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Article
Publication date: 22 June 2020

Naveed Imran, Maryiam Javed, Muhammad Sohail, S. Farooq and Mubashir Qayyum

Naturally, all the materials are not viscous (i.e. milk, mayonnaise, blood, vaccines, syrups, cosmetics, oil reservoirs, paints, etc.). Here present analysis focuses on the usage…

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Abstract

Purpose

Naturally, all the materials are not viscous (i.e. milk, mayonnaise, blood, vaccines, syrups, cosmetics, oil reservoirs, paints, etc.). Here present analysis focuses on the usage of non-Newtonian fluid rheological properties enhancing, damping tools, protection apparatus individuals and in various distinct mechanical procedures. Industrial applications of non-Newtonian liquids include minimum friction, reduction in oil-pipeline friction, scale-up, flow tracers and in several others. The peristaltic mechanism is used as a non-Newtonian material carrier here. This mechanism occurs because of continuous symmetrical and asymmetrical propulsion of smooth channel walls. Peristalsis is a very significant mechanism for carrying drugs and other materials during sensitive diseases treatments.

Design/methodology/approach

Keeping in mind the considered problem assumptions (Rabinowitsch fluid model, thermal Grashof number, Prandtl number, density Grashof number, wall properties, etc.), it is found that the modeled equations are coupled and nonlinear. Thus here, analytical results are quite challenging to acquire and very limited to extremely venerated circumstances unsettled to their nonlinearity. Hence various developments found in computing proficiencies, numerical procedures that provides accurate, stable and satisfying solutions for non-Newtonian material flows exclusively in complex dimensions play a significant role. Here BVP4C numerical technique is developed to evaluate the nonlinear coupled system of equations with appropriate boundary constraints.

Findings

Due to convectively heated surface fluid between the walls having a small temperature. Sherwood and Nusselt numbers both deduce for fixed radiation values and different Rabinowitsch fluid quantity. Skin friction is maximum in the case of Newtonian, while minimum in case of dilatant model and pseudoplastic models. The influence of numerous parameters associated with flow problems such as thermal Grashof number, density Grashof number, Hartman number, Brownian motion, thermophoresis motion factor and slip parameters are also explored in detail and plotted for concentration profile, temperature distribution and velocity. From this analysis, it is concluded that velocity escalates for larger

Originality/value

The work reported in this manuscript has not been investigated so far by any researcher.

Details

Multidiscipline Modeling in Materials and Structures, vol. 17 no. 1
Type: Research Article
ISSN: 1573-6105

Keywords

Available. Open Access. Open Access
Article
Publication date: 10 December 2024

Karim Mansour

This research aims to test the impact of working capital efficiency (WCE) on capital structure decisions (CSD) in Egypt and investigate the moderating role of foreign currency…

406

Abstract

Purpose

This research aims to test the impact of working capital efficiency (WCE) on capital structure decisions (CSD) in Egypt and investigate the moderating role of foreign currency exchange risk exposure under IAS 21 in this relationship.

Design/methodology/approach

This research relies on data obtained from the financial reports of a sample consisting of 65 listed firms on the Egyptian stock exchange from 2012 to 2022, where the data is processed using the generalized method of moments (GMM).

Findings

The results reveal that the Egyptian industrial firms with higher WCE rely more on total debt finance (TDF) and long-term debt finance (LODF) and depend less on short-term debt finance (SHODF). Furthermore, the results indicated that foreign currency exchange gains (EXCG) strengthen the positive effect of high WCE on TDF and LODF. Conversely, foreign currency exchange losses (EXCL) weaken this positive effect. Furthermore, EXCL weakens the negative effect of WCE on SHODF. Moreover, the additional analysis yielded evidence regarding the influence of WCE’s components on CSD.

Research limitations/implications

This research has some limitations. First, the relatively small sample size. Second, foreign currency exchange gains or losses under IAS 21 may not fully capture all aspects of currency risk exposure.

Practical implications

This research provides valuable insights for firms operating in emerging markets which face unique challenges related to financing, liquidity and foreign currency exposure. Also, it contributes to the development of more efficient and sustainable financial markets in emerging economies. Furthermore, it offers insights for policymakers and regulators in emerging markets regarding the implications of IFRS adoption, specifically IAS 21.

Originality/value

This research contributes to the limited existing literature that has explored the influence of WCE on CSD in developed economies. Additionally, it expands the body of knowledge concerning CSD in emerging markets, as the investigation of the relationship between WCE and CSD remains an under-researched area. Moreover, this research empirically analyzes the moderating impact of foreign currency exchange risk exposure under IAS 21 on the relationship between WCE and CSD, which has not been previously examined.

Details

Asian Journal of Accounting Research, vol. 10 no. 1
Type: Research Article
ISSN: 2459-9700

Keywords

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Article
Publication date: 26 September 2019

Memoona Bibi, Muhammad Sohail and Rahila Naz

The purpose of this paper is to perform an analytical approximation for the flow of magnetohydrodynamic Carreau fluid with the association of nanoparticles over a rotating disk…

49

Abstract

Purpose

The purpose of this paper is to perform an analytical approximation for the flow of magnetohydrodynamic Carreau fluid with the association of nanoparticles over a rotating disk. The disk is moving with a constant uniform speed. Governing equations are obtained by using these assumptions in the form of partial differential equations with boundary conditions. These coupled, highly nonlinear equations are transformed into a coupled system of ordinary differential equations by engaging similarity transformation in the rotating frame of reference.

Design/methodology/approach

An efficient and reliable scheme, namely optimal homotopy asymptotic method, is used to obtain the solutions of the arising physical problem, which is further analyzed graphically. After computing the solutions of the arising problem, plots of velocities, temperature and concentration are discussed briefly.

Findings

It has been observed that dimensionless velocity reduced due to magnetic effect between the boundary layer and escalating values of the magnetic parameter upsurges the temperature and concentration profiles. Contour plots and numerical results are given for local numbers like skin friction coefficient, Nusselt number and Sherwood number.

Originality/value

The work presented in this manuscript is neither published nor submitted anywhere for the consideration/publications. It is a novel work.

Details

Multidiscipline Modeling in Materials and Structures, vol. 16 no. 2
Type: Research Article
ISSN: 1573-6105

Keywords

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