Citations (42)
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Zhiqiang Xin, Jing Chen, Shuitao Gu & Ke Li. (2022) Passive enhancement of heat transfer in a microchannel by an adjoint system of cylinder and flexible beam. Numerical Heat Transfer, Part A: Applications 82:12, pages 765-787.
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Jafar Ghazanfarian. (2020) Introducing the Sliding-Wall Concept for Heat Transfer Augmentation: The Case of Flow over Square Cylinder at Incidence. Heat Transfer Engineering 41:8, pages 751-764.
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Md. Reyaz Arif & Nadeem Hasan. (2019) Performance of characteristic numerical boundary conditions for mixed convective flows past a heated square cylinder using a non-Boussinesq approach. Numerical Heat Transfer, Part A: Applications 76:4, pages 254-280.
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Ashok K. Baranwal & Raj P. Chhabra. (2016) Free Convection in Confined Power-Law Fluids From Two Side-by-Side Cylinders in a Square Enclosure. Heat Transfer Engineering 37:18, pages 1521-1537.
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Sa'ed A. Musmar, A. T. Al-Halhouli, Iskander Tlili & S. Büttgenbach. (2016) Performance Analysis of a New Water-based Microcooling System. Experimental Heat Transfer 29:4, pages 485-499.
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Seyyed-Majid Hashemian, Mohammad Rahnama & Mousa Farhadi. (2012) Large Eddy Simulation of Turbulent Heat Transfer in a Channel With a Square Cylinder. Heat Transfer Engineering 33:12, pages 1052-1062.
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AkhileshK. Sahu, R. P. Chhabra & V. Eswaran. (2010) The Effect of a Blockage on Forced Convection Heat Transfer From a Heated Square Cylinder to Power-Law Fluids. Numerical Heat Transfer, Part A: Applications 58:8, pages 641-659.
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Articles from other publishers (35)
Ramnarayan Mondal & Md. Mahbub Alam. (2023) Blockage effect on wakes of various bluff bodies: A review of confined flow. Ocean Engineering 286, pages 115592.
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Zhiqiang Xin, Xiangyu Kong & Jing Chen. (2022) Enhancement of Heat Transfer in a Microchannel via Passive and Active Control of a Jet Issued from the Circular Cylinder. Energies 15:21, pages 8287.
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Young Dal Jeong, Ki Ho Ahn, Min Je Kim & Jae Hwa Lee. (2022) Heat transfer enhancement in a channel flow using two wall-mounted flexible flags with a confined cylinder. International Journal of Heat and Mass Transfer 195, pages 123185.
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Luis S. Gómez-Pérez, Antonio Vega-Galvez & Nelson O. Moraga. (2022) Numerical modeling of conjugate heat and mass transfer with water vaporization in solid materials inside a convective hot air tunnel. International Communications in Heat and Mass Transfer 135, pages 106144.
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F.-J. Granados-Ortiz, M. Garcia-Cardosa & J. Ortega-Casanova. (2022) Effect of wall modifications in a vortex shedding-based mechanical micromixer for heat/mass exchange. European Journal of Mechanics - B/Fluids 92, pages 174-190.
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Md. Reyaz Arif & Nadeem Hasan. (2021) Effect of free-stream inclination and buoyancy on flow past a square cylinder in large-scale heating regime. Physics of Fluids 33:7.
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Md. Reyaz Arif & Nadeem Hasan. (2020) Large-scale heating effects on global parameters for flow past a square cylinder at different cylinder inclinations. International Journal of Heat and Mass Transfer 161, pages 120237.
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Francisco-Javier Granados-Ortiz & Joaquín Ortega-Casanova. (2020) Mechanical Characterisation and Analysis of a Passive Micro Heat Exchanger. Micromachines 11:7, pages 668.
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Zerrin SERT & Çisil TİMURALP. (2020) Art Arda Yerleştirilmiş Eş Sıcaklıktaki İki Silindir Etrafında Akış ve Isı GeçişiNumerical Investigation of Heat Transfer and Fluid Flow Around Two Tandem Cylinders. Bilecik Şeyh Edebali Üniversitesi Fen Bilimleri Dergisi 7:1, pages 342-353.
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Md. Reyaz Arif & Nadeem Hasan. (2019) Vortex shedding suppression in mixed convective flow past a square cylinder subjected to large-scale heating using a non-Boussinesq model. Physics of Fluids 31:2.
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Sonal Bhadauriya, Harshit Kapadia, Amaresh Dalal & Sandip Sarkar. (2018) Effect of channel confinement on wake dynamics and forced convective heat transfer past a blunt headed cylinder. International Journal of Thermal Sciences 124, pages 467-476.
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Long Chen, Shi-Jing Xu & Ming-Jiu Ni. (2018) The Kármán vortex street inversion and heat transfer around a square cylinder at low Reynolds and magnetic interaction numbers. International Journal of Heat and Mass Transfer 117, pages 768-779.
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Prasenjit Dey & Ajoy K R Das. (2017) A numerical study on effect of corner radius and Reynolds number on fluid flow over a square cylinder. Sādhanā 42:7, pages 1155-1165.
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Prasenjit Dey & Ajoy Kumar Das. (2016) Prediction and optimization of unsteady forced convection around a rounded cornered square cylinder in the range of Re. Neural Computing and Applications 28:6, pages 1503-1513.
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P. Rajesh Kanna, M. Sivasubramanian, P. Maheandera Prabu & M. Uthayakumar. (2016) Numerical Simulation of Steady Flow and Forced Convection Heat Transfer from Two Offset Square Cylinders Placed in a Channel. Arabian Journal for Science and Engineering 42:5, pages 1795-1815.
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Prasenjit Dey & Ajoy kumar Das. (2016) Analysis of Fluid Flow and Heat Transfer Characteristics Over a Square Cylinder: Effect of Corner Radius and Nanofluid Volume Fraction. Arabian Journal for Science and Engineering 42:5, pages 1687-1698.
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Prasenjit Dey & Ajoy Kumar Das. (2016) Optimization of Unsteady Forced Convection over a Rounded Corner Edged Square Cylinder Using GA and PSO. Iranian Journal of Science and Technology, Transactions of Mechanical Engineering 41:1, pages 49-60.
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Rajesh Kanna Parthasarathy, Sivasubramanian Mahadevan & Uthayakumar Marimuthu. (2017) Numerical Investigation of Forced Convection Conjugate Heat Transfer from Offset Square Cylinders Placed in a Confined Channel Covered by Solid Wall. Heat Transfer-Asian Research 46:2, pages 91-110.
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Nadeem Hasan & Adnan Saeed. (2017) Effects of heating and free-stream orientation in two-dimensional forced convective flow of air past a square cylinder. International Journal of Thermal Sciences 112, pages 1-30.
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Prasenjit Dey & Ajoy K. Das. (2016) Application of Multivariate Adaptive Regression Spline-Assisted Objective Function on Optimization of Heat Transfer Rate Around a Cylinder. Nuclear Engineering and Technology 48:6, pages 1315-1320.
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Prasenjit Dey, Abhijit Sarkar & Ajoy Kumar Das. (2015) Development of GEP and ANN model to predict the unsteady forced convection over a cylinder. Neural Computing and Applications 27:8, pages 2537-2549.
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Prasenjit Dey & Ajoy Kumar Das. (2016) Heat Transfer Enhancement Around a Cylinder – A CFD Study of Effect of Corner Radius and Prandtl Number. International Journal of Chemical Reactor Engineering 14:2, pages 587-597.
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Prasenjit Dey & Ajoy Kumar Das. (2016) A utilization of GEP (gene expression programming) metamodel and PSO (particle swarm optimization) tool to predict and optimize the forced convection around a cylinder. Energy 95, pages 447-458.
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Paulraj Maheandera Prabu, Mahadevan Sivasubramanian, P. Rajesh Kanna, M. Uthayakumar & K.P. Padmanaban. (2015) Numerical Investigation of Forced Convection Heat Transfer from Offset Square Cylinders Placed in a Three Dimensional Confined Channel. Applied Mechanics and Materials 813-814, pages 729-735.
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M. Korukcu. (2015) 2D Temperature Analysis of Energy and Exergy Characteristics of Laminar Steady Flow across a Square Cylinder under Strong Blockage. Entropy 17:5, pages 3124-3151.
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R.J. Goldstein, W.E. Ibele, S.V. Patankar, T.W. Simon, T.H. Kuehn, P.J. Strykowski, K.K. Tamma, J.V.R. Heberlein, J.H. Davidson, J. Bischof, F.A. Kulacki, U. Kortshagen, S. Garrick, V. Srinivasan, K. Ghosh & R. Mittal. (2010) Heat transfer—A review of 2005 literature. International Journal of Heat and Mass Transfer 53:21-22, pages 4397-4447.
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Akhilesh K. Sahu, R.P. Chhabra & V. Eswaran. (2009) Effects of Reynolds and Prandtl numbers on heat transfer from a square cylinder in the unsteady flow regime. International Journal of Heat and Mass Transfer 52:3-4, pages 839-850.
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