Szczegóły Szczegóły PDF BIBTEX RIS Tytuł artykułu Second law analysis of flow, heat and mass transfer past a nonlinearly stretching permeable wedge with temperature jump and chemical reaction Tytuł czasopisma Archive of Mechanical Engineering Rocznik 2016 Wolumin vol. 63 Numer No 4 Autorzy Dalir, Nemat Słowa kluczowe wedge flow ; temperature jump ; chemical reaction ; entropy analysis Wydział PAN Nauki Techniczne Zakres 565-587 Wydawca Polish Academy of Sciences, Committee on Machine Building Data 2016.12.17 Typ Artykuły / Articles Identyfikator DOI: 10.1515/meceng-2016-0032 ; ISSN 0004-0738, e-ISSN 2300-1895 Źródło Archive of Mechanical Engineering; 2016; vol. 63; No 4; 565-587 Referencje Pal (2009), Influence of temperature - dependent viscosity and thermal radiation on MHD forced convection over a non - isothermal wedge and, Applied Mathematics Computation, 212, 194, doi.org/10.1016/j.amc.2009.02.013 ; Makinde (2012), : Entropy analysis for MHD boundary layer flow and heat transfer over a flat plate with a convective surface boundary condition of, International Journal Exergy, 10, 142, doi.org/10.1504/IJEX.2012.045862 ; Ganapathirao (2013), Non - uniform slot suction ( injection ) on an unsteady mixed convection flow over a wedge with chemical reaction and heat generation or absorption of Heat and Mass, International Journal Transfer, 67. ; Jalilpour (2014), Heat generation / absorption onMHDstagnation flow of nanofluid towards a porous stretching sheet with prescribed surface heat flux of Molecular, Journal Liquids, 195. ; Rahman (2012), Hydromagnetic slip flow of water based nanofluids past a wedge with convective surface in the presence of heat generation ( or ) absorption of Thermal, International Journal Sciences, 57. ; Chamkha (2003), Thermal radiation effects on MHD forced convection flow adjacent to a non - isothermal wedge in the presence of a heat source or sink and Mass, Heat Transfer, 39, 305. ; Zheng (2013), Flow and radiation heat transfer of a nanofluid over a stretching sheet with velocity slip and temperature jump in porous medium of the Franklin, Journal Institute, 350, 990. ; Pal (2013), Influence of thermophoresis and Soret - Dufour on magneto - hydrodynamic heat and mass transfer over a non - isothermal wedge with thermal radiation and Ohmic dissipation of Magnetism and Magnetic, Journal Materials, 331. ; Noghrehabadi (2013), : Entropy analysis for nanofluid flowover a stretching sheet in the presence of heat generation / absorption and partial slip of and No pp, Journal Mechanical Science Technology Vol, 25, 3. ; Nagendramma (2015), MHD heat and mass transfer flow over a stretching wedge with convective boundary condition and thermophoresis, Procedia Engineering, 127. ; Magherbi (2006), Second law analysis in convective heat and mass transfer, Entropy, 8, 1, doi.org/10.3390/e8010001 ; San (1987), Entropy generation in convective heat transfer and isothermal convective mass transfer of Heat, Journal Transfer, 109, 647, doi.org/10.1115/1.3248137 ; Rahman (2013), Unsteady MHD forced convective heat and mass transfer flow along a wedge with variable electric conductivity and thermophoresis, Procedia Engineering, 56. ; Ibrahim (2013), MHDstagnation point flow and heat transfer due to nanofluid towards a stretching sheet of Heat and Mass, International Journal Transfer, 56, 1, doi.org/10.1016/j.ijheatmasstransfer.2012.08.034 ; Kandasamy (2013), Unsteady Hiemenz flow of Cunanofluid over a porous wedge in the presence of thermal stratification due to solar energy radiation : Lie group transformation of Thermal, International Journal Sciences, 65. ; Kandasamy (2014), The performance evaluation of unsteady MHD non - Darcy nanofluid flow over a porous wedge due to renewable ( solar ) energy, Renewable Energy, 64. ; Muhaimin (2013), Influence of thermophoresis particle deposition and chemical reaction on unsteady non - Darcy MHD mixed convective flow over a porous wedge in the presence of temperature - dependent viscosity of and, Journal Mechanical Science Technology, 27, 1545, doi.org/10.1007/s12206-013-0335-0 ; Dalir (2014), Numerical study of entropy generation for forced convection flow and heat transfer of a Jeffrey fluid over a stretching sheet, Alexandria Engineering Journal, 53, 769, doi.org/10.1016/j.aej.2014.08.005 ; Zheng (2012), MHD flow and heat transfer over a porous shrinking surface with velocity slip and temperature jump and, Mathematical Computer Modelling, 56, 133, doi.org/10.1016/j.mcm.2011.11.080 ; Hedayati (2014), Second - law analysis of fluid flow over an isothermal moving wedge, Alexandria Engineering Journal, 53, 1, doi.org/10.1016/j.aej.2013.11.011 ; Bararnia (2012), Solution of the Falkner - Skan wedge flow by HPM - Pade method in, Advances Engineering Software, 43, 44, doi.org/10.1016/j.advengsoft.2011.08.005 ; Prasad (2013), MHD mixed convection flow over a permeable nonisothermal wedge of King Saud University -, Journal Science, 25, 313. ; Muhaimin (2013), Effect of thermophoresis particle deposition and chemical reaction on unsteady MHD mixed convective flow over a porous wedge in the presence of temperature - dependent viscosity and, Nuclear Engineering Design, 261. ; Dalir (2015), Entropy analysis for magnetohydrodynamic flow and heat transfer of a Jeffrey nanofluid over a stretching sheet, Energy, 79. ; Aiboud (2010), Entropy analysis for viscoelastic magnetohydrodynamic flow over a stretching surface of Non - Linear, International Journal Mechanics, 45, 482, doi.org/10.1016/j.ijnonlinmec.2010.01.007 ; Salleh (2011), Numerical solutions of forced convection boundary layer flow on a horizontal circular cylinder with Newtonian heating of Mathematical, Malaysian Journal Sciences, 5, 161. ; Rahman (2012), Thermophoresis particle deposition on unsteady two - dimensional forced convective heat and mass transfer flow along a wedge with variable viscosity and variable Prandtl number in Heat and Mass, International Communications Transfer, 39, 541, doi.org/10.1016/j.icheatmasstransfer.2012.02.001 ; Alam (2016), Effects of variable fluid properties and thermophoresis on unsteady forced convective boundary layer flow along a permeable stretching / shrinking wedge with variable Parndtl and Schmidt numbers of Mechanical, International Journal Sciences, 105.