Department : Mechanical Engineering
College : Engineering
Field : Ph.D - mechanical engineering
Academic : Associate Professor

Personal Data

First Name : Amin Last Name : Moosaie
Birth Date :
Birth Place :
Academic : Associate Professor Contract Type :
College EMail : moosaie@yu.ac.ir
EMail :
Research Interest : Computational Mechanics, Mechanics and Thermodynamics of Continua, Turbulence Physics, Turbulence Simulation (DNS/LES), Heat and Mass Transfer in Turbulent Flows, Parallel Processing, Advanced Mathematics, Polymer Physics and Polymeric Flows, Flow and Heat Transfer in Porous Media
Educational Background
Degree :Bachelor's degree Field : Mechanical Engineering
College : Iran University of Science and Technology Year : 2006
Thesis : A Treatise on Continuum Mechanical Modelling of Turbulence
Degree :Masters degree Field : Mechanical Engineering
College : Technische Universität München, Germany Year : 2008
Thesis : Large-Eddy Simulation of Hemisphere and Hemisphere-Cylinder in Turbulent Boundary Layer
Degree :Ph.D Field : Mechanical Engineering
College : Technische Universität München, Germany Year : 2011
Thesis : Direct Numerical Simulation of Turbulent Drag Reduction by Rigid Fiber Additives
Past Courses
Course Name: Visiting scholar- Department of Polymer Physics
Course Provider : ETH-Zurich
Course Location : Zurich, Switzerland Course During : 3 months
Course Name: Summer school, Computational Flow-Structure Interactions in Aerospace Systems
Course Provider : CISM
Course Location : Udine, Italy Course During : 1 month
Course Name: Post-Doc, Aerothermodynamics of atmospheric reentry
Course Provider : Lehrstuhl für Aerodynamik, Institut für Luft und Raumfahrttechnik
Course Location : Technische Universität München, Germany Course During : 1 year
Course Name: Visiting scholar
Course Provider :
Course Location : Technische Universität München, Germany Course During : 3 months
Taught Courses
Course Name : مكانيك سيالات پيشرفته
Course Location : Course Date :
Course Name : برنامه نويسي چند هسته اي
Course Location : Course Date :
Course Name : ترموديناميك 1
Course Location : Course Date :
Course Name : زبان تخصصي
Course Location : Course Date :
Course Name : انتقال حرارت 1
Course Location : Course Date :
Course Name : روش اجزاء محدود(2)
Course Location : Course Date :
Course Name : مقدمه اي بر سيالات محاسباتي
Course Location : Course Date :
Course Name : محاسبات عددي
Course Location : Course Date :
Course Name : مقاومت مصالح 2
Course Location : Course Date :
Course Name : مكانيك محيط پيوسته 1
Course Location : Course Date :
Journal Publications

1. A. Moosaie, Gh. Atefi, Cosserat modeling of turbulent plane-Couette and pressure-driven channel flows, ASME Journal of Fluids Engineering, 2007, 129, 806-810.

2. A. Moosaie, Gh. Atefi, A Cosserat continuum mechanical approach to steady flow of blood through artery, Journal of Dispersion Science and Technology, 2007, 28, 765-768.

3. A. Moosaie, Gh. Atefi, Analysis of concentrated suspension flow by utilizing a Cosserat-type continuum theory, Journal of Dispersion Science and Technology, 2007, 28, 901-906.

4. A. Moosaie, Non-Fourier heat conduction in a finite medium subjected to arbitrary periodic surface disturbance, International Communications in Heat and Mass Transfer, 2007, 34, 996-1002.

5. A. Moosaie, Non-Fourier heat conduction in a finite medium with arbitrary source term and initial conditions, Forschung im Ingenieurwesen, 2007, 71, 163-169.

6. A. Moosaie, Non-Fourier heat conduction in a finite medium with insulated boundaries and arbitrary initial conditions, International Communications in Heat and Mass Transfer, 2008, 35, 103-111.

7. A. Moosaie, Non-Fourier heat conduction in a finite medium subjected to arbitrary non- periodic surface disturbance, International Communications in Heat and Mass Transfer, 2008, 35, 376-383.

8. A. Moosaie, Gh. Atefi, A.A. Fardad, Two-dimensional non-Fourier heat conduction with arbitrary initial and periodic boundary conditions, Forschung im Ingenieurwesen, 2008, 72, 67-76.

9. A. Moosaie, Gh. Atefi, Slow motion of a rotating circular cylinder through a micropolar fluid, Archives of Mechanics, 2008, 60, 237-258.

10. N.M. Nouri, A. Sarreshtedari, E. Maghsoudi, A. Moosaie, An experimental study on the influence of fluid flow pattern on microbubble generation, Forschung im Ingenieurwesen, 2008, 72, 233-240.

11. A. Moosaie, Gh. Atefi, Microstretch continuum mechanical description of concentrated suspension flow, Journal of Dispersion Science and Technology, 2009, 30, 124-130.

12. A. Moosaie, Axisymmetric non-Fourier temperature field in a hollow sphere, Archive of Applied Mechanics, 2009, 79, 679-694.

13. A. Moosaie, Gh. Atefi, A comparative study on various time integration schemes for heat wave simulation, Computational Mechanics, 2009, 43, 641-649.

14. R. Shirmohammadi, A. Moosaie, Non-Fourier heat conduction in a hollow sphere with periodic surface heat flux, International Communications in Heat and Mass Transfer, 2009, 36, 827-833.

15. A. Moosaie, A. Le Duc, M. Manhart, Numerical simulation of flow-induced fiber orientation using normalization of second moment, Journal of Non-Newtonian Fluid Mechanics, 2010, 165, 551-554.

16. A. Moosaie, A. Le Duc, M. Manhart, A comparative study on the performanceof various moment closures in flows of fiber suspensions, Proceedings of Applied Mathematics andMechanics, 2010, 10, 447-448.

17. A. Moosaie, M. Manhart, An algebraic closure for the DNS of fiber-induced turbulent drag reduction in a channel flow, Journal of Non-Newtonian Fluid Mechanics, 2011, 166, 1190-1197.

18. A. Moosaie, A. Le Duc, M. Manhart, A priori analysis of a closure model using reconstruction of orientation distribution function in flow of fiber suspensions, Computational Mechanics, 2011, 48, 451-459.

19. E. Zharovsky, A. Moosaie, A. Le Duc, M. Manhart, B. Simeon, On the numerical solution of a convection-diffusion equation for particle orientation dynamics on geodesic grids, Applied Numerical Mathematics, 2012, 62, 1554-1566.

20. A. Moosaie, Steady symmetrical temperature field in a hollow spherical particle with temperaturedependent thermal conductivity, Archives of Mechanics, 2012, 64, 405-422.

21. A. Moosaie, M. Manhart, A direct numerical simulation method for flow of Brownian fiber suspensions in complex geometries, Journal of Dispersion Science and Technology, 2013, 34, 427-440.

22. A. Moosaie, Effect of rotary inertia on the orientational behavior of dilute Brownian and non-Brownian fiber suspensions, Journal of Dispersion Science and Technology, 2013, 34, 870-879.

23. A. Moosaie, Entropy structure within a Cosserat fluid involving chemical reactions, heat and mass transfer, Journal of Dispersion Science and Technology, 2013, 34, 818-821.

24. A. Moosaie, M. Manhart, Direct Monte-Carlo simulation of turbulent drag reduction by rigid fibers in a channel flow, Acta Mechanica, 2013, 224, 2385-2413, invited paper.

.25 امين موسائي، شبيه سازي مستقيم عددي کاهش درگ آشفته در يک کانال افقي توسط ميکروفيبرها در رينولدز بالا با استفاده از يک مدل بستگي جبري، مجله علمي-پژوهشي مهندسي مکانيک مدرس، دانشگاه تربيت مدرس، دوره 13،شماره ،3 ص ص ،127-117 1392

.26 امين موسائي، ايجاد شرايط اوليه براي شبيه سازي سوسپانسيون پليمري به کمک تابع توزيع احتمال تعادلي، مجله علمي-
پژوهشي مهندسي مکانيک مدرس، دانشگاه تربيت مدرس، دوره 13،شماره ،10 ص ص ،84-93 1392

.27 امين موسائي، مطالعه ساختمانهاي گردابهاي در جريان آشفته کانال حاوي ميکروفيبر با استفاده از شبيه سازي مستقيم عددي، مجله علمي-پژوهشي مهندسي مکانيک مدرس، دانشگاه تربيت مدرس، دوره 14،شماره ،3 ص ص ،85-93 1393

.28 امين موسائي، توسعه روش ميدانهاي تصادفي براي شبيه سازي مستقيم عددي کاهش درگ با ميکروفيبر در جريان کانال آشفته، مجله علمي-پژوهشي مهندسي مکانيک مدرس، دانشگاه تربيت مدرس، دوره 14،شماره ،4 ص ص ،75-82 1393

.29 امين موسائي، بررسي فرآيند توزيع مجدد انرژي جنبشي آشفته در جريان کانال با استفاده از شبيه سازي مستقيم عددي، مجله علمي- پژوهشي مکانيک سياالت و آيروديناميک، دانشگاه امام حسين )ع(، جلد ،2 شماره ،4 ص ص ،56-47 1392

.30 امين موسائي، کوروش گودرزي، جليل عباسي، يک مدل جبري جديد بر مبناي تانسور همبستگي سرعت براي شبيه سازي مستقيم عددي کاهش درگ آشفته به کمک افزودنيهاي ميکروفيبر، مجله علمي-پژوهشي مهندسي مکانيک مدرس، دانشگاه تربيت مدرس، دوره ،14 شماره ،16 ص ص ،230-223 1393

.31 بهروز رحماني، امين موسائي، احمد منصوريان طبائي، کنترل گستردهي معادلهي برگر غيرخطي، مجله علمي-پژوهشي
مهندسي مکانيک مدرس، دانشگاه تربيت مدرس، دوره ،15 شماره ،4 ص ص ،220-214 1394

.32 هادي ارجمند، محمد حسين بازيار، عليرضا ياسري، امين موسائي، حل معادله دو بعدي پخش-واکنش ماندگار با استفاده از روش المان محدود با مرز مقياس شده، مجله علمي-پژوهشي مهندسي مکانيک مدرس، دانشگاه تربيت مدرس،دوره ،15 شماره ،6 ص ص ،208-197 1394

.33 شجاعت شفيعي، بهروز رحماني، امين موسائي، حامد پناهي کالوس، کنترل بازخوردي توزيع دما در يک ورق ضخيم مستطيلي
مدرج تابعي، مجله علمي-پژوهشي مهندسي مکانيک مدرس، دانشگاه تربيت مدرس، دوره ،17 شماره ،8 ص ص ،104-97
1396

.34 کورش گودرزي، امين موسائي، معصومه قرائتي، مطالعه مسأله انتقال حرارت تماسي در دريچه دود موتورهاي احتراق داخلي،
فصلنامه علمي-پژوهشي تحقيقات موتور، شماره ،34 ص ص ،60-51 1393

.35 کورش گودرزي، امين موسائي، مريم بهرامي، تخمين پروفيل رسوب در لولههاي ديگبخار با استفاده از روش انتقال حرارت
معکوس، جريان آرام، نشريه مهندسي مکانيک ايران، دوره ،21 شماره ،4 ص ص ،106-83 1398

.36 امين موسائي، زهرا ضرغامي دهاقاني، شبيه سازي مستقيم عددي جريان آشفته توسعه يافته در کانال با شرط مرزي لغزش روي يکي از ديوارها، نشريه علمي-پژوهشي مهندسي دريا، شماره ،23 ص ص ،23-15 1395

.37 امين موسائي، حامد پناهي کالوس، حل دقيق هدايت حرارت غير خطي دائم در پوستههاي جدار ضخيم استوانهاي و کروي مدرج تابعي نمايي و خواص مواد تابع دما، نشريه علمي-پژوهشي مهندسي دريا، دوره ،3 شماره ،3 ص ص ،306-301 1395

.38 زهره علينژاد، امين موسائي، غالمرضا زنده بودي، شبيه سازي مستقيم عددي جريان آشفتهي حاوي ذرات با شرط مرزي چسبش- لغزش مخلوط روي ذرات، نشريه علمي-پژوهشي مهندسي مکانيک شريف، دوره ،33 شماره ،3 ص ص ،12-3 1396

.39 فاطمه اقليمي، کورش گودرزي، غالمرضا زنده بودي، امين موسائي، بررسي عددي تأثير درون لولهاي دوار دو پرهاي بر روي
عملکرد آبگرمکن گازي فوري، نشريه علمي-پژوهشي مهندسي مکانيک شريف، دوره ،34 شماره ،3 ص ص ،69-63 1397

40. K. Goudarzi, A. Moosaei, M. Gharaati, Applying artificial neural networks (ANN) to the estimation of thermal contact conductance in the exhaust valve of internal combustion engine, Applied Thermal Engineering, 2015, 87, 688-697.

41. A. Moosaie, Axisymmetric steady temperature field in FGM cylindrical shells with temperature-dependent heat conductivity and arbitrary linear boundary conditions, Archives of Mechanics, 2015, 67, 233-251.

42. A. Moosaie, M. Manhart, On the structure of vorticity and near-wall partial enstrophy in fibrous drag-reduced turbulent channel flow, Journal of Non-Newtonian Fluid Mechanics, 2015, 223, 249-256.

43. A. Moosaie, A nonlinear analysis of thermal stresses in a functionally graded hollow cylinder with temperature-dependent material properties, European Journal of Mechanics A / Solids, 2016, 55, 212-220

44. A. Moosaie, N. Shekouhi, N. M. Nouri, M. Manhart, An algebraic closure model for the DNS of turbulent drag reduction by Brownian microfiber additives in a channel flow, Journal of Non-Newtonian Fluid Mechanics, 2015, 226, 60-66.

45. A. Moosaie, DNS of turbulent drag reduction in a pressure-driven rod-roughened channel flow by microfiber additives, Journal of Non-Newtonian Fluid Mechanics, 2016, 232, 1-10.

46. A. Moosaie, M. Manhart, On the pressure-strain correlation in fibrous drag-reduced turbulent channel flow, Physics of Fluids, 2016, 28, 025101.

47. M. Dehghan, M. Zamani Nejad, A. Moosaie, Thermo-electro-elastic analysis of functionally graded piezoelectric shells of revolution: Governing equations and solutions for some simple cases, International Journal of Engineering Science, 2016, 104, 34-61

48. A. Moosaie, On the orientation dynamics and viscoelasticity of Brownian rigid disklike particles suspended in a shear flow, Scientia Iranica, 2017, 24, 1027-1171.

49. B. Rahmani, A. Moosaie, Distributed Control of Two-Dimensional Navier–Stokes Equations in Fourier Spectral Simulations, ASME Journal of Dynamic Systems, Measurement, and Control, 2017, 139, 081013.

50. A. Moosaie, H. Panahi-Kalus, Thermal stresses in an incompressible FGM spherical shell with temperature-dependent material properties, Thin-Walled Structures, 2017, 120, 215-224.

51. A. Moosaie, Z. Zarghami-Dehaghani, Z. Alinejad, Rheology of a dilute suspension of Brownian thin disklike particles in a turbulent channel flow, Journal of Non-Newtonian Fluid Mechanics, 2020, 286, 104414.

52. H. Panahi-Kalus, M. Ahmadinejad, A. Moosaie, The effect of temperature-dependent viscosity and thermal conductivity on velocity and temperature field: an analytical solution using the perturbation technique, Archives of Mechanics, 2020, 72, 555-576.

53. A. Moosaie, DNS of microfiber-induced drag reduction using a two-way coupled Lagrangian moment approximation method, Iranian Journal of Science and Technology, Transactions of Mechanical Engineering, 2021, 45, 245-255.

54. A. Moosaie, H. Panahi-Kalus, DNS of turbulent flow heat transfer with velocity slip and temperature jump, AIAA Journal of Thermophysics and Heat Transfer, 2021, 35, 3.

55. M. Dehghan, A. Moosaie, M. Zamani Nejad, Hybrid integral transform and p-version FEM for thermo-mechanical analysis of a functionally graded piezoelectric hollow cylinder subjected to asymmetric loads, Scientia Iranica, 2021, 24, 2229-2249.

56. Sh. Shafie, B. Rahmani, A. Moosaie, H. Panahi-Kalus, Distributed control of nonlinear conductivity heat transfer equation in a thick functionally graded plate, International Communications in Heat and Mass Transfer, 2022, 130, 105786.

57. M. Dehghan, A. Moosaie, M. Zamani Nejad, An approximate thermos-mechanical solution of a functionally graded cylinder using hybrid integral transform and finite element method, Journal of Solid Mechanics, 2022, 14, 17-36.

58. A. Moosaie, Correction to: G. Atefi, Quer angestroemter drehender Zylinder bei kleinen Reynoldszahlen und bei Schlupf, Arch. Appl. Mech. 61, 488-502 (1991), Archive of Applied Mechanics, 2022, 92, 3065-3066.

59. E. Motamedi, B. Rahmani, A. Moosaie, Position control of charged spherical particles suspended in laminar flow within a channel, Computational Particle Mechanics, 2023, 10, 853-864.

60. H. Panahi-Kalus, A. Moosaie, M. Ahmadinejad, A two-dimensional thermoelastic analysis of a cylindrical shell made of FGM with temperature-dependent physical properties, Advances in Applied Mathematics and Mechanics, 2023, 15, 623-650.