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## entrHeat transfer in oscillating hydromagnetic channel flow with arbitrary conducting wallsHeat transfer in oscillating hydromagnetic channel flow with arbitrary conducting walls

#### KHEM CHAND [1] , RAKESH KUMAR [2] , SANJEEV KUMAR [3]

The influence of induced magnetic field and wall conductance on oscillating hydromagnetic flow of viscous incompressible electrically conducting fluid with arbitrary conducting walls in a channel has been analyzed. A uniform magnetic field $H_{0}$ is applied perpendicular to the walls. Solution of velocity field, induced magnetic, and temperature field are obtained. The numerical calculation is carried out and results are illustrated using graphs and tables.
The influence of induced magnetic field and wall conductance on oscillating hydromagnetic flow of viscous incompressible electrically conducting fluid with arbitrary conducting walls in a channel has been analyzed. A uniform magnetic field $H_{0}$ is applied perpendicular to the walls. Solution of velocity field, induced magnetic, and temperature field are obtained. The numerical calculation is carried out and results are illustrated using graphs and tables.
• Additional information is available in the Appendix (on the journal’s website). 4. Conclusions
• The main conclusions of this study are as follows:
Primary Language tr Articles Author: KHEM CHAND Author: RAKESH KUMAR Author: SANJEEV KUMAR Publication Date : February 1, 2014
 Bibtex @ { tbtkengineering145615, journal = {Turkish Journal of Engineering and Environmental Sciences}, issn = {1300-0160}, eissn = {1303-6157}, address = {}, publisher = {TUBITAK}, year = {2014}, volume = {38}, pages = {256 - 265}, doi = {10.3906/muh-1405-19}, title = {Heat transfer in oscillating hydromagnetic channel flow with arbitrary conducting walls}, key = {cite}, author = {CHAND, KHEM and KUMAR, RAKESH and KUMAR, SANJEEV} } APA CHAND, K , KUMAR, R , KUMAR, S . (2014). Heat transfer in oscillating hydromagnetic channel flow with arbitrary conducting walls. Turkish Journal of Engineering and Environmental Sciences , 38 (2) , 256-265 . DOI: 10.3906/muh-1405-19 MLA CHAND, K , KUMAR, R , KUMAR, S . "Heat transfer in oscillating hydromagnetic channel flow with arbitrary conducting walls". Turkish Journal of Engineering and Environmental Sciences 38 (2014 ): 256-265 Chicago CHAND, K , KUMAR, R , KUMAR, S . "Heat transfer in oscillating hydromagnetic channel flow with arbitrary conducting walls". Turkish Journal of Engineering and Environmental Sciences 38 (2014 ): 256-265 RIS TY - JOUR T1 - Heat transfer in oscillating hydromagnetic channel flow with arbitrary conducting walls AU - KHEM CHAND , RAKESH KUMAR , SANJEEV KUMAR Y1 - 2014 PY - 2014 N1 - doi: 10.3906/muh-1405-19 DO - 10.3906/muh-1405-19 T2 - Turkish Journal of Engineering and Environmental Sciences JF - Journal JO - JOR SP - 256 EP - 265 VL - 38 IS - 2 SN - 1300-0160-1303-6157 M3 - doi: 10.3906/muh-1405-19 UR - https://doi.org/10.3906/muh-1405-19 Y2 - 2020 ER - EndNote %0 Turkish Journal of Engineering and Environmental Sciences Heat transfer in oscillating hydromagnetic channel flow with arbitrary conducting walls %A KHEM CHAND , RAKESH KUMAR , SANJEEV KUMAR %T Heat transfer in oscillating hydromagnetic channel flow with arbitrary conducting walls %D 2014 %J Turkish Journal of Engineering and Environmental Sciences %P 1300-0160-1303-6157 %V 38 %N 2 %R doi: 10.3906/muh-1405-19 %U 10.3906/muh-1405-19 ISNAD CHAND, KHEM , KUMAR, RAKESH , KUMAR, SANJEEV . "Heat transfer in oscillating hydromagnetic channel flow with arbitrary conducting walls". Turkish Journal of Engineering and Environmental Sciences 38 / 2 (February 2014): 256-265 . https://doi.org/10.3906/muh-1405-19 AMA CHAND K , KUMAR R , KUMAR S . Heat transfer in oscillating hydromagnetic channel flow with arbitrary conducting walls. Turkish Journal of Engineering and Environmental Sciences. 2014; 38(2): 256-265. Vancouver CHAND K , KUMAR R , KUMAR S . Heat transfer in oscillating hydromagnetic channel flow with arbitrary conducting walls. Turkish Journal of Engineering and Environmental Sciences. 2014; 38(2): 265-256.

Authors of the Article
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[2]
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