Your search keyword '"Sarwar, Noman"' showing total 9 results

1. Inclined magnetic field and variable viscosity effects on bioconvection of Casson nanofluid slip flow over non linearly stretching sheet

Author

Sarwar, Noman, Asjad, Muhammad Imran, Hussain, Sajjad, Alam, Md. Nur, and Inc, Mustafa

Published

2022

2. Optimization of the color fastness and mechanical properties of pigment dyed PC fabric

Author

Azeem, Abdul, Abid, Sharjeel, Sarwar, Noman, Ali, Shahzaib, Maqsood, Ahsan, Masood, Rashid, and Hussain, Tanveer

Published

2018

3. Application of Ternary Nanoparticles in the Heat Transfer of an MHD Non-Newtonian Fluid Flow.

Author

Sarwar, Noman, Jahangir, Saad, Asjad, Muhammad Imran, and Eldin, Sayed M.

Subjects

NON-Newtonian flow (Fluid dynamics), FLUID flow, HEAT transfer, NON-Newtonian fluids, MAGNETOHYDRODYNAMICS, NANOPARTICLES, THERMAL conductivity, NANOFLUIDS

Abstract

This paper introduces a novel theoretical model of ternary nanoparticles for the improvement of heat transmission. Ternary nanoparticles in a heat conductor are shown in this model. Ternary nanoparticles consist of three types of nanoparticles with different physical properties, and they are suspended in a base fluid. Analytical solutions for the temperature and velocity fields are found by using the Laplace transform approach and are modeled by using a novel fractional operator. As a result, the ternary nanoparticles are identified, and an improved heat transfer feature is observed. Further experimental research on ternary nanoparticles is being carried out in anticipation of a faster rate of heat transmission. According to the graphed data, ternary nanoparticles have greater thermal conductivity than that of hybrid nanoparticles. Moreover, the fractional approach based on the Fourier law is a more reliable and efficient way of modeling the heat transfer problem than the artificial approach. The researchers were driven to create a concept of existing nanoparticles in order to boost heat transfer, since there is a strong demand in the industry for a cooling agent with improved heat transfer capabilities. [ABSTRACT FROM AUTHOR]

Published

2022

4. Analysis of Fractional Bioconvection with Hybrid Nanoparticles in Channel Flow.

Author

Asjad, Muhammad Imran, Ikram, Muhammad Danish, Sarwar, Noman, Muhammad, Taseer, Sivasankaran, Sivanadam, and Subaihi, Sami Ahmed Abdu

Subjects

CHANNEL flow, FICK'S laws of diffusion, PROPERTIES of fluids, THERMAL boundary layer, FLUID flow, RAYLEIGH number, RAYLEIGH-Benard convection

Abstract

In this paper, MHD Brinkman-type fluid flow containing titanium dioxide and silver nanoparticle hybrid nanoparticles with generalized Mittag–Leffler kernel-based fractional derivative is investigated in the presence of bioconvection. The governing equations with dimensional analysis and fractional approach are obtained by using the fractional Fourier's law for heat flux and Fick's law for diffusion. As a result, the bioconvection Rayleigh number, which is responsible for the declining in the fluid velocity and fractional parameters used to control the thermal and momentum boundary layers thickness of fluid properties. The obtained solutions can be beneficial for proper analysis of real data and provide a tool for testing possible approximate solutions where needed. [ABSTRACT FROM AUTHOR]

Published

2022

5. Advancement of Non-Newtonian Fluid with Hybrid Nanoparticles in a Convective Channel and Prabhakar's Fractional Derivative--Analytical Solution.

Author

Asjad, Muhammad Imran, Sarwar, Noman, Hafeez, Muhammad Bilal, Sumelka, Wojciech, and Muhammad, Taseer

Subjects

*NON-Newtonian fluids, *VISCOUS flow, *NEWTONIAN fluids, *LAPLACE transformation, *DIFFERENTIAL equations

Abstract

The present paper deals with the advancement of non-Newtonian fluid containing some nanoparticles between two parallel plates. A novel fractional operator is used to model memory effects, and analytical solutions are obtained for temperature and velocity fields by the method of Laplace transform. Moreover, a parametric study is elaborated to show the impact of flow parameters and presented in graphical form. As a result, dual solutions are predicted for increasing values of fractional parameters for short and long times. Furthermore, by increasing nanoparticle concentration, the temperature can be raised along with decreasing velocity. A fractional approach can provide new insight for the analytical solutions which makes the interpretation of the results easier and enable the way of testing possible approximate solutions. [ABSTRACT FROM AUTHOR]

Published

2021

6. An Epic Technique For Learning Outcome Assessment In OBE Through Bloom's Taxonomy.

Author

Kumar, Rajesh, Sarwar, Noman, Maheshwari, Komal, Lal, Paras, and Dev, Kapeel

Subjects

BLOOM'S taxonomy, EDUCATIONAL objectives, OUTCOME-based education, AUTHENTIC assessment, EDUCATIONAL outcomes

Abstract

OBE importance are now increasing to make Engineering graduates globally acceptable. OBE roots towards the goal and objective of education, from OBE it is expected from students that after graduation they will achieve the goal of that OBE based education. Now-a-days OBE is a hot topic for every teachers and regulators because they want future best engineers for industries. This has led to change in teaching methodologies . A valuable methodology is Blooms Taxonomy which portrays the zone of learning,Cognitive,Affective and Psychomotor. Now-a-days web based educating picking up prevalence. In this moment, universities, guidance controllers and educators are locked in with much talk on the most ideal approach to good arrangement engineers for future jobs and live hood in the business. This has prompted the improvement of numerous methodologies of instructing philosophies to all the more likely bestow hypothetical and down to earth learning to understudies to outfit them with abilities for their future. A prominent methodology in such manner is the utilization of Blooms Taxonomy which depicts the region of learning, Cognitive, Affective and Psychomotor. The Cognitive zone that worries the acknowledgment of data, aptitudes and ideas for the improvement of information and capacities, the Affective area which manages the enthusiastic development and emotions and the Psychomotor space which keeps an eye on the advancement of physical abilities. The utilization of online instruments to encourage courses in different controls has picked up ubiquity in the previous decade. This paper investigates the COs (Course Outcomes) and its centrality in the evaluation of POs (Program Outcomes) and PEO(Program Educational Objectives). [ABSTRACT FROM AUTHOR]

Published

2019

7. HESITANCY TOWARDS ONLINE SHOPPING, A STUDY OF PAKISTANI CONSUMERS.

Author

YOUSAF, Usman, ALTAF, Mohsin, SARWAR, Noman, and Hassan SHAH, Syed Ali

Subjects

ONLINE shopping, CONSUMER surveys, CONSUMER attitudes, ELECTRONIC commerce

Abstract

To study the influence of Perceived cost, risk, convenience and enjoyment on online consumer purchases. Being more convenient online shopping seems painless compared to in store shopping, why consumers are still reluctant to shop online?.A sample of 220 questionnaires was filled from different departments at University of Sargodha. Respondents were asked to fill the questionnaire based on four factors (Perceived cost, Perceived risk, Perceived convenience, Perceived enjoyment), there were 2 general questions. Out of 220, 207 questionnaires were returned. One sample test is applied in this study to check the reliability of independent variables. Analysis was also done on basis of gender and their ages. The most important factor out of four, which can persuade the customer's online buying decision, is delivery cost for purchased items and it has negative relationship with dependent variable, moreover perceived risk has also negative relationship with dependent one. Perceived convenience and Perceived enjoyment has positive relationship with online shopping preference. As online shopping is easier to do but due to extra delivery cost and risk factors consumers do not adopt online shopping and these factors should be minimized to promote online shopping. Online shopping should be promoted and to gain the consumer confidence, delivery cost and risk factor should be minimized. As online shopping is easier to do as compared to offline shopping but people still reluctant to use internet for online shopping, so to promote online shopping delivery cost and risk factor should be minimized to gain consumers attraction and confidence. People want to experience online shopping but it won't be promoted until delivery cost and perceived risk factors be reduced. A little work has been done on exploring the factors that influence the online buying decision. These factors are called situational factors and include delivery charges, risk factors, convenience factors and enjoyment factors. In Pakistan consumers are not too much affiliated to online shopping as compared to European countries and not too much researches have been done related to online shopping in Pakistan , so this research been conducted to promote online shopping. [ABSTRACT FROM AUTHOR]

Published

2012

8. Impact of Bioconvection and Chemical Reaction on MHD Nanofluid Flow Due to Exponential Stretching Sheet.

Author

Asjad, Muhammad Imran, Sarwar, Noman, Ali, Bagh, Hussain, Sajjad, Sitthiwirattham, Thanin, and Reunsumrit, Jiraporn

Subjects

*CHEMICAL reactions, *DIFFERENTIAL forms, *BOUNDARY value problems, *RAYLEIGH number, *PARTIAL differential equations, *NANOFLUIDS, *STAGNATION flow, *RAYLEIGH scattering

Abstract

Thermal management is a crucial task in the present era of miniatures and other gadgets of compact heat density. This communication presents the momentum and thermal transportation of nanofluid flow over a sheet that stretches exponentially. The fluid moves through a porous matrix in the presence of a magnetic field that is perpendicular to the flow direction. To achieve the main objective of efficient thermal transportation with increased thermal conductivity, the possible settling of nano entities is avoided with the bioconvection of microorganisms. Furthermore, thermal radiation, heat source dissipation, and activation energy are also considered. The formulation in the form of a partial differential equation is transmuted into an ordinary differential form with the implementation of appropriate similarity variables. Numerical treatment involving Runge–Kutta along with the shooting technique method was chosen to resolve the boundary values problem. To elucidate the physical insights of the problem, computational code was run for suitable ranges of the involved parameters. The fluid temperature directly rose with the buoyancy ratio parameter, Rayleigh number, Brownian motion parameter, and thermophoresis parameter. Thus, thermal transportation enhances with the inclusion of nano entities and the bioconvection of microorganisms. The findings are useful for heat exchangers working in various technological processors. The validation of the obtained results is also assured through comparison with the existing result. The satisfactory concurrence was also observed while comparing the present symmetrical results with the existing literature. [ABSTRACT FROM AUTHOR]

Published

2021

9. A Prabhakar Fractional Approach for the Convection Flow of Casson Fluid across an Oscillating Surface Based on the Generalized Fourier Law.

Author

Sarwar, Noman, Asjad, Muhammad Imran, Sitthiwirattham, Thanin, Patanarapeelert, Nichaphat, and Muhammad, Taseer

Subjects

*FLUID flow, *PROPERTIES of fluids, *UNSTEADY flow, *FREE convection, *VELOCITY

Abstract

In the present work, an unsteady convection flow of Casson fluid, together with an oscillating vertical plate, is examined. The governing PDEs corresponding to velocity and temperature profile are transformed into linear ODEs with the help of the Laplace transform method. The ordinary derivative model generalized to fractional model is based on a generalized Fourier law. The solutions for energy and velocity equations are obtained after making the equations dimensionless. To check the insight of the physical parameters, especially the symmetric behavior of fractional parameters, it is found that for small and large values of time, fluid properties show dual behavior. Since the fractional derivative exhibits the memory of the function at the chosen value of time, therefore the present fractional model is more suitable in exhibiting memory than the classical model. Such results can be useful in the fitting of real data where needed. In the limiting case when fractional parameters are taken β = γ = 0 and α = 1 for both velocity and temperature, we get the solutions obtained with ordinary derivatives from the existing literature. [ABSTRACT FROM AUTHOR]

Published

2021