Improvement of the heat transfer quality by air cooling of three‐heated obstacles in a horizontal channel using the lattice Boltzmann method

Author:

Lahmer El Bachir1ORCID,Admi Youssef1ORCID,Moussaoui Mohammed Amine1ORCID,Mezrhab Ahmed1ORCID

Affiliation:

1. Laboratory of Mechanics & Energy, Faculty of Sciences Mohammed 1st University Oujda Morocco

Publisher

Wiley

Subject

Fluid Flow and Transfer Processes,Condensed Matter Physics

Reference44 articles.

1. MajgaonkarAS. Use of nanoparticles in refrigeration systems: a literature review paper. Int Compress Eng Refrig Air Cond High Perform Build Conf;2016.

2. AbbasM WalvekarRG HajibeigyMT FarhoodS. Efficient air‐condition unit by using nano‐refrigerant. EURECA;2013.

3. Three dimensional lattice Boltzmann simulation of steady and transient finned natural convection problems with evaluation of different forcing and conjugate heat transfer schemes

4. Conjugate heat transfer enhancement over heated blocks using airfoil deflectors

5. Conjugate heat transfer due to conduction, natural convection, and radiation from a vertical hollow cylinder with finite thickness

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