Publications

 BOOK  PUBLICATION

1.  A.K. Gupta and N. Afzal, N (Editors)  1973  Asymptotic  Expansions in Turbulent Shear Flow  -  Lecture notes on Engineering and Environmental Aspects of Fluid Mechanics,  Dept.  of Aerospace Engineering   Indian Institute of Technology  Kanpur, India.

2.       N. Afzal 1986 Mixed Concection in buoyant plumes  Chapter 13, pp. 429-485 in Hand Book of Heat and Mass Transfer Operations: Vol. 1,      Edited by N.P. Cheremisionoff. Gulf Publishing Company Texas USA

3.    Noor Afzal 2023 Industrial thermo-fluid dynamics:  A Continous surface moving through a fluid Department of Mechanical Engineering, Aligarh Muslim University Aligarh 202002, India

4.  N. Afzal  2024 - Singular perturbations in method of matched asymptotic expansions:  Turbulent vs Laminar flows  (in preparation)   

Plagiarism  the act of taking someone else's (Dr Noor Afzal) ideas, words, or work and presenting it as your own without giving proper credit 

1-P) Noor Afzal-2022-July-14-Professor Colm-cille P. Caulfield<C.P.Caulfield@damtp.cam.ac.uk> Editor, Journal of Fluid Mechanics. University of Cambridge, DAMTP Centre for Mathematical Sciences, Wilberforce Road, Cambridge CB3 0WA United Kingdom,  https://www.academia.edu/84165302/Afzal_Mesolayer_JFM_July_14_draft         Intermediate layer in space  time (Afzal 1982);  after 1930's wall outer layers by Prandtl  Karman  in turbulent pipe, channel and boundary layer: Review of four decades research,  - Technical Report No 5 of 14 July 2022 AMU Aligarh India, Perspectives of world wide plagiarism by researchers in advance Counties

2-P) Noor Afzal 2024 Contribution of K. R. Sreenivasan (1987-1989 – 2010) termed as advancement of the critical layer (the mesolayer) in a turbulent shear flows: A review.  Submitted to Physics of Fluids for consideration of Publication in 25 April 2024 : Dr K. R. Sreenivasan: A Tribute on the occasion of his 75th Birthday Guest Editors: Sharath S. Girimaji, Texas A&M University Diego Donzis, Texas A&M University, Submission Deadline: April 30, 2024

3-P) Noor  Afzal  2012 Corrections/IIPR  "Accounting for uncertainty in the analysis of overlap layer mean velocity models  by Oliver T.A.  and Moser R. D. [Phys. Fluids 24, 075108 (2012)] ", Technical Report No 2/2012 ASCD-ME,Aero-Space Consultancy Division, Golden Apartment, Sahab Bagh, Aligarh 202002 India. (22 December 2012).

4-P) Noor Afzal 2024 Application for plea: ”Technology Safeguards Agreements, July 20, 2009:       Safeguard protected technologies and data of both countries”, signed by the Secretary of United State Hillary Rodham Clinton and Indian Minister of External Affairs S. M. Krishna . 

Part IA-IP : Noor Afzal: Log law theory of turbulent shear flow published by Noor Afzal (1973 Journal of Fluid Mechanics, 1976 Physics of Fluid, –) and its plagiarism is the use by 10  other persons’ work, in words, or ideas without attribution to earlier publications. Plagiarizations by the persons of USA, Switzerland, Spain, Sweden, France, Japan

 Part IIA-IIP: Mesolayer (new Intermediate layer) between wall and outer layers: First original research by Dr Noor Afzal (1982-1985) and (2007-2018) the founder of mesolayer (intermediate layer: plagiarism by other 150 authors, in their work, words, or ideas without attribution of my work . Plagiarizations by the persons of USA, Switzerland, Spain, Sweden, France, Japan.

5-P)  Noor Afzal  2012 Technical report on plagiarism by Zhen-Su-She,..., Fazle Hussain (2012) on rough wall scale velocity and skin friction new log laws proposed by Afzal et al. (2006 to 2012). Technical Report No 11/2012 ZHCET-ME, AMU, Aligarh India.

6.  Noor Afzal 2022 Intermediate layer in space  time (Afzal 1982);  after 1930's wall outer layers by Prandtl  Karman  in turbulent pipe, channel and boundary layer: Review of four decades research,  - Technical Report No 5 of 14 July 2022 AMU Aligarh India, Perspectives of world wide plagiarism by researchers in advance Counties,  Submitted to Journal of Fluid Mechanics with a  letter to Colm-cille P. Caulfield Editor, Journal of Fluid Mechanics.

  PAPERS PUBLISHED IN REFEREED JOURNALS - 125 : submission - 8

TURBULENT FLOWS: Paper published - 75

120. Noor Afzal 2025 Reynolds analogy between turbulent heat and momentum transfers in a wall bounded flow.  arXiv:submit/5861658

119.  Noor Afzal  2025 Shape factor and wall friction in a    transitional rough wall turbulent boundary layer: Universal relations.   Submitted.

118.  Noor Afzal  and Abu Seena 2025 Intermediate layer in a turbulent   wall  jet  over a transitional rough wall: Mesolayer log law and power law velocities.      Submitted

117.   Noor Afzal  2025  Turbulent Channel Flow: A New Formulation Between Reynolds Shear Stress −ρ < u′v′ >+ with Mean Velocity Ratio u/Uc,   Preprint   Fluids.  pp1-20.

 116. Noor Afzal  2025 Turbulent flow in a transitional rough pipe universal laws; Power law velocity with equivalent log law velocity in the overlap region: Commencing from fully smooth pipe flow, ASME J Fluid Engineering  (accepted-FE-24-1402) Vol 147

115.. Noor Afzal, Abu Seena and A. Bushra 2023 Friction factor power law with equivalent log law, of a turbulent fully developed flow,  in an entirely smooth pipe, Zeitschrift fur Angewandte Mathematik  und Physik (ZAMP) 2023- V74, pp  144-(1-13).  

114.  Noor Afzal 2023 INDUSTRIAL THERMO-FLUID-DYNAMICS:  A CONTINUOUS SURFACE MOVING THROUGH A FLUID Department of Mechanical Engineering, Aligarh Muslim University Aligarh 202002, India

113.  Noor Afzal 2022 Intermediate layer in space  time (Afzal 1982);  after 1930's wall outer layers by Prandtl  Karman  in turbulent pipe, channel and boundary layer: Review of four decades research,  - Technical Report No 5 of 14 July 2022 AMU Aligarh India, Perspectives of world wide plagiarism by researchers in advance Counties,  Submitted to Journal of Fluid Mechanics with a  letter to Colm-cille P. Caulfield Editor, Journal of Fluid Mechanics.

112. Noor Afzal 2020 Power laws in wall and wake layers of a turbulent boundary layer,   arXiv:submit/3212635  [physics.flu-dyn] 5 Jun 2020

111. Abu Seena and Noor Afzal  2020  Analysis of Reynolds momentum equations (model free) in a transitional rough pipe for large Reynolds numbers"  Journal of Hydraulic Research. MS TJHR-2020-0211. Submitted.

110. Noor Afzal and Abu Seena 2018 Mean velocity, Reynolds shear stress, fluctuations of velocity and pressure, due to log laws in a turbulent boundary layer and origin offset by Prandtl transposition theorem. ASME J. Fluids Engineering, vol 140, pp. 071204 -(1-23).      

109. Noor Afzal, Abu Seena, A. Bushra 2018 Turbulent energy production peak and its location from inner most log law or power law velocity in a turbulent channel/pipe and Couette flows. European Journal of Mechanics / B' Fluids, vol 67, pp. 178-184.

108. .Afzal, N. and  Seena, A. 2015 Discussions:  (1) " On the Axisymmetric Turbulent Boundary Layer Growth Along Long Thin Circular Cylinders,"  (Jordan, S. A., 2014, ASME J. Fluids Eng., 136(5), p. 051202)  and (2) " Understanding Tow Tank Measurements of Total Drag for Long Thin Circular Cylinders", (Jordan, S. A., 2014, ASME J. Fluids Eng., 136(3), p. 031205), .  ASME J. Fluid Engineering, Vol  137(3), 035501 (Mar 01, 2015).

107.  Afzal, N. and  Seena, A. 2013 Parametric  analysis  of  turbulent wall jet in  still air over a transitional rough,  with asymptotes of  fully rough and fully smooth wall jets.  ASME J. Fluid Engineering, Vol 135 (11), pp. 111203-.

 106. Afzal, N.  2013 Roughness effects of commercial steel pipe in turbulent flow: universal scaling. Can. J. Civ. Eng. Vol 40 (2), pp. 288-193.  

105.  Afzal, N., Seena, A. and  Bushra, A.  2013 Effects of machined surface roughness on high Reynolds number turbulent pipe flow: Universal scaling. Journal of Hydroenvironment Research IAHR, Vol 7, pp. 81-90. 

104. Afzal, N., Seena, A. and Bushra, A 2013 Thermo-fluid-dynamics of turbulent boundary layer over a moving continuous flat sheet in a parallel free stream - in Special Issue on Similarity solutions in nonlinear PDEs. International Journal of Applied Mathematics and Statistics. (To appear)

103. Afzal, N. 2012 Technical report on plagiarism by Zhen-Su-She,..., Fazle Hussain (2012) on rough wall scale velocity and skin friction new log laws proposed by Afzal et al. (2006 to 2012). Technical Report No 11/2012 ZHCET-ME, AMU, Aligarh India.

 102.  Noor  Afzal  2012 Corrections/IIPR  "Accounting for uncertainty in the analysis of overlap layer mean velocity models  by Oliver T.A.  and Moser R. D. [Phys. Fluids 24, 075108 (2012)] ", Technical Report No 2/2012 ASCD-ME,Aero-Space Consultancy Division, Golden Apartment, Sahab Bagh, Aligarh 202002 India. (22 December 2012).

101. Afzal, N. and Seena, A. 2011  Analysis of  power law and log law for a turbulent wall jet over a transitional rough surface: Universal relations.  J. Fluid Engineering., Trans ASME. Vol 133, 091201-(1-14).

 100.     Afzal, N., Seena, A. and Bushra, A. 2011 Discussion of ”Velocity Profile and Flow Resistance Models for Developing Chute Flow” by Oscar Castro Orgaz, J. Hyd. Eng. 136(7), 447-452, 2010, J. Hydraulic Engineering, Proc. ASCE 137 (12), 1693-1696.

 99.     Afzal, N., Bushra, A. and Seena, A. 2011  Analysis of turbulent hydraulic jump over a transitional rough bed of a rectangular channel: Universal Relations, Journal of Engineering Mechanics, Proc ASCE 137 (12) , 835-845.

98.     N. Afzal  2010  Analysis of instantaneous turbulent velocity vector in geostrophic turbulent Ekman layer on transitional rough surface, pp 143-150, INVITED TALK,         in IUTAM Symposium on ’The physics of wall-bounded turbulent flows on rough walls’ from 7-9 July 2009 University of Cambridge Great Britain, Springer Verlag London, New York.

  97.     N. Afzal 2009 Neutrally stratified turbulent Ekman boundary layer: Universal  similarity for a transitional rough surface. Boundary Layer Meterology, Vol 132, pp. 241-259.

 96.     N. Afzal  2009 Analysis of instantaneous turbulent velocity vector and temperature profiles in transitional rough channel flow. ASME J. Heat Transfer, Vol. 131, pp. 064503-(1-7). 

  95. N. Afzal 2009 Mesolayer in turbulent pipe and channel flows. Invited talk,         in IIScCentenary International Conference on Aerospace Engineering and      Exhibition, Proc. ICEAE 2009, pp. 137-143, held on 18-22 May 2009, Indian  Institute of Science, Bangalore, India. 

 94.            N. Afzal 2008 Power law universal velocity profile in a turbulent Ekman layeron a transitional rough surface , Quarterly of the Royal Meteorological Society, Vol 134, pp 1113-1125.

 89.       A. Seena and N. Afzal  2008  Power law velocity and temperature profiles in a turbulent channel flow. ASME  J. HEAT TRANSFER, Vol. 130, September 2008, pp. 091701-(1-11).

 88.       A. Seena, A. Bushra, N. Afzal  2008 Logarithmic expansions for Reynolds shear stress and Reynolds heat flux in a turbulent channel flow.  ASME J. Heat Transfer,  Vol. 130, September 2008, pp. 094501-(1-4).

 87.       N. Afzal 2008 Turbulent boundary layer with negligible wall shear. ASME  J. Fluid Engineering, Vol. 130(5), May 2008, pp. 051205-(1-15).

 86.       N. Afzal  2008  Alternate scales of turbulent boundary layer on transitional rough walls: Universal log laws, ASME J. Fluid Engineering, Vol. 130(4), April 2008, pp. 041202-(1-16).

 85.       A. Seena and N. Afzal  2008 Intermediate scaling of turbulent momentum and heat flux in a transitional rough channel, ASME J. Heat Transfer, Vol. 130(3), March 2008, pp. 031701-(1-10).

 84.       N. Afzal  2007  Friction factor directly from transitional rough pipes. ASME J. Fluid Engineering, Vol. 129 (10), 1255-1267. Erratum 2011, ASME J. Fluid Engineering, Vol. 133, 107001-1.

 83.       N. Afzal 2007  Power law velocity profile in turbulent boundary layers on transitional rough wall. ASME J. Fluid Engineering, Vol. 129(8), pp. 1083-1100.

 82.       N. Afzal, A. Seena and A. Bushra  2007  Power law velocity profile in turbulent pipe and channel flows. J. Hydraulics Engineering, Proc. ASCE, Vol. 133 (9), pp. 1080-1086.

 81.       N. Afzal and Abu Seena 2007 Alternate scales for turbulent flow in transitional rough pipes: Universal log laws. ASME J. Fluid Engineering,  Vol. 129 (1), pp 80-90.

 80.       A. Bushra and N. Afzal 2006 Turbulent hydraulic jump in circular and U-shaped. J. Hydraulic Research, IAHR, Vol. 44 (4), pp. 567-576.

 79.       N. Afzal, Abu Seena and A. Bushra 2006 Power law turbulent velocity profile in transitional rough pipes.  ASME J. Fluid Engineering, Vol 128, pp. 548-558.

 78.       N. Afzal 2005 Analysis of power law and log law velocity profiles in overlap region of a turbulent wall jet. Proc. ROYAL SOCIETY A (LONDON): Physical Mathematical & Engineering Sciences, Vol. 461, 2058, pp, 1889-1910.

 77.       N. Afzal and A Bushra 2002 Structure of the turbulent hydraulic jump in a trapezoidal channel.  J. Hydraulic Research, IAHR, Vol 40(2), pp. 205-214.

 76.       N. Afzal 2001 Power and log laws velocity profiles in fully developed turbulent pipe flows: Equivalent relations at large Reynolds numbers. Acta Mechanica, Vol 151, pp. 171-183.

 75.       N. Afzal 2001 Power and log laws velocity profiles in turbulent boundary layer flows: equivalent relations at large Reynolds numbers. Acta Mechanica, Vol 151, pp.195-216.

 74.       O. Barka, M. T. Abujelala, and N. Afzal 2001 Development of Closed Form Solution for Turbulent Plume Subjected to Vertical Free Stream, Journal of Basic and Applied Sciences, Tripoli Libya, Vol. 9, pp. 10

 73.       N. Afzal and A Bushra  1999  Turbulent hydraulic jump in a channel of arbitrary cross-section: Analogy with shock wave, pp 18 -33, INVITED LECTURE in ‘Proc 26 National Conference on Fluid Mechanics & Fluid power(Ed. B Mati et al ) 15-17 Dec at IIT Kharagpur. Allied Publisher New Delhi

 72.       N. Afzal 1999 Wake layer in thermal turbulent boundary layer with pressure gradient. Heat & Mass Transfer, Vol 35, pp. 281-286.

 71.       N.Afzal 1997 Power laws in the wall and wake layers of a turbulent boundary layer. pp 805 - 808 in Proc 7 Asian Congress of Fluid Mechanics at Chennai. Allied Publisher New Delhi.

 70.       N. Afzal 1996  Wake layer in turbulent boundary layer with pressure gradient: A new approach, pp 95-118, INVITED LECTURE in Asymptotic Methods for Turbulent Shear Flows at High Reynolds Numbers (Ed: K.Gersten). Kluwer Academic Publisher.

 69.       N. Afzal 1996 Turbulent boundary layer on a moving continuous plate. Fluid Dynamic Research, Vol. 17, pp 181 - 194.

 68.       N. Afzal 1993 Asymptotic analysis of turbulent Couette flow. Fluid Dynamic Research, Vol. 12, pp 163 - 171.

 67.       N. Afzal and W.B. Bush 1985 A three layer asymptotic analysis of turbulent channel flows. Indian Academy of Sciences: Series A, Vol.94, pp 135-148.

 66.       N. Afzal and R. Narasimha  1985 Asymptotic analysis of thick axisymmetric turbulent boundary layers. AIAA Journal, Vol.23, pp. 963-965.

 65.       N. Afzal 1985 Turbulent natural convection in a horizontal fluid layer with volumetric energy sources : An intermediate layer. Int. J. Heat Mass Transfer, Vol.28, pp 291-300 .

 64.       N. Afzal  1984  Period between bursting in turbulent shear flow : Intermediate Scaling. Current Science, Vol. 53(12), pp. 640-642.

 63.       N. Afzal 1984 The mesolayer theory of turbulent flows. AIAA Journal, Vol.22, pp 437-439.

 62.       N. Afzal  1983  Analysis of a turbulent boundary layer subjected to a strong adverse pressure gradient. Int. J. Engineering Sciences, Vol.21, pp 563-576.

 61.       N. Afzal 1982 Thermal turbulent boundary layer under strong adverse pressure gradient near separation. J. HEAT TRANSFER, Vol.104, pp 397-402 .

 60.       N. Afzal 1982 A sub-boundary layer with a two dimensional turbulent boundary layer. J. Mech. Theo. Appl., Vol.1, pp 963-973.

59.       N. Afzal  1982 Fully developed turbulent flow in a pipe. An intermediate layer. Archive of Applied Mechanics (INGENIEUR-ARCHIV), Vol.52, pp. 355- 377.

58.       K. Yajnik, N. Afzal and D.K. Jain 1977 Equilibrium turbulent boundary layer within the frame work of the asymptotic theory. J. de Mechanique, Vol.16, pp 441-459.

 57.       N. Afzal 1976  Effects of longitudinal curvature, vorticity and displacement for two dimensional turbulent boundary layers with heat and mass transfer. J. de MECHANIQUE, Vol.14, pp 823-814.

 56.       N. Afzal and R. Narasimha 1976 Axisymmetric turbulent boundary layers along a circular cylinder with constant pressure. J. Fluid Mechanics, Vol.74, pp. 113-129.

55.       N. Afzal and K.P. Singh 1976  Axisymmetric turbulent boundary layers along a circular cylinder. The Aeronautical Quaterly, Royal Aeronautical Society London, Vol.27, pp 217-228.

54.       N. Afzal  1976  Millikan’s overlap argument at moderately large Reynolds number. Physics of Fluids, Vol.19, pp 600-601.

53.       N. Afzal and K. Yajnik  1973  Analysis of turbulent pipe and channel flows at moderately large Reynolds number. J. Fluid Mechanics, Vol.57, pp 23-32.

52.       N. Afzal 1973 A higher order theory of compressible turbulent boundary layer at moderately large Reynolds number. J. Fluid Mechanics, Vol. 57, pp 1-25 .

51.       N. Afzal and K. Yajnik  1971  Asymptotic theory of heat transfer in two dimensional turbulent, boundary layers. J. Applied Maths & Phys. (ZAMP), Vol. 22, pp 863-865.

B) LAMINAR FLOWS: PAPERS PUBLISHED - 42

42.       N. Afzal  2010 Falkner-Skan equation for flow past a stretching surface with suction or blowing: Analytical solutions. Applied Mathematics & Computations 217, 2724-2736.

 41.       N. Afzal and M. Maqbool Waris  2010  Heat transfer on a power law stretching sheet subjected to free stream pressure gradient. Int. J. Heat Mass TRANSFER 53, 5017-5021. 

 40.       N. Afzal 2010 Momentum and thermal boundary layers over a two-dimensional or axisymmetric non-linear stretching surface in a stationary fluid fluid. Int. J. Heat Mass TRANSFER 53, 540-547.

 39.       N. Afzal 2003 Momentum transfer on power law stretching plate with free stream pressure gradient. Int. J. Engineering Sciences, Vol. 41, pp. 1197-1207.

 38.       N. Afzal, A. Baderuddin and A.A. Elgarvi 1993 Momentum and heat transport on a continuous flat surface moving in a parallel stream. Int J. Heat Mass Transfer, Vol.36, pp 3399 - 3403.

 37.       N. Afzal 1993 Heat Transfer on stretching flat continuous surface. Int J. Heat Mass Transfer, Vol 36, pp. 1128-1131 .

36.       N. Afzal and M. Salam 1990 Natural convection from point source embedded in Darcian porous medium. Fluid Dynamic Research, Vol.6, pp. 175-184.

35.       N. Afzal and T. Hussain 1986 Effects of large suction in natural convection boundary layer on horizontal plate. Heat and Mass Transfer (Warme und Stoff.), Vol. 20, pp. 203-206.

34.       T. Hussain and N. Afzal 1988 Mixed convection boundary layer flow on a horizontal plate. Int J. Heat Mass Transfer, Vol.31, pp. 2505-2516.

33.       T. Hussain and N. Afzal 1988 Computer extension of perturbation series for mixed convection on a vertical surface : Aiding and opposing flows. Fluid Dynamics Research, Vol 4, pp. 107-121

32.       N. Afzal 1986 Mixed Concection in buoyant plumes  Chapter 13, pp. 429-485 in Hand Book of Heat and Mass Transfer Operations: Vol. 1, Edited by N.P. Cheremisionoff. Gulf Publishing Company Texas.

31.       N. Afzal 1986 Reply by Author to A. Wortman. AIAA Journal, Vol.24, pp. 863-864 .

30.       N. Afzal 1985 Improved series solutions of Falkner-Skan equation. AIAA Journal, Vol.23, pp 969-971 .

29.       N. Afzal 1985 Mixed convection plume above a point heat source in a vertical free stream. Int. J. Heat Mass Transfer, Vol 28, pp. 2043-2047.

28.       N. Afzal 1985 Two dimensional buoyant plume in wedge shape porous medium : Higher order effect. Int. J. Heat Mass Transfer, Vol.28, pp. 2029-2041.

27.       N. Afzal 1985 Higher order effects in natural convection flow over a uniform flux horizontal surface. Heat and Mass Transfer , Vol.19, pp. 177-180

26.      N. Afzal and T. Hussain 1984  Mixed convection over a horizontal plate. J. Heat Transfer, Vol.106, pp. 240-241 .

25.       N. Afzal  1983  Mixed convection in as axisymmetric buoyant plume. Int. J. Heat Mass Transfer, Vol.26, pp. 381-388.

24.       N. Afzal  1983 The cooling of a low heat resistance stretching sheet moving through a fluid: A rejoinder. Heat & Mass Transfer (Warme-Und Stoffbuertraung), Vol.17, pp. 217-219 .

23.       N. Afzal 1982 Minimum error solutions of boundary layer equations. Indian Academy of Sciences, (Math. Sci.: Series A), Vol 91, pp. 183-193.

22.       N. Afzal 1981 Mixed convection in a two dimensional buoyant plume. J. Fluid Mechanics, Vol. 105, pp. 347-368. 

21.       N. Afzal and I.S. Varshney  1980  The cooling of a low heat resistance stretching sheet moving through a fluid. Heat and Mass Transfer (Warme-Und Stoffbuertraung), Vol. 14, pp. 289-293.

20.       N. Afzal  1980 Second order effects in wall jets. J. de Mechanique, Vol.19, pp. 387-402.

19.       N. K. Banthiya and N. Afzal 1980 Mixed convection over a semi-infinite horizontal plate. J. Applied Maths & Physics. (ZAMP), Vol.31, pp. 646-652.

 18.       N. Afzal 1980 Convection wall plume: Higher order analysis. Int. J. Heat Mass Transfer, Vol.23, pp. 505-513.

 17.       N.K. Banthiya and N. Afzal 1980 Forced convection over a semi-infinite flat plate. Indian Academy of Sciences, (Math.Sci., Series A), Vol. 89, pp. 113-123.

 16.       N. Afzal and N.K. Banthiya 1977  Mixed convection over a semi-infinite vertical flat plate. J. Applied Maths & Physics. (ZAMP), Vol.28, pp. 993-1004.

 15.       N. Afzal and S.M.A. Rizvi 1977  Second order unsteady stagnation point boundary layer. AIAA . Journal, Vol.15, pp. 1051-1053.

 14.       N. Afzal  1976  Second-order effects in self-similar laminar compressible boundary layers. Int. J. Engineering Sciences, Vol.14, pp. 415-428.

 13.       N. Afzal  1976  Heat transfer in higher-order boundary-layer flows at low Prandtl number with suction and injection. J. Engineering Mathematics, Vol.10, pp. 55-67 .

 12.       N. Afzal 1976  Second order effects on heat transfer at large Prandtl number. J.de Mechanique, Vol.15, pp 665-679 .

 11.       S. C. Raisinghani and N. Afzal  1976  Second order thermal boundary layer on blunted wedge. J. Applied Maths & Physics (ZAMP), Vol.27, pp 471-482.

 10.       S. C. Raisinghani and N. Afzal 1975 Second-order boundary layer solution for flow past a blunted wedge. J. Applied Maths & Physics. (ZAMP), Vol26, pp 273-287.

 9.       N. Afzal and S. Ahmad 1975 Effects of suction and injection on self-similar solutions to second order boundary layer equations. Int. J. Heat Mass Transfer, Vol. 15, pp. 607-614.

 8.       N. Afzal and V.K. Luthra 1974 Highly accelerated laminar flow at moderately large Reynolds number. AIAA. Journal, Vol.12, pp 529-532.

 7.       N. Afzal and V.V. Satyamurty 1974 Hypersonic rarefied viscous flow near the stagnation region of a circular cylinder. Proc. Ninth International Symposium on Rarefied Gas Dynamics, Vol.2, pp. D 17-1 to D 17-10.

6.       N. Afzal 1974 Laminar boundary layer with arbitrary thermal properties over a flat plate at low Prandtl number. Journal Engineering Mathematics. Vol.8, pp. 249-258 .

5.       N. Afzal and S. C. Raisinghani  1974 Effects of dissipation on heat transfer due to second order boundary layer. Part I. Heat Mass Transfer (Warme-Und Stoffbuertraung), Vol.7, pp. 78-86 .

4.       N. Afzal and S.C. Raisinghani 1973 Heat transfer due to second order boundary layer flows with dissipation, Part II: Liquids. J. Aerospace Society of India, Vol. 25, pp. 56-66 .

3.       N. Afzal and M.M. Oberai 1972 Self similar solutions to the second order boundary layer flows of an incompressible fluid with heat transfer. Int. J. Heat Mass Transfer,Vol. 15, pp. 99-113 .

2.       N. Afzal  1972  Heat transfer in MHD flow with aligned field on a flat plate at high Prandtl number. Int. J. Heat Mass Transfer, Vol.15, pp. 863-865.

1.       R. Narasimha and N. Afzal 1971  Laminar boundary layer on a flat plate at low Prandtl number. Int. J. Heat Mass Transfer, Vol.14, pp. 279-292.

C) Paper submitted for publication - 8

 101.       N. Afzal 2014  Comments on ”Scaling the Characteristic Time of the Bursting Process in the Turbulent Boundary Layer”, Physica D: Nonlinnear Phenomena, 2010 doi:10.1016/j.physd.2009.09.004 by Metzger, M., McKeon, B. and Arce-Larreta, E..

 102.       N. Afzal 2014 Mesolayer in a turbulent boundary layer over a transitional rough surface: Universal log laws.

 103.       N. Afzal 2014 Reynolds shear stress and extension of Coles loglaw-wake velocity profile in the buffer layer.

 104.       N. Afzal 2014 Reynolds heat flux and extension of wall-wake temperature profile in the buffer layer over a transitional rough wall.

 105.       N. Afzal 2014 The interaction of inner and outer regions in the mesolayer of a turbulent boundary layer

 106.       N. Afzal 2014 Mesolayer in a turbulent boundary layer over a transitional rough surface: Universal log laws

 107.       N. Afzal 2014 Role of overlap region in turbulent boundary layer over a smooth surface.

 108.       N. Afzal 2014  Implications of Townsend (1960) outer power law velocity profile for moderate or zero pressure gradients and IMK hypothesis.

 109.  N. Afzal  2014 Comments on ”Turbulent boundary layers: is the wall falling or merely wobbling?, Acta Mecanica 2011 by M.Gad-el-Hak & M.H. Buschmann

 BOOK  PUBLICATION

1.  A.K. Gupta and N. Afzal, N (Editors)  1973  Lecture notes on Engineering and Environmental Aspects of Fluid Mechanics,  Dept.  of Aerospace Engineering   Indian Institute of Technology  Kanpur, India.

2.       N. Afzal 1986 Mixed Concection in buoyant plumes  Chapter 13, pp. 429-485 in Hand Book of Heat and Mass Transfer Operations: Vol. 1,      Edited by N.P. Cheremisionoff. Gulf Publishing Company Texas USA

3.    Noor Afzal 2023 INDUSTRIAL THERMO-FLUID-DYNAMICS:  A CONTINUOUS SURFACE MOVING THROUGH A FLUID Department of Mechanical Engineering, Aligarh Muslim University Aligarh 202002, India

4.  N. Afzal  2024 - Singular perturbations in method of matched asymptotic expansions:  Turbulent vs Laminar flows  (in preparation)