Mechanical Engineering, Vol. 11 (4), 298-310, 2018, Bentham Science Publishers (Scopus Indexed) [ Cited 5 times]

45. G. Narendran,N.Gnanasekaran, D.A.Perumal*, A Review on Recent Advances in Microchannel Heat Sink Configurations, Recent Patents on Mechanical Engineering,Vol. 11 (3), 190-215, 2018,Bentham Science Publishers (Scopus Indexed). (Listed in More Accessed Articles 2018-2019) [ Cited 9 times]

46. D.A. Perumal* and A.K. Dass, A Review on the Development of Lattice Boltzmann Computation of Macro Fluid Flows and Heat Transfer, Alexandria Engineering Journal, Vol. 54, pp. 955-971, Elsevier, 2015, doi: 10.1016/j.aej.2015.07.015  (SCIE (Scopus) Indexed, Impact factor: 3.656), Cited 43 times]

47. D.A. Perumal* and A.K. Dass, Lattice Boltzmann Simulation of two- and three-dimensional incompressible thermal flows, Heat Transfer Engineering, Vol. 35, Issue 14-15, pp. 1320-1333, 2014. (SCI (Scopus Indexed), impact factor: 1.12,Taylor & Francis, DOI:10.1080/01457632.2013.876870). [ Cited 7 times]

48. D.A. Perumal* and A.K. Dass, Computation of Lattice Kinetic Scheme for Double-sided Parallel and Antiparallel Wall Motion, Applied Mechanics and Materials, Vol. 592-594, pp. 1967-1971, 2014, doi: 10.4028/www.scientific.net/AMM.592-594.1967 [(Scopus Indexed)]

49.  D.A. Perumal*, G.V.S. Kumar and A.K. Dass,Lattice Boltzmann Simulation of Viscous Flow over a circular cylinder at Moderate Reynolds numbers,  Thermal Science, Vol. 18 (4), pp.1235-1246, 2014,  doi:10.2298/TSCI110908093A [SCIE(Scopus Indexed), impact factor: 1.31, Cited 5 times]

50. D.A. Perumal*, I.M. Gowhar, S.A. Ananthapuri, V. Jayakrishnan, Computation of temperature distributions on Uniform and Non-uniform Lattice Sizes using Mesoscopic Lattice Boltzmann Method, Journal of Mechanical Engineering, vol. 11, no. 2, pp. 53–65, 2014. [(Scopus Indexed)]

51. D.A. Perumal*, L.Agarwal, R.T.K. Raj, A.Harshan and K.N.Gopal, Examination of the Lattice Boltzmann Method in simulation of Manufacturing, ARPN Journal of Engineering and Applied Sciences , Vol. 9 (4), pp. 471 - 478, 2014.  [(Scopus Indexed)]

52. D.A. Perumal* and A.K. Dass, Lattice Boltzmann Computation of Flows in Three-Dimensional Lid-Driven Cavities with Two Types of Wall Motion,  International Journal of Mechanical and Materials Engineering, 8 (2), pp. 105-115, 2013. [(Scopus Indexed), impact factor: 0.25] 

53. D.A. Perumal*, Lattice Boltzmann Simulation of Laminar Flow in a Three-Dimensional Two-Sided Lid-Driven Cavity, World Journal of Modelling and Simulation, Vol. 9, No. 4, pp. 277-288, 2013. [(Scopus Indexed), Cited 4 times]

54. D.A. Perumal* and A.K. Dass, Application of Lattice Boltzmann Method for Incompressible Viscous Flows, Applied Mathematical Modelling, Vol. 37, No. 6, pp. 4075-4092, 2013, Elsevier, Doi: 10.1016/j.apm.2012.09.028. [SCI (Scopus Indexed), Impact factor: 2.84, Cited 25 times]  

55. D.A. Perumal*, G.V.S. Kumar and A.K. Dass, Lattice Boltzmann Simulation of Viscous Flow past Elliptical Cylinder, CFD Letters, Vol. 4, No. 3, pp. 127-139, 2012. [(Scopus Indexed), Cited 6 times]

56. D.A. Perumal*and A.K. Dass, Multiplicity of Steady Solutions in Two-Dimensional Lid-Driven Cavity Flows by the Lattice Boltzmann Method, Computers & Mathematics with Applications, Vol. 61, pp.3711-3721, 2011, Elsevier, doi: 10.1016/j.camwa.2010.03.053, Elsevier. [SCI(Scopus Indexed), Impact factor: 2.81, Cited 41 times].

57. D.A. Perumal* and A.K. Dass, Simulation of Incompressible Flows in Two-Sided Lid-Driven Square Cavities. Part II-LBM, CFD Letters, Vol. 2, No. 1, pp. 25-38, 2010. [(Scopus Indexed), Cited 17 times].

58. D.A. Perumal*, G.V.S. Kumar and A.K. Dass, Application of Lattice Boltzmann method to fluid flows in Microgeometries, CFD Letters,, Vol. 2, No 2, pp. 75-84, 2010. (This article was second in the list of 5 TOP FEATURED ARTICLES of CFD LETTERS, 2011-2012). [(Scopus Indexed)Cited 6 times] 

59. D.A. Perumal* and A.K. Dass, Simulation of Incompressible Flows in Two-Sided Lid-Driven Square Cavities. Part I-FDM, CFD Letters,, Vol.  2, No 1, pp. 13-24, 2010. [(Scopus Indexed), Cited 26 times].   

60. D.A. Perumal* and A.K. Dass, Simulation of flow in two-sided lid-driven square cavities by the lattice Boltzmann method,  WIT Transactions on Engineering Sciences, Vol. 59, pp. 45-54, 2008 [(Scopus Indexed), Cited 6 times].            

Articles in International Journals (Peer Reviewed)

1. D. A. Perumal, G.V.S. Kumar and A.K. Dass, Numerical Simulation of Viscous Flow over a Square Cylinder Using Lattice Boltzmann Method,ISRN Mathematical Physics,  Vol. 2012, Article ID 630801, 2012. [DOAJ]

2. D.A. Perumal, Simulation of flow in Two-sided lid-driven deep cavities by finite difference method, Journal of Applied Science in the Thermodynamics and Fluid Mechanics, Vol. 6 (1), pp. 1-6, 2012.[DOAJ]

3. D.A. Perumal, V.Krishna, G.Sarvesh and A.K. Dass, Numerical Simulation of Gaseous Microflows by Lattice Boltzmann Method, International Journal of Recent Trends in Engineering, pp. 15-20, Vol. 1, No. 5, 2009. [DOAJ]

Articles in National Journals 

1. D. A. Perumal, G.V.S. Kumar and A.K. Dass, A numerical study of fluid transport phenomenon over two Tandem and side-by-side circular cylinders by LBM, Journal of Chemical and Pharmaceutical Sciences, JCHPS Special Issue 2: August 2016, PP. 30-34, 2016. [DOAJ]

2. D.A. Perumal, Mesoscopic modeling of Density-Internal Energy Distribution Function for Convection Heat Transfer, The IUP Journal of Mechanical Engineering, pp. 29-41, Vol. VIII, No. 2, 2015. [DOAJ]

3. D.A. Perumal, Simulation of two-sided deep cavity flows by lattice Boltzmann Multi-Relaxation-Time Model, Global Journal of Pure and Applied Mathematics (GJPAM) ISSN 0973-1768, Volume 12,Number 4 pp. 88-95, (2016) (Special Issue) [DOAJ]

4. D.A. Perumal, LBM Simulation and Analytical Validation of Incompressible Couette and Poiseuille flows, IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE), Vol. 1, pp. 13-19, 2016.  [DOAJ]

Book(s)

1. Lattice Boltzmann Computation of Macro- & Micro Fluids & Heat Transfer, Arumuga Perumal D, Lambert Academic Publishing, 2017 (ISBN: 978-620-2-01337-6)

2. Frontiers in Aeronautical, Aerospace and Automotive Engineering, Editor: Dr.D.Arumuga Perumal,  Noorul Islam University, March 2013.

Chapters in International Books

1. Santosh Chavan, Veershetty G* and D.A. Perumal, Numerical Analysis of Composite Phase Change Material in a Square Enclosure, Chapter 35, Advances in Energy Research, Vol. 1, Springer Proceedings in Energy, Editors: Singh, Suneet, Ramadesigan, Venkatasailanathan (Eds.),Page 359-370,  2020. (ISBN 978-981-15-2666-4) DOI: https://doi.org/10.1007/978-981-15-2666-4_35, Springer Singapore 

2. D.A Perumal, M.P Mydeen, CS. Sabarish, M.Selvan and B.Duraisamy, Analysis of flow behaviour in a jet ejector using CFD, Recent Advances in Chemical Engineering, Springer, Page 345-354, 2016. (ISBN 978-981-10-1633-2)

3. D.A. Perumal, A.K. Dass, Simulation of flow in lid- driven square cavities by the lattice Boltzmann method, Advances in Fluid Mechanics VII, pp. 45-54, Oxford University Press, United Kingdom, 2008. (ISBN 978-1-84564-109-2)

4. D.A. Perumal, A.K. Dass, Simulation of Incompressible thermal flows by Lattice Boltzmann Method, Chapter 4, Modelling and Simulation in  Computational Mechanics: Engineering Applications, pp.64-73, Lambert Academic Publishers, Germany, 2009. (ISBN 978-3-8383-0694-0)

Articles in Technical Magazine(s)/Technical Presentation(s):

1. D. A. Perumal, Numerical Simulation of Microflows, Mechanika, IIT Guwahati Students magazine, Vol.IV, 2009.

2. D. A. Perumal, Lattice Boltzmann Method for Micro-electro-mechanical systems (MEMS), Techscribe, Techniche 2009.