Publisher of Iranian Journals and Conference Proceedings

Please waite ..
Publisher of Iranian Journals and Conference Proceedings
Login |Register |Help |عضویت کتابخانه ها
Paper
Title

Thermal Analysis of Radiating Film Flow of Sodium Alginate ‎using MWCNT Nanoparticles ‎

Thermal Analysis of Radiating Film Flow of Sodium Alginate ‎using MWCNT Nanoparticles ‎
Year: 1401
COI: JR_JACM-8-0_017
Language: EnglishView: 54
This Paper With 13 Page And PDF Format Ready To Download

Buy and Download

متن کامل (فول تکست) این مقاله منتشر نشده و یا در سایت موجود نیست و امکان خرید آن فراهم نمی باشد.

Authors

Akinbowale T. Akinshilo - Department of Mechanical Engineering, University of Lagos, Akoka-Yaba, Nigeria
Amin Davodi - Department of Civil and Mechanical Engineering, Babol University of Technology, Babol, Iran
Adeleke Ilegbusi - Department of Mechanical Engineering, Yaba College of Technology, Yaba, Nigeria‎
Gbeminiyi Sobamowo - Department of Mechanical Engineering, University of Lagos, Akoka-Yaba, Nigeria

Abstract:

Heat transfer of fluids plays an important role in process flows, as this has significant impacts in process configurations, energy pricing and utilization. Therefore, this paper, the heat and mass transfer of a radiating non-Newtonian Sodium alginate transported through parallel squeezing plates is examined. The radiating-squeezing fluid flows through the parallel plates arranged vertically against each other with multi walled carbon nanotube (MWCNT) particles. Transport mechanics and thermal conditions of the Sodium alginate is studied using systems of coupled nonlinear models. This higher order, governing ordinary differential models are used to analyze the thermal and mass transfer of the nanofluid using the adomian decomposition method. Results obtained from analytical study displayed graphically are used to investigate effect of thermal radiation on film flow of MWCNT nanoparticles on the Sodium alginate. As revealed from result, concentration increase of MWCNT nanoparticles increases thermal profile significantly. This can be physically explained owing to increasing concentration, increases thickness of thermal boundary due to conductivity enhancement of fluid. Improved thermal diffusivity drops thermal gradient which reduces heat transfer. Whereas, radiation effect on fluid transport shows decrease in heat transfer as thermal conductivity becomes lower than temperature gradient of the flow. Obtained analysis when compared against other methods of solution (numerical and approximate analytical) proves satisfactory. Therefore, the results obtained from the work provides a good basis for the application and improvement of the Sodium alginate in medical, pharmaceutical and manufacturing industries among other practical application.

Keywords:

Paper COI Code

This Paper COI Code is JR_JACM-8-0_017. Also You can use the following address to link to this article. This link is permanent and is used as an article registration confirmation in the Civilica reference:

https://civilica.com/doc/1324059/

How to Cite to This Paper:

If you want to refer to this Paper in your research work, you can simply use the following phrase in the resources section:
Akinshilo, Akinbowale T. and Davodi, Amin and Ilegbusi, Adeleke and Sobamowo, Gbeminiyi,1401,Thermal Analysis of Radiating Film Flow of Sodium Alginate ‎using MWCNT Nanoparticles ‎,https://civilica.com/doc/1324059

مراجع و منابع این Paper:

لیست زیر مراجع و منابع استفاده شده در این Paper را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود Paper لینک شده اند :

  • Hosseinzadeh, Kh., Alizadeh, M., Ganji, D.D., Hydrothermal analysis on MHD ...
  • Ziabakhsh, Z., Domairry, G., Analytic solution of natural convection flow ...
  • Mustafa, M., Hayat, T., Obadiat, S., On heat and mass ...
  • Jaiyesimi, L.O., Sobamowo, M.G., Akinshilo, A.T., Waheed, M.A., Chebychev spectral ...
  • Adesanya, S.O., Falade, J.A., Thermodynamic analysis of hydro magnetic third ...
  • Hoshyar, H.A., Ganji, D.D., Borranc, A.R., Falahatid, M., Flow behavior ...
  • Ijaz, N., Zeeshan, A., Bhatti, M.M., Ellahi, R., Analytical study ...
  • Kargar, A., Akbarzade, M., Analytical solution of Natural convection Flow ...
  • Turkyilmazoglu,M., Condensation of lamina film flow over a curved vertical ...
  • Hatami, M. Ganji, D.D., Natural convection of sodium alginate (SA) ...
  • Hatami, M., Hatami, J., Jafayar, M., Domairry, G., Differential transformation ...
  • Ahmadi, A.R., Zahmatkesh, A., Hatami, M., Ganji, D.D., Comprehensive analysis ...
  • Ghadhikolaei, S.S., Hosseinzadeh, K, Ganji, D.D., Analysis of unsteady MHD ...
  • Sheikholeslami, M., Rashidi, M.M., Alsaad, D.M., Rokni, H.B., Steady nanofluid ...
  • Pourmehran, O., Rahimi-Gorji, M., Gorji-Bandpy, M., Ganji, D.D., Analytical investigation ...
  • Ghadikholaei, S.S., Hosseinzadeh, K., Yassari,M., Sadeghi, H., Ganji, D.D., Boundary ...
  • Ghadikholaei, S.S., Yassari, M., Sadeghi, H.,Hosseinzadeh, K, Ganji, D.D., Investigation ...
  • Domairry, G., Hatami, M., Squeezing Cu-water nanofluid flow analysis between ...
  • Afify, A.A., Abdel-Azizi, M., Lie group analysis of flow and ...
  • Sheikholeslami, M., Abelman, S., Two phase simulation of nanofluid flow ...
  • Madaki, A.G., Roslan, R., Mohamed, M., Kamardan, M.G., Analytical solutions ...
  • Akinshilo, A.T., Olofinkua, J.O., Olaye, O., Flow and Heat Transfer ...
  • Menni, Y., Azzi, A., Chanmkha, A.J., A review of solar ...
  • Menni, Y., Azzi, Chamkha, A.J., Harmand, S., Analysis of fluid ...
  • Menni, Y., Azzi, Chamkha, A.J., The solar air channels: comparative ...
  • Menni, Y., Chamkha, A.J., Azzi, Y., Fluid flow and heat ...
  • Menni, Y., Chamkha, A.J., Ahmadi, M.H., Hydrodynamic behavior in solar ...
  • Chamkha, A.J., Menni, Y., Ameur, H., Thermal aerodynamic performance measurement ...
  • Sakhri, N., Menni, Y., Chamkha, A.J., Heating capacity of an ...
  • Kaseian, A., Daneshazarian, R., Mahian, O., Kolsi, A.J., Chamkha, A.J., ...
  • Menni, Y., Chamkha, A.J., Ahmed, A., Nanofluid flow in complex ...
  • Menni, Y., Chamkha, A.J., Lorenzini, G., Noueddine, K., Ameur, H., ...
  • Menni, Y., Chamkha, A.J., Massarotti, N., Ameur, H., Kaid, N., ...
  • Menni, Y., Zidani, A.J., Benyoucef, C., Heat and nanofluid transfer ...
  • Menni, Y., Chamkha, A.J., Ahmed, A., Numerical analysis of heat ...
  • Choi, S.U.S., Engineering thermal conductivity of fluids with nanoparticles, Development ...
  • Alizadeh, M., Dogonchi, A.S., Ganji, D.D., Micropolar nanofluid flow and ...
  • Dogonchi, A.S., Ganji, D.D., Impact of Cattaneo-Christov heat flux on ...
  • Akinshilo, A.T., Investigation of nanofluid conveying porous medium through non-parallel ...
  • Hayat, T., Nasir, T., Khan, M.I, Alsaedi, A., Non-Darcy flow ...
  • Yan, S.R., Kalbasi, R., Nguyen, Q., Karimipour, A., Sensitivity of ...
  • Tian, Z, Rostamis, S., Taherialekouhi, R., Karimipour, A., Moradikazerouni, A., ...
  • Sharifzadeh, B., Kalbasi, R., Jahangiri, M., Toghraie, D., Karimipour, A., ...
  • Farzinpour, M., Toghraie, D., Mehmandoust, B., Aghadavoudi, F., Karimipour, A., ...
  • Yan, S.R., Kalbasi, R., Nguyen, Q., Karimpour, A., Rheological behavior ...
  • Yan, S.R., Shirani, A., Zarringhalam, M., Nguyen, Q., Karimipour, A., ...
  • Filobello-Niño, U., Vazquez-Leal, H., Boubaker, K., Khan, Y., Perez-Sesma, A., ...
  • Bhatti, M.M., Rashidi, M.M., Pop, I., Entropy generation with nonlinear ...
  • Akinshilo, A.T., Olaye, O., On the analysis of the Erying ...
  • Hassan, W., Sajjad, H., Humaira, S., Shanila, K., MHD forced ...
  • Bank, R.N., Dash, G.C., Chemical reaction effect on peristaltic motion ...
  • Mekonnen, S.A., Negussie, T.D., Hall effect and temperature distribution on ...
  • Mekheir, K.S., Mohammed, S.M., Interaction of pulsatile flow on peristaltic ...
  • Pour, M., Nassab, S., Numerical investigation of forced laminar convection ...
  • Hatami, M., Jing, D., Differential transformation method for Newtonian and ...
  • Trkyilmazoglu, M., Mixed convection of magnetohydramic micropolar due to a ...
  • Akinshilo, A.T., Flow and heat transfer of nanofluid with injection ...
  • Chamkha, A.J., Molana, M., Rahnama, A., Ghadami, F., On the ...
  • Chamkha, A.J., Solar radiation assisted natural convection in uniform porous ...
  • Damseh, R.A., Al-Odat, M.Q., Chamkha, A.J., , Shannak, B.A., Combined ...
  • Chamkha, A.J., Takhari, H.S., Soundalgekar, V.M., Radiation effects on free ...
  • Umvathi, J.C., Chamkha, A.J., Mateen, A., Al-Mudhaf, A., Unsteady two-fluid ...
  • Chamkha, A.J., Rashad, A.M., Mansour, M.A., Armaghani, T., Ghalambaz, M., ...
  • Rashad, A., Armaghani, T., Chamkha, A.J., Mansour, M.A., Entropy generation ...
  • Parvin, S., Nasrin, R., Alim, A., Hossain, N.K., Chamkha, A.J., ...
  • Chamkha, A.J., Flow of two-immiscible fluids in porous and nonporous ...
  • Khanafer, K.M., Chamkha, A.J., Hydromagnetic natural convection from an inclined ...
  • Chamkha, A., Ismael, M., Kasaeipoor, A., Armaghani, T., Entropy generation ...
  • Chamkha, A.J., Boostanidezfuli, A., Izadpanahi, E., Ghalambaz, M., Phase-change heat ...
  • Takhar, H.S., Chamkha, A.J., Nath, G., Unsteady three-dimensional MHD-boundary-layer flow ...
  • Chamkha, A.J., Khalid, A.A., Hydromagnetic Natural Convection from an Isothermal ...
  • Chamkha, A.J., Khaled, A.A., Hydromagnetic combined heat and mass transfer ...
  • Zakari, A., Ghalambaz, M., Chamkha, A.J., Rossi, D.D., Theoretical analysis ...
  • Chamkha, A.J., Al-Mudhaf, A., Unsteady heat and mass transfer from ...
  • Chamkha, A.J., Issa, C., Effect of Heat Generation or Absorption ...
  • Ghalambaz, M., Behseresht, A., Behseresht, J., Chamkha, A.J., Effects of ...
  • Subba, R., Gorla, R., Chamkha, A.J., Natural convective boundary layer ...
  • Chamkha, A.J., Abbasbandy, S., Rashad, A.M., Vajravelu, K., Radiation effects ...
  • Xiao, A.W., Lee, H.J., Capone, I., Robertson, A., Wi T., ...
  • Lewis, D.J., Zomberg, L.Z., Carter, D.J.D., Macfarlane, R.J., Single crystal ...
  • Little, A., Lee, C., John, C., Doyle, S., Maniv, E., ...
  • Wang, S., Zhao, S., Shi, Z., Wu, F., Zhao, Z., ...
  • Research Info Management

    Certificate | Report | من نویسنده این مقاله هستم

    اطلاعات استنادی این Paper را به نرم افزارهای مدیریت اطلاعات علمی و استنادی ارسال نمایید و در تحقیقات خود از آن استفاده نمایید.

    Share this page

    More information about COI

    COI stands for "CIVILICA Object Identifier". COI is the unique code assigned to articles of Iranian conferences and journals when indexing on the CIVILICA citation database.

    The COI is the national code of documents indexed in CIVILICA and is a unique and permanent code. it can always be cited and tracked and assumed as registration confirmation ID.

    Support