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Bibliographia Humboldtiana Index

Bibliographia Humboldtiana

I. Publications by Humboldt Research Fellows from abroad in 2019

Mechanics, thermodynamics, optics

Bi, Dr. Sifeng

FEMTO-ST, Franche-Comte Electronique Mecanique Thermique et Optique - Sciences et Technologies, France
Field of research: Mechanics
Host: Prof. Dr. Michael Beer Gottfried Wilhelm Leibniz Universität Hannover
  • Sifeng Bi, Matteo Broggi, Michael Beer: The role of the Bhattacharyya distance in stochastic model updating. In: Mechanical Systems and Signal Processing. 117, 2019, p. 437 - 452 [Approximate Bayesian computation; Bayesian updating; Model validation; Stochastic model updating; Uncertainty quantification].

Biswas, Prof. Dr. Gautam

Indian Institute of Technology (IIT) Guwahati, India
Field of research: Fluid mechanics
Host: Prof. Dr. Nimai K. Mitra Ruhr-Universität Bochum
  • Gautam Biswas, Amaresh Dalal, Vijay K Dhir: Fundamentals of Convective Heat Transfer. Boca Raton, FL 33487, USA: CRC Press, 2019, 314 pp. [Forced Convection, External Flows, Internal Flows, Turbulent Flow, Free Convection, Boiling, Film and Transition Boiling, Condensation ].

  • H. Deka, G. Biswas, K. C. Sahu, Y. Kulkarni, A. Dalal: Coalescence dynamics of a compound drop on a deep liquid pool. In: Journal of Fluid Mechanics, (JFM Rapids). 866, 2019, p. R2-1 - R2-11 [Compound drops, Breakup, Coalescence].

  • H. Deka, G. Biswas, S. Chakraborty, and A. Dalal: Coalescence dynamics of unequal sized drops. In: Physics of Fluids. 31, 2019, p. 012105-1 - 012105-17 [Drops, Satellite generation, Surface tension].

  • B. Nath, G. Biswas and A. Dalal: Influence of electric field on deformation of a drop in shear flow. In: Physics of Fluids. 31, 2019, p. 042102-1 - 042102-13 [Electrohydrodynamic flow, Shear flow, Delectric fluids].

  • B. Nath, A. P. Bidkar, V. Kumar, A. Dalal, M. K. Jolly, S. S. Ghosh and G. Biswas: Deciphering Hydrodynamic and Drug-Resistant Behaviors of Metastatic EMT Breast Cancer Cells Moving in a Constricted Microcapillary. In: Journal of Clinical Medicine. 8, 2019, p. 1194-1 - 1194-15 [Metastasis, Constricted microchannel, Breast cancer cells].

  • H. Deka, P.-H. Tsai, G. Biswas, A. Dalal, B. Ray, A.-B. Wang: Dynamics of formation and oscillation of non-spherical drops. In: Chemical Engineering Science. 201, 2019, p. 413 - 423 [Drop, Pinch-off, Surface tension, Oscillation].

  • M. S. Agrawal, H. S. Gaikwad, P. K. Mondal and G. Biswas: Analysis and Experiments on the Spreading Dynamics of a Viscoelastic Drop. In: Applied Mathematical Modelling. 75, 2019, p. 201 - 209 [Drop, Spreading, Phan–Thien–Tannehan model ].

Kobelev, Prof. Dr. Vladimir

Universität Siegen, Germany
Field of research: Mechanics
Host: Prof. Dr. Hans A. Eschenauer Universität Siegen
  • Vladimir Kobelev: Design and Analysis of Composite Structures for Automotive Applications. Chassis and Drivetrain. Chichester: John Wiley & Sons, 2019, 392 pp. [principles for the design optimization composite materials].

  • Vladimir Kobelev: Approximate static aeroelastic analysis of composite wings. In: Multidiscipline Modeling in Materials and Structures . 18, 2019, p. 2 - 45.

  • Vladimir Kobelev: Non-Leibniz Hamiltonian and Lagrangian formalisms for certain class of dissipative systems. https://doi.org/10.1002/cmm4.1035. In: Computational and Mathematical Methods, ISSN:2577-7408. 1, 2019, [Blue and red shift Dissipative hamiltonian system Generalized Leibniz rule].

  • Vladimir Kobelev: Elastic–plastic deformation and residual stresses in helical springs. In: Multidiscipline Modeling in Materials and Structures. 2019, [DOI: 10.1108/MMMS-04-2019-0085 The purpose of this paper is to develop the method for the calculation of residual stress and enduring deformation of helical springs.].

  • Vladimir Kobelev: Delayed presetting of helical springs. In: Mechanics Based Design of Structures and Machines https://doi.org/10.1080/15397734.2019.1669457. 2019, [Creep, helical springs, plastic deformation, presetting].

  • Vladimir Kobelev: Non‐Leibniz Hamiltonian and Lagrangian formalisms for certain class of dissipative systems. In: Computational and Mathematical Methods, https://onlinelibrary.wiley.com/doi/full/10.1002/cmm4.1035. 1, 2019, [blue and red shift; dissipative hamiltonian system; generalized Leibniz rule].

Mahulikar, Prof. Dr. Shripad

Indian Institute of Technology (IIT) Bombay, India
Field of research: Technical thermodynamics
Host: Prof. Dr. Heinz Herwig Technische Universität Hamburg TUHH
  • A.D. Tharkar & Shripad P. Mahulikar: Size effect on thermal characteristic of tubular heat exchanger at miniscale & microscale. In: ASME Journal of Thermal Science & Engineering Applications. 11, 2019, p. 021001_1 - 021001_10 [mean temperature difference; micro heat exchanger; micro-scale effect].

  • Pallavi R. & Shripad.P. Mahulikar: Geometry-based entropy generation minimization in laminar internal convective micro flow. In: Journal of Non-Equilibrium Thermodynamics. 44, 2019, p. 81 - 90 [Brinkman number; cooling capacity; entropy generation minimization, micro-convective flow].

  • Tharkar A.D. & Mahulikar Shripad P. : The mean temperature difference method for micro heat exchanger analysis considering property variation. In: Heat Transfer Engineering. 40, 2019, p. 605 - 615 [mean temperature difference method, micro-heat exchanger, volumetric heat transfer coefficient].

  • N. Baranwal, Shripad P. Mahulikar: Review of IR signature suppression systems using optical blocking method. In: Defence Technology. 15, 2019, p. 432 - 439 [engine back pressure penalty, IR-signature, IRST, line of sight, low observables, optical blocking, stealth technology].

  • Mahulikar Shripad P., Sengupta T.K., Sharma N., Rastogi P.: Thermodynamic merger of fluctuation theorem and principle of least action: Case of Rayleigh-Taylor instability. In: Journal of Non-Equilibrium Thermodynamics. 44, 2019, p. 363 - 371 [dissipative systems; entropy fluctuations; maximum entropy principle; extremal principles; Fluctuation Theorem; least-action principle].

Matvienko, Prof. Dr. Oleg V.

Tomsk State University of Architecture and Building, Russian Federation
Field of research: Fluid dynamics, aeroelasticity
Host: Dr. J. Dück Friedrich-Alexander-Universität Erlangen-Nürnberg
  • O. V. Matvienko, V. P. Bazuev, A. E. Aseeva : Mathematical Modeling of Swirling Herschel–Bulkley Pseudoplastic Fluid Flow in a Cylindrical Channel. In: Journal of Engineering Physics and Thermophysics . 92, 2019, p. 208 - 218 [rheology, pseudoplastic media, viscoplastic fluid, Herschel–Bulkley fluid, swirling flows, computational hydrodynamics ].

  • O. V. Matvienko, O. I. Daneyko, T. A. Kovalevskaya : Elastoplastic Deformation of Dispersion-Hardened Aluminum Tube Under External and Internal Pressure. In: Russian Physics Journal volume. 62, 2019, p. 720 - 728 [dispersion-hardened materials, aluminum alloys, nanoparticles, plastic strain, mathematical model, strain hardening].

  • O. V. Matvienko ,V. P. Bazue, vA. E. Aseeva: Mathematical Simulation of the Swirling Flow of a Dilatant Herschel–Bulkley Fluid in a Cylindrical Channel. In: Journal of Engineering Physics and Thermophysics. 92, 2019, p. 1593 - 1602 [rheology, dilatant fluid, viscoplastic fluid, Herschel–Bulkley fluid, swirling flow, computational hydrodynamics ].

Mehmood, Dr. Ahmer

International Islamic University, Pakistan
Field of research: Fluid dynamics, aeroelasticity
Host: Prof. Dr. Bernhard Weigand Universität Stuttgart
  • Ahmer Mehmood, Muhammad Usman, Bernhard Weigand: Heat transfer enhancement by sinusoidal-shaped disk rotating in a forced flow. In: Thermal Science. Online, 2019, [Sinusoidal rotating disk, boundary-layer flow, forced flow, heat transfer enhancement].

  • Ahmer Mehmood, Muhammad Usman, Bernhard Weigand: Heat and mass transfer phenomena due to a rotating non-isothermal wavy disk. In: International Journal of Heat and Mass Transfer. 129, 2019, p. 96 - 102 [Wavy rotating disk Boundary-layer flow Heat and mass transfer Non-isothermal disk].

Yin, Dr.-Ing. Yongkai

Shandong University, People's Republic of China
Field of research: Optics, technical and applied optics
Host: Prof. Dr. Eduard Reithmeier Gottfried Wilhelm Leibniz Universität Hannover
  • Yongkai Yin, Bettina Altmann, Christian Pape, Eduard Reithmeier: Machine-vision-guided rotation axis alignment for an optomechanical derotator. In: Optics and Lasers in Engineering. 121, 2019, p. 456 - 463 [Image derotator, Rotation axis estimation, Binocular stereo vision, Calibration, 3D measurement].