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001-es BibID:	BIBFORM113386
035-os BibID:	(cikkazonosító)103280 (WoS)001044253400001 (Scopus)85166023366
Első szerző:	Raza, Ali
Cím:	New fractional approach for CMC and water based hybrid nanofluid with slip boundary layer: Applications of fractal fractional derivative / Ali Raza, Rifaqat Ali, Sayed M. Eldin, Suleman H. Alfalqui, Ali Hasan Ali
Dátum:	2023
ISSN:	2214-157X
Megjegyzések:	The physical significance of the Fractal fractional derivative, one of the most fascinating and modern analytical techniques, to the thermal flow is described in this paper. Free convection, which is the flow of an erratic, incompressible viscous fluid on a vertically inclined plate, has been considered in this work. Two types of base fluids, namely water and carboxymethyl cellulose, are used in the presence of graphene oxide (GO) and molybdenum disulfide (MoS2) nanoparticles. The flow is subject to slip possessions due to the inclined surface. The non-dimensional leading equations for thermal and momentum, under Boussinseq`s approximation, can be solved by employing a Laplace transformation scheme, the fractal fractional derivative, and a more recent and improved definition of a fractional mathematical term. The thermal expressions are modeled using the Laplace transformation. The effect and comparison of various parameters are then visually and quantitatively analyzed after this activity. We, therefore, proposed that a waterbased nanofluid`s thermal profile and velocity are marginally higher than those of a hybrid nanofluid based on carboxymethyl cellulose. The momentum profile additionally illustrates the dual behavior of the flowing hybrid nanofluid as the fluid parameter of the Brinkman type increases.
Tárgyszavak:	Természettudományok Matematika- és számítástudományok idegen nyelvű folyóiratközlemény külföldi lapban folyóiratcikk Brinkman type fluid Sinusoidal conditions Laplace transformation Slip effects Fractal fractional derivatives
Megjelenés:	Case Studies in Thermal Engineering. - 49 (2023), p. 1-12. -
További szerzők:	Ali, Rifaqat Eldin, Sayed M. Alfalqui, Suleman H. Ali, Ali Hasan (1989-) (matematikus)
Internet cím:	Szerző által megadott URL DOI Intézményi repozitóriumban (DEA) tárolt változat
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001-es BibID:	BIBFORM109855
035-os BibID:	(cikkazonosító)102911 (Scopus)85150484496 (WoS)000964975200001
Első szerző:	Raza, Ali
Cím:	Prabhakar fractional simulation for inspection of CMC-based nanofluid flowing through a poured vertical channel / Ali Raza, Ahmed M. Abed, M.Y. Almusawa, Laila F. Seddek, Ali Hasan Ali
Dátum:	2023
ISSN:	2214-157X
Megjegyzések:	Nanofluids can be used in different solar thermal systems. Solar energy devices utilized in indus tries and nanofluids as a source of solar energy in thermal engineering are two other sources of solar energy, according to the article. This work inspects a viscous, incompressible nanofluid made of different (graphene oxide and molybdenum disulfide ) nanoparticles sus-pended in carboxymethyl cellulose (CMC). The governed model also considers permeability and angled magnetic effects. Due to memory effects, classical derivatives cannot explore and estimate the physical significance of several fluid limitations. We have addressed the issues with nanofluid suspension using the Prabhakar fractional derivative definition, the quickest and latest modern fractional technique. First, the governed leading equations are transferred to a fractional version using the integral transform technique and Laplace transform, and then it is resolved with various numerical approaches. Each constraint visual impact and significance are analyzed by varying their considered values. The numerical influences of the heat and flow rate are observed at multi ple time values. Therefore, we deduce that the momentum and heat profiles are slowed as the Prabhakar fractional restraints increase. While with the increment in the radiation parameter, the velocity profile shows an increasing behavior. Furthermore, the impact of graphene oxide-based suspension is more significant than molybdenum disulfide nanofluid on all governed equations due to the physical features of the considered nanoparticles.
Tárgyszavak:	Természettudományok Matematika- és számítástudományok idegen nyelvű folyóiratközlemény külföldi lapban folyóiratcikk Prabhakar fractional derivative CMC-nanofluid Viscous flow Vertical channel Porous medium
Megjelenés:	Case Studies in Thermal Engineering. - 45 (2023), p.1-14. -
További szerzők:	Abed, Ahmed M. Almusawa, M.Y. Seddek, Laila F. Ali, Ali Hasan (1989-) (matematikus)
Internet cím:	Szerző által megadott URL DOI Intézményi repozitóriumban (DEA) tárolt változat
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001-es BibID:	BIBFORM110501
035-os BibID:	(cikkazonosító)102948 (Scopus)85152592499 (WoS)000978149600001
Első szerző:	Zheng, Kehong
Cím:	New fractional approach for the simulation of (Ag) and (TiO2) mixed hybrid nanofluid flowing through a channel: Fractal fractional derivative / Zheng, Kehong; Raza, Ali; Abed, Ahmed M.; Khursheed, Hina; Seddek, Laila F.; Ali, Ali Hasan; Haq, Absar Ul
Dátum:	2023
ISSN:	2214-157X
Tárgyszavak:	Természettudományok Matematika- és számítástudományok idegen nyelvű folyóiratközlemény külföldi lapban folyóiratcikk
Megjelenés:	Case Studies in Thermal Engineering. - 45 (2023), p. 1-12. -
További szerzők:	Raza, Ali Abed, Ahmed M. Khursheed, Hina Seddek, Laila F. Ali, Ali Hasan (1989-) (matematikus) Haq, Absar Ul
Internet cím:	Szerző által megadott URL DOI Intézményi repozitóriumban (DEA) tárolt változat
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