Your search keyword '"Fazal Haq"' showing total 203 results

1. Thermal radiation and permeability effects in thermal transportation of Maxwell hybrid nanofluid flow with irreversibility optimization

Author

Mujeeb ur Rahman, Belkacem Kada, Fazal Haq, Jihad Younis, Arshad Hussain, Mohamed H. Ahmed, and Amjad Ali Pasha

Subjects

Entropy generation, Heat source, Maxwell hybrid nanoliquid, Thermal radiation, Bejan number, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Entropy generation(EG) has attracted the attention of scientists and researchers worldwide due to its applications in the industrial and engineering sectors. Applications of entropy generation can be seen in chillers, air conditioners, air separates, air coolers, nuclear reactors, and vehicle engines. In the current investigation, we have analyzed entropy generation in Maxwell hybrid nanofluid(HNF) flow over a porous stretching sheet. Darcy Forchheimer(DF) relation is considered. Due to stretching of sheet flow generates. The thermal expression is reported taking influences of dissipation, radiation, and heat source. The second law of thermodynamics is utilized to obtain EG for considered flow. Boundary layer assumptions are considered in the modeling. Partial differential equations(PDEs) governing the flow are changed into dimensionless ordinary differential equations(ODEs) through transformations. The solution of reduced ODEs is constructed via NDSolve code in Mathematica software. Different influential flow variables impact on velocity, temperature, irreversibility, and Bejan number are discussed graphically. Physical quantities are examined numerically. The results show that velocity diminished for rising porosity and Forchheimer variables. Temperature field upsurges for an upturn in radiation and Eckert numbers, an opposite impact is noticed for higher Prandtl number. EG escalates for greater radiation, temperature, and Brinkman variables.

Published

2024

2. An investigation of heat transfer and optimization of entropy in bio-convective flow of Eyring-Powell nanomaterial with gyrotactic microorganisms

Author

Kiran Batool, Fazal Haq, Saima Zainab, Saba Anwar, Jihad Younis, Arshad Hussain, Anoud Saud Alshammari, and Zeinhom M. El-Bahy

Subjects

Eyring-powell nanofluid, Microorganisms, Bioconvection, Entropy generation, Finite difference scheme, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Entropy generation in nanofluid flows is a critical parameter that influences the performance, efficiency, and sustainability of thermal systems. Understanding and optimizing entropy creation can lead to noteworthy advancements in numerous engineering applications, from renewable energy systems to industrial processes and biomedical equipments. The purpose of this article is to examine the entropy produced in the bioconvection flow of Eyring-Powell nanomaterial with gyrotactic microorganisms. The mathematical equations representing the flow are modeled considering the flow towards a porous surface of a cylinder. Together with the effects of the governing parameters, the mass and heat transfer components of the problem are discussed. The thermal effects of different natures are used in a new way. Overall, entropy creation is designed with regard to the second law of thermodynamics. Activation energy, chemical reaction, thermal radiation, and internal friction force effects are accounted for the development of the mathematical model. Coupled non-linear dimensional equations have been altered into ordinary differential equations (ODEs) and then treated using the MATLAB Finite Difference Method (FDM). Consequence of diverse sundry parameters on entropy production, thermal field, mass concentration profile, Bejan quantity, and motile density of microorganisms is deliberated via plots. Through tables, engineering quantities are analyzed. According to the findings, the velocity profile rises as the curvature and Eyring-Powell fluid parameters rise, while it falls when the magnetic parameter is enhanced. Additionally, it is noted that as the curvature variable enhances, the rate of heat transfer and skin friction coefficient decays.

Published

2024

3. Computational framework for thermal transportation in radiative bio-convective micropolar nanomaterial flow over stretched sheet with entropy optimization

Author

Si Jun Tao, Fazal Haq, Arshad Hussain, Ali Shokri, Mohamed R. Ali, and Ahmed S. Hendy

Subjects

Entropy production, Darcy forchheimer, Bioconvection, Micropolar fluid, Activation energy, Bejan number, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Entropy generation (EG) in bioconvective nanofluid flows is a phenomenon that occurs due to the presence of nanoparticles and microorganisms within fluid flows. EG leads to an increase in thermodynamic irreversibility within the system. Understanding and quantifying EG in nanofluid flows is essential to optimize heat transfer processes and design efficient systems. Current investigation aims to analyze the irreversibility of the magnetized bioconvective flow of non-Newtonian micropolar type nanofluid. Flow features are modeled considering flow by a Darcy Forchheimer permeable surface of a stretched sheet. Phenomenon of bioconvection in a micropolar fluid is considered to regulate the solid tiny particles. Magnetic field and permeability effects are accounted in momentum relation. Energy relation is constructed in the presence of Joule heating, internal fluid friction, and thermal radiation. Mass concentration equation is formulated by accounting Arrhenius kinetics and binary chemical reaction. Furthermore, the buoyancy effects of solid tiny particles are considered in thermal and concentration relations. Total entropy of the considered flow is modeled using the second thermodynamics law. System of dimensional equations representing the flow is obtained with the implementation of boundary layer approximations. The acquired system is altered into an ordinary one through transformations and then tackled by numerical scheme Runge-Kutta-Fehlberg method (RKF-45) in the Mathematica package. Behavior of velocity, thermal field, entropy production, mass concentration, motile density, and Bejan number versus sundry variables is investigated through plots. Skin friction, local heat, mass, and density rates are numerically examined. Thermal field upsurges and velocity field decays versus higher Hartmann number. Entropy generation improved versus higher Brinkman number, microorganisms diffusion variable, and temperature difference ratio variable.

Published

2024

4. Magnetized radiative flow of propylene glycol with carbon nanotubes and activation energy

Author

Hassan Ali Ghazwani, Muzher Saleem, and Fazal Haq

Subjects

Medicine, Science

Abstract

Abstract Carbon nanotubes (CNTs) have gained significant attention in the field of fluid dynamics and fluid flows due to their unique properties and the potential to enhance various aspects of fluid transport features. This article explores the behavior of Darcy–Forchheimer flow of Propylene glycol $$\left( {C_{3} H_{8} O_{2} } \right)$$ C 3 H 8 O 2 submerged single wall carbon nanotubes (SWCNT) and multi-wall carbon nanotubes (MWCNT). The flow features are examined over stretched preamble surface of sheet. Energy relation is acquired in manifestation of thermal radiation and Joule heating. Aspects of Arrhenius kinetics and chemical reaction are assimilated in mass transport relation. Furthermore, effects of intermolecular fluid friction is accounted. Flow prevailing mathematical model is acquired by implementing boundary layer assumptions. Transformations procedure is adapted to alter the dimensional model into non-dimensional one and then tackled through Runge–Kutta–Fehlberg method (RKF-45) in Mathematica. Effective consequences of influential flow controlling parameters on fluid velocity, thermal transport and concentration are inspected by plotting. Numerical computations for interesting engineering quantities like skin friction coefficient, mass and heat transfer rates are tabulated and investigated. It is noticed that thermal field boosts versus curvature variable, Eckert and Hartmann numbers. Retardation in mass concentration is noticed via Schmidt number and activation energy variable. Velocity field shows decreasing trend through porosity parameter, Hartmann number and Darcy–Forchheimer variable. Furthermore, it is noticed that magnitude of skin friction coefficient is higher for SWCNT as compared to MWCNT.

Published

2023

5. Numerical assessment of irreversibility in radiated Sutterby nanofluid flow with activation energy and Darcy Forchheimer

Author

Mujeeb ur Rahman, Fazal Haq, M. Ijaz Khan, Fuad A. Awwad, and Emad A. A. Ismail

Subjects

Medicine, Science

Abstract

Abstract Entropy generation is a concept that is primarily associated with thermodynamics and engineering, and it plays a crucial role in understanding and optimizing various processes and systems. Applications of entropy generation can be seen in turbo machinery, reactors, chillers, desert coolers, vehicle engines, air conditioners, heat transfer devices and combustion. Due to industrial applications entropy generation has gained attention of researchers. Owing such applications, current communication aims to model and analyzed the irreversibility in Sutterby nanoliquid flow by stretched cylinder. Momentum equation is reported by considering porosity, Darcy Forchheimer and magnetic field. While in energy equation radiation and Joule heating effects are accounted. Activation energy impact is accounted in the modeling of concentration equation. Thermodynamics second law is utilized for physical description of irreversibility analysis. Through similarity transformations dimensional equations representing flow are transformed to dimensionless ones. Numerical solution for ordinary system is obtained via Runge–Kutta-Fehlberg scheme in Mathematica platform through NDsolve code. Influence of prominent variables on velocity, entropy, temperature, Bejan number and concentration are graphically analyzed. Coefficient of skin friction, gradient of temperature and Sherwood number are numerically analyzed. The obtained results show that velocity field decreases through higher porosity and Forchheimer variables. Velocity and temperature curves shows an opposite trend versus magnetic parameter. A decay in concentration distribution is noticed through larger Schmidt number. Entropy generation amplifies against magnetic parameter and Brinkman number.

Published

2023

6. Entropy optimization in bio-convective chemically reactive flow of micropolar nanomaterial with activation energy and gyrotactic microorganisms

Author

Shahid Hussain, Fazal Haq, Hassan Ali Ghazwani, Muzher Saleem, and Arshad Hussain

Subjects

Entropy generation, Micropolar fluid, Bioconvection, Activation energy, Mixed convection, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The main objective of this research paper is to scrutinize the entropy generation(EG) in the bioconvective flow of micropolar fluid by porous surface of a stretched sheet. Mixed convection effects are considered. Thermal radiation, internal fluid friction, Joule heating, and heat generation aspects are accounted for in the energy relation. Mass concentration relation is developed because of the binary chemical reactions associated with Arrhenius kinetics. The governing equations for the micropolar fluid are developed based on Buongiorno's model with the help of boundary layer restrictions. By invoking the transformation procedure, dimensional model is made dimensionless. The well-known shooting technique RKF-45 in Mathematica software is implemented to solve the transformed equations. Performance of micropolar fluid velocities, thermal field, entropy generation, mass concentration, Bejan number, and motile density versus influential variables are highlighted. Furthermore, the intensity of skin friction, Nusselt quantity, motile density, and Sherwood number is computed and analyzed. It is observed that the rate of EG improves while the Bejan number diminishes versus higher Brinkman number, and diffusion parameter due to gyrotactic microorganisms. Magnitude of heat transfer rate boosts through higher Γ, Qs, Ec, Ha and Rd at an average percentage of 44, 82, 189, 156 respectively.

Published

2024

7. Comparison of Approximate Analytical and Numerical Solutions of the Allen Cahn Equation

Author

Safdar Hussain, Fazal Haq, Abdullah Shah, Dilsora Abduvalieva, and Ali Shokri

Subjects

Mathematics, QA1-939

Abstract

Allen Cahn (AC) equation is highly nonlinear due to the presence of cubic term and also very stiff; therefore, it is not easy to find its exact analytical solution in the closed form. In the present work, an approximate analytical solution of the AC equation has been investigated. Here, we used the variational iteration method (VIM) to find approximate analytical solution for AC equation. The obtained results are compared with the hyperbolic function solution and traveling wave solution. Results are also compared with the numerical solution obtained by using the finite difference method (FDM). Absolute error analysis tables are used to validate the series solution. A convergent series solution obtained by VIM is found to be in a good agreement with the analytical and numerical solutions.

Published

2024

8. The q-homotopy analysis method for a solution of the Cahn–Hilliard equation in the presence of advection and reaction terms

Author

Safdar Hussain, Abdullah Shah, Asad Ullah, and Fazal Haq

Subjects

The Cahn–Hilliard equation, the q-homotopy analysis method, advection and reaction terms, thickness of transition layer, diffusion parameter, Science (General), Q1-390

Abstract

In this paper, we provide a solution to the Cahn–Hilliard equation using the q-homotopy analysis method (q-HAM). The q-HAM is a more general, simple and widely used method for solving stiff nonlinear partial differential equations. The Cahn–Hilliard equation is a classical model in material sciences that describe spinodal decomposition and phase separation in two-phase flows. Using the q-HAM, the effect of various parameters of physical interest such as diffusive parameter, thickness parameter, advection and reaction terms on concentration is studied. The comparison of the computed solution with the exact solution is presented for some fixed parameter values to validate the solution obtained using the q-HAM.

Published

2022

9. Mixed convection and activation energy impacts on MHD bioconvective flow of nanofluid with irreversibility assessment

Author

Mujeeb ur Rahman, Fazal Haq, Pompei C. Darab, Mohammed Sallah, Shaimaa A.M. Abdelmohsen, Bandar M. Fadhl, and Basim M. Makhdoum

Subjects

Magnetic field, Entropy generation, Walter's-B nanofluid, Bioconvection, Bejan number, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

In this communication irreversibility minimization in bio convective Walter's-B nanofluid flow by stretching sheet is studied. Suspended nanoparticles in Walter's-B fluid are stabilized by utilizing microorganisms. Total irreversibility is obtained via thermodynamics second law. The influences of applied magnetic field, radiation, Joule heating and activation energy are accounted in momentum, temperature and concentration equations. Furthermore thermophoresis and Brownian movement impacts are also accounted in concentration and temperature expressions. The flow governing dimensional equations are altered into dimensionless ones adopting transformation procedure. Homotopy Analysis Method (HAM) code in Mathematica is implemented to get the convergent series solution. The influences of important flow variables on temperature, velocity, motile density, irreversibility, mass concentration, Bejan number and physical quantities are analyzed graphically. The obtained results revel that the velocity profile decreases for escalating magnetic parameter and Forchheimer number. Entropy generation is increased for higher Brinkman variable while Bejan number declines versus Brinkman variable. The important observations are given at the end.

Published

2023

10. Dual-Uptake Mode of the Antibiotic Phazolicin Prevents Resistance Acquisition by Gram-Negative Bacteria

Author

Dmitrii Y. Travin, Romain Jouan, Armelle Vigouroux, Satomi Inaba-Inoue, Joy Lachat, Fazal Haq, Tatiana Timchenko, Dmitry Sutormin, Svetlana Dubiley, Konstantinos Beis, Solange Moréra, Konstantin Severinov, and Peter Mergaert

Subjects

phazolicin, antimicrobial peptides, ABC importers, SLiPT, substrate-binding protein, RiPP uptake, Microbiology, QR1-502

Abstract

ABSTRACT Phazolicin (PHZ) is a peptide antibiotic exhibiting narrow-spectrum activity against rhizobia closely related to its producer, Rhizobium sp. strain Pop5. Here, we show that the frequency of spontaneous PHZ-resistant mutants in Sinorhizobium meliloti is below the detection limit. We find that PHZ can enter S. meliloti cells through two distinct promiscuous peptide transporters, BacA and YejABEF, which belong to the SLiPT (SbmA-like peptide transporter) and ABC (ATP-binding cassette) transporter families, respectively. The dual-uptake mode explains the lack of observed resistance acquisition because the simultaneous inactivation of both transporters is necessary for resistance to PHZ. Since both BacA and YejABEF are essential for the development of functional symbiosis of S. meliloti with leguminous plants, the unlikely acquisition of PHZ resistance via the inactivation of these transporters is further disfavored. A whole-genome transposon sequencing screen did not reveal additional genes that can provide strong PHZ resistance when inactivated. However, it was found that the capsular polysaccharide KPS, the novel putative envelope polysaccharide PPP (PHZ-protecting polysaccharide), as well as the peptidoglycan layer jointly contribute to the sensitivity of S. meliloti to PHZ, most likely serving as barriers that reduce the amount of PHZ transported inside the cell. IMPORTANCE Many bacteria produce antimicrobial peptides to eliminate competitors and create an exclusive niche. These peptides act either by membrane disruption or by inhibiting essential intracellular processes. The Achilles’ heel of the latter type of antimicrobials is their dependence on transporters to enter susceptible cells. Transporter inactivation results in resistance. Here, we show that a rhizobial ribosome-targeting peptide, phazolicin (PHZ), uses two different transporters, BacA and YejABEF, to enter the cells of a symbiotic bacterium, Sinorhizobium meliloti. This dual-entry mode dramatically reduces the probability of the appearance of PHZ-resistant mutants. Since these transporters are also crucial for S. meliloti symbiotic associations with host plants, their inactivation in natural settings is strongly disfavored, making PHZ an attractive lead for the development of biocontrol agents for agriculture.

Published

2023

11. Irreversibility analysis in natural bio-convective flow of Eyring-Powell nanofluid subject to activation energy and gyrotactic microorganisms

Author

Wei-Feng Xia, Fazal Haq, Muzher Saleem, M. Ijaz Khan, Sami Ullah Khan, and Yu-Ming Chu

Subjects

Eyring-Powell nanofluid, Activation energy, Entropy generation, Gyrotactic microorganisms, Bio-convection, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The developing interest in thermal engineering and nano-technology presented the idea of nanoparticles with enhanced thermal mechanisms and attained convinced novel applications in heat transportation systems, solar energy, micromechanics, air conditioning systems, cooling and heating facilities, bio-medical applications like cancer treatment, artificial heart surgery etc. Beside this, the phenomenon of entropy generation is another fascinating research area which used to improve the assessment of heat transportation with optimized procedure. The entropy generation in bio-convective flow of Eyring-Powell nanofluid over permeable stretched surface of cylinder is scrutinized in this research. The effects of magnetic field, thermal radiation and viscous dissipation are considered. Concentration communication is obtained in view of activation energy associated with binary chemical reaction. Furthermore, properties of Brownian diffusion and thermophoresis of nanoparticles are accounted. Suspended nanoparticles are made stable through mutual effects of bioconvection and buoyancy forces. Total entropy generation rate is modeled through second thermodynamics law. The governing flow model is obtained with the help of boundary layer approximations. Dimensional model is transformed into non-dimensional one by transformations and then tackled by Newton built-in shooting procedure. Impact of different influential variables on entropy generation, velocity, temperature, concentration, Bejan number and motile density of microorganisms are analyzed via graphs. Numerical values of skin friction coefficient, density, Sherwood and Nusselt numbers are tabulated and examined. Major findings are listed at the end. Since this analysis is based on theoretical flow assumptions, therefore the flow parameters specify the constant range like 0.0⩽Γ⩽6.0, 1.0⩽γ⩽4.0, 0.1⩽Ha⩽1.2, 0.2⩽λ⩽0.6,0.2⩽Rd⩽1.7, 0.1⩽K⩽3.0, 0.1⩽Pr⩽4.5, 0.3⩽Nb⩽1.8, 0.2⩽Nt⩽1.7, 0.0⩽E1⩽1.0, 1.0⩽Ec⩽4.0, 0.2⩽σ⩽1.4, 0.4⩽Sc⩽1.7, 1.0⩽δ⩽2.5, 0.5⩽Pe⩽2.0, 0.5⩽Ω°⩽2.0, 0.1⩽Br⩽1.0,0.1⩽Lb⩽1.5. The results show that fluid velocity decreases with curvature parameter and porosity constant. A decreasing variation in nanofluid temperature due to curvature parameter is examined. The entropy generation and Bejan number decline Brinkman number, motile density diffusion parameter and mass concentration diffusion variable. Furthermore, it is observed that skin friction coefficient increases with curvature parameter and porosity constant.

Published

2021

12. Growth and yield enhancement of carrot through integration of NPK and organic manures

Author

Mehwish Kiran, Muhammad Saleem Jilani, Kashif Waseem, Fazal Haq, Muhammad Sohail Khan, Muhammad Amjad Nadeem, Khalid Rahman, Ghazanfar Ullah, and Kashif Hussain

Subjects

Carrot, NPK, organic manures, root length, root weight, otal biomass, Plant culture, SB1-1110

Abstract

A pot experiment was conducted at Horticulture Experimental Area, Gomal University, Dera Ismail Khan, Pakistan to investigate the combined effects of NPK and organic manures on growth and yield of carrot, for two consecutive years. The experiment was laid out in CRD with six treatments and four replications. Five different organic manures such as poultry manure (PM), sewage sludge (SS), farmyard manure (FYM), press mud (PrM) and goat manure (GM) were applied in combination with NPK, each at recommended levels for two successive years. A fertilizer check (control) was also included as treatment where no fertilizer and manure were used. The study revealed significant improvements in almost all growth and yield attributes by combined application of NPK and organic manures. Among different combinations, NPK + PM surpassed all other treatments by giving maximum leaves per plant (8.73 and 8.13), leaf length (38.17 and 36.77cm), root length (29.30 and 24.83cm), root diameter (3.10 and 3.27cm), root weight per plant (142.40 and 142.00g), total biomass per plant (169.33 and 166.67g) and root yield (56.67 and 56.83 t/ha), during both the experimental years. Similarly, NPK combination with green manure and sewage sludge also produced better results pertaining to carrot growth and production for two consecutive years. It was also observed during the study that control treatment showed poorest findings and placed at lowest levels.

Published

2022

13. Modeling and theoretical analysis of gyrotactic microorganisms in radiated nanomaterial Williamson fluid with activation energy

Author

Fazal Haq, Seifedine Kadry, Yu-Ming Chu, Mair Khan, and M. Ijaz Khan

Subjects

Williamson nanofluid, Gyrotactic microorganisms, Stretching cylinder, Magnetic field, Density number, Arrhenius activation energy, Mining engineering. Metallurgy, TN1-997

Abstract

Here flow behavior of stratified Williamson nanofluid over porous surface of stretching cylinder is examined. The concept of gyrotactic miscroorganisms is implemented to control the random movement of suspended nanoparticles. Effects of magnetic field is accounted. Further chemical reaction with Arrhenius activation energy is considered for the modeling of concentration equation. Brownian motion and thermophoresis effects are further considered. The flow model is obtained by employing the boundary layer assumptions. Appropriate transformations are used to reduced the dimensional system into non-dimensional ones. NDSolve code in MATHEMATICA software is used to tackle the obtained non-dimensional flow expressions. Behavior of velocity, mass concentration, temperature and motile microorganisms versus involved variables is examined graphically. The engineering curiosity like skin friction coefficient, heat and mass transfer rates (Nusselt and Sherwood numbers) and density number are computed and analyzed. Important observations are highlighted at the end.

Published

2020

14. Existence of fractional order semianalytical results for enzyme kinetics model

Author

Hussam Alrabaiah, Amjad Ali, Fazal Haq, and Kamal Shah

Subjects

Enzyme kinetics, Mathematical models, Fractional derivatives, Fixed point approach, Analytical solution, Mathematics, QA1-939

Abstract

Abstract This research work investigates the existence of semianalytical solutions of a chemical kinematics model. We develop the conditions for the existence of the solutions for a proposed enzyme kinetics model, via tools of the fixed point theory. The semianalytical results were obtained with the help of Laplace transformation and Adomian decomposition method. The results established by the proposed techniques are in the form of infinite series. Furthermore, with extending homotopy perturbation method (HPM), we develop a series solutions for the considered model. By using Matlab, we present the approximate solution for both methods up to a few series terms.

Published

2020

15. A Xanthomonas oryzae type III effector XopL causes cell death through mediating ferredoxin degradation in Nicotiana benthamiana

Author

Wenxiu Ma, Xiameng Xu, Lulu Cai, Yanyan Cao, Fazal Haq, James R. Alfano, Bo Zhu, Lifang Zou, and Gongyou Chen

Subjects

Xanthomonas oryzae pv. oryzae, XopL, Cell death, Ferredoxin, Degradation, ROS, Plant culture, SB1-1110

Abstract

Abstract Plant pathogenic bacteria engage in an ongoing struggle for survival. Gram negative phytopathogenic prokaryotes deploy type III secretion system to deliver effector proteins into plant cells to manipulate the host cellular environment. In many cases, the targets of these effector proteins are unknown. The bacterial blight pathogen, Xanthomonas oryzae pv. oryzae (Xoo), causes a devastating disease in rice and the Xoo-rice interaction is an example of the ongoing evolutionary battle between plants and pathogens. In this study, we show that an effector XopL from Xoo exhibits E3 ubiquitin ligase activity and induces cell death in the nonhost Nicotiana benthamiana (Nb). Through yeast two-hybrid, co-immunoprecipitation, and biomolecular fluorescence complementation assays, it was shown that XopL interacts with ferredoxin (NbFd), an electron transport molecule in plant chloroplasts. XopL induced defense-related response in Nb and specifically targeted NbFd for ubiquitination and ubiquitin-mediated degradation, a process that increased the production of reactive oxygen species (ROS). This study demonstrates the ubiquitination and degradation of NbFd as a result of XopL activity, which further illustrates the tremendous functional diversity in Xanthomonas effector proteins.

Published

2020

16. Identification of a virulence tal gene in the cotton pathogen, Xanthomonas citri pv. malvacearum strain Xss-V2–18

Author

Fazal Haq, Shiwang Xie, Kunxuan Huang, Syed Mashab Ali Shah, Wenxiu Ma, Lulu Cai, Xiameng Xu, Zhengyin Xu, Sai Wang, Lifang Zou, Bo Zhu, and Gongyou Chen

Subjects

Bacterial blight of cotton, Xanthomonas citri pv. malvacearum, Transcription-activator-like effector, Virulence, Microbiology, QR1-502

Abstract

Abstract Background Bacterial blight of cotton (BBC), which is caused by the bacterium Xanthomonas citri pv. malvacearum (Xcm), is a destructive disease in cotton. Transcription activator-like effectors (TALEs), encoded by tal-genes, play critical roles in the pathogenesis of xanthomonads. Characterized strains of cotton pathogenic Xcm harbor 8–12 different tal genes and only one of them is functionally decoded. Further identification of novel tal genes in Xcm strains with virulence contributions are prerequisite to decipher the Xcm-cotton interactions. Results In this study, we identified six tal genes in Xss-V2–18, a highly-virulent strain of Xcm from China, and assessed their role in BBC. RFLP-based Southern hybridization assays indicated that Xss-V2–18 harbors the six tal genes on a plasmid. The plasmid-encoded tal genes were isolated by cloning BamHI fragments and screening clones by colony hybridization. The tal genes were sequenced by inserting a Tn5 transposon in the DNA encoding the central repeat region (CRR) of each tal gene. Xcm TALome evolutionary relationship based on TALEs CRR revealed relatedness of Xss-V2–18 to MSCT1 and MS14003 from the United States. However, Tal2 of Xss-V2–18 differs at two repeat variable diresidues (RVDs) from Tal6 and Tal26 in MSCT1 and MS14003, respectively, inferred functional dissimilarity. The suicide vector pKMS1 was then used to construct tal deletion mutants in Xcm Xss-V2–18. The mutants were evaluated for pathogenicity in cotton based on symptomology and growth in planta. Four mutants showed attenuated virulence and all contained mutations in tal2. One tal2 mutant designated M2 was further investigated in complementation assays. When tal2 was introduced into Xcm M2 and expressed in trans, the mutant was complemented for both symptoms and growth in planta, thus indicating that tal2 functions as a virulence factor in Xcm Xss-V2–18. Conclusions Overall, the results demonstrated that Tal2 is a major pathogenicity factor in Xcm strain Xss-V2–18 that contributes significantly in BBC. This study provides a foundation for future efforts aimed at identifying susceptibility genes in cotton that are targeted by Tal2.

Published

2020

17. Parametric design and IR signature study of exhaust plume from elliptical-shaped exhaust nozzles of a low flying UAV using CFD approach

Author

Fazal Haq and Jun Huang

Subjects

Exhaust nozzle, IR signature, Aspect ratio, Nozzle CFD, Technology

Abstract

This paper describes the design, parametric study, and IR signature analysis of plume of a slit-shaped exhaust nozzle. Circular-shaped exhaust nozzles are generally used to get the essential thrust necessary for an aircraft flight. However, the Infrared (IR) signature of the exhaust plume emanating from these nozzles is very high, and the IR missile can easily lock and hit the aircraft. In this paper, the compressible flow CFD model using a realizable k-ε turbulence model is used to study the flow characteristics of the exhaust nozzle with different aspect ratios. The exit cross-section of the nozzle is kept elliptical up to a maximum aspect ratio of 10. IR signature for each nozzle shaped is calculated using a set of input parameters in Mid-wave IR and Long-wave IR spectral bands. The IR signature of exhaust plume in Long-wave IR spectral band is not significant due to high transmittance of species in the exhaust plume mixture. However, for this particular case of low flying UAV, a considerable reduction in the IR signature is recorded for the high aspect ratio nozzle in MWIR spectral band.

Published

2022

18. Modification of Cellulose Nanocrystals With 2-Carboxyethyl Acrylate in the Presence of Epoxy Resin for Enhancing its Adhesive Properties

Author

Amjad Ali, Tariq Aziz, Jieyuan Zheng, Fan Hong, Mahamed F. Awad, Sehrish Manan, Fazal Haq, Asmat Ullah, Muhammad Naeem Shah, Qaiser Javed, Ameer Ali Kubar, and Li Guo

Subjects

cellulose nanocrystals, adhesion, modification, mechanical properties, thermal properties, Biotechnology, TP248.13-248.65

Abstract

Cellulose nanocrystals (CNCs) have unparalleled advantages in the preparation of nanocomposites for various applications. However, a major challenge associated with CNCs in nanocomposite preparation is the lack of compatibility with hydrophobic polymers. The hydrophobic modification of CNCs has attracted increasing interest in the modern era standing with long challenges and being environmentally friendly. Here, we synthesized CNCs by using cotton as raw material and then modified them with 2-carboxyethyl acrylate to improve their corresponding mechanical, adhesive, contact angle, and thermal properties. Different concentrations (1–5 wt%) of CNCs were used as modifiers to improve the interfacial adhesion between the reinforced CNCs and E-51 (Bisphenol A diglycidyl ether) epoxy resin system. CNCs offered a better modulus of elasticity, a lower coefficient of energy, and thermal expansion. Compared with the standard sample, the modified CNCs (MCNCs) showed high shear stress, high toughness, efficient degradation, thermal stability, and recycling due to the combined effect of the hyperbranched topological structure of epoxy with good compatibility. The native CNCs lost their hydrophilicity after modification with epoxy, and MCNCs showed good hydrophobic behavior (CA = 105 ± 2°). The findings of this study indicate that modification of CNCs with 2-carboxyethyl acrylate in the presence of epoxy resin and the enhancement of the features would further expand their applications to different sectors.

Published

2022

19. W/C REDUCTION FOR FLEXURAL STRENGTHENING OF R.C BEAMS HAVING PLASTIC AGGREGATE

Author

Akhtar Gul, Saad Tayyab, Asad Ullah, Kamal Shah, Faisal Mehmood, and Fazal Haq

Subjects

Plastic Aggregate (PA), Flexural Strength (FS), Compressive Strength (CS), Water Cement Ratio (W/C), Superplasticizer (SP), Engineering (General). Civil engineering (General), TA1-2040

Abstract

Due to the greater availability and low biodegradability plastic waste became a great concern for the researchers worldwide, because this waste is one of the main environmental issues. Nowadays harmful industrial waste can be helpful in place of conventional aggregate in concrete mix, which in turn will also save natural resources. A similar effort has been made in this research study for making concrete having replaced percentage of plastic aggregate along with plasticizer and reduced water cement ratio. Total of fifty-seven concrete cylinders and six beams were cast, and after curing period, these were tested for compression and flexural strength respectively. Compression strength decreases by increasing the percentages of plastic aggregates while reducing the w/c, the compression strength increases. The strength of beams in flexure increases by 57% through reduction of W/C from 0.68 (normal concrete/fc’=3000psi) to 0.3, and with further replacement of 40% plastic aggregate the increase in strength as compared to the normal concrete was still 3%.

Published

2019

20. RESTRICTED ZONE OF SUPERPAVE MIX DESIGN AND ITS IMPACT ON RESILIENT MODULUS AND PERMANENT DEFORMATION

Author

Arshad Hussain, Fazal Haq, Nauman Javaid, and Muhammad Bilal Khurshid

Subjects

Resilient Modulus, Permanent Deformation, Hot Mix Asphalt (HMA), Restricted Zone, Superpave, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Back in 1993, Strategic Highway Research Program introduced new mix design method known as SUPERPAVE that is an acronym of Superior Performing Asphalt Pavement. Superpave caters filed performance of bituminous mixes and Superpave gradation chart includes 0.45 power line, restricted zone and control points. In Superpave, the gradation that compliance with the restricted zone was considered less rut resistant as compared to gradation passing outside the restricted zone. This study targets three types of gradations that passed above, below and through the restricted zone. The results show that the gradation passing through the restricted zone not only satisfy Superpave volumetric requirements but also performs better against rutting as compared to gradation passing outside the restricted zone. Resilient modulus (MR) measured through indirect tensile strength setup that defines the elastic properties of bituminous mix under repeated load test. Laboratory study was conducted to find factors that affect the gradation. Two-way factorial design was carried out by using Minitab-15 statistical software and the results reflected that the individual factor i.e. loads duration and temperature as well as interaction of factors has significant effect on the performance of HMA.

Published

2019

21. Synthesis of Starch-Grafted Polymethyl Methacrylate via Free Radical Polymerization Reaction and Its Application for the Uptake of Methylene Blue

Author

Uzma Yasmeen, Fazal Haq, Mehwish Kiran, Arshad Farid, Naveed Ullah, Tariq Aziz, Muhammad Haroon, Sahid Mehmood, Muhammad Muzammal, Shakira Ghazanfar, Majid Alhomrani, Abdulhakeem S. Alamri, Syed Mohammed Basheeruddin Asdaq, Saleh A. Alghamdi, and Irfan Ullah

Subjects

St-g-PMMA, grafting, adsorption, methylene blue, kinetics, isotherms, Organic chemistry, QD241-441

Abstract

In this research, a new biodegradable and eco-friendly adsorbent, starch-grafted polymethyl methacrylate (St-g-PMMA) was synthesized. The St-g-PMMA was synthesized by a free radical polymerization reaction in which methyl methacrylate (MMA) was grafted onto a starch polymer chain. The reaction was performed in water in the presence of a potassium persulfate (KPS) initiator. The structure and different properties of the St-g-PMMA was explored by FT-IR, 1H NMR, TGA, SEM and XRD. After characterization, the St-g-PMMA was used for the removal of MB dye. Different adsorption parameters, such as effect of adsorbent dose, effect of pH, effect of initial concentration of dye solution, effect of contact time and comparative adsorption study were investigated. The St-g-PMMA showed a maximum removal percentage (R%) of 97% towards MB. The other parameters, such as the isothermal and kinetic models, were fitted to the experimental data. The results showed that the Langmuir adsorption and pseudo second order kinetic models were best fitted to experimental data with a regression coefficient of R2 = 0.93 and 0.99, respectively.

Published

2022

22. Entropy generation minimization in bio-convective flow of nanofluid with activation energy and gyrotactic micro-organisms

Author

Fazal Haq, Muzher Saleem, M. Ijaz Khan, Yasser Elmasry, and Ronnason Chinram

Subjects

Physics, QC1-999

Abstract

This article addresses the entropy generation in mixed convection magnetohydrodynamics Eyring–Powell nanofluid flow toward a permeable surface of a cylinder. The flow is modeled considering heat generation and chemical reaction aspects. The influence of buoyancy forces, magnetic field, and thermal radiation is also considered. Moreover, activation energy, viscous dissipation, and permeability effects on bio-nanofluid flow are assimilated in modeling of concentration and energy relations. Total entropy generation is modeled in view of the second thermodynamics law. The governing system of PDEs is deduced by incorporating boundary layer assumptions. Relevant transformations are used to reduce the dimensional flow model into a non-dimensional one. The built-in shooting technique and the NDSolve code in Mathematica software are used to handle the dimensionless flow expressions. Variation in velocity, temperature, concentration, motile micro-organisms, Bejan number, and entropy generation with respect to the involved parameters is scrutinized graphically. Surface drag force, heat transfer rate, mass transfer rate, and density number are further calculated and investigated. Important results are summarized at the end.

Published

2021

23. Investigation of suspended nanoliquid flow of Eyring–Powell fluid with gyrotactic microorganisms and density number

Author

Fazal Haq, Muhammad Ijaz Khan, Sohail A Khan, and T Hayat

Subjects

Mechanical engineering and machinery, TJ1-1570

Abstract

The aim of the current investigation is to discuss the behavior of mixed convection magnetohydrodynamic flow of Eyring–Powell nanoliquid subjected to gyrotactic microorganisms over a stretchable cylinder. Energy communication is developed through the first law of thermodynamics and deliberated in the manifestation of viscous dissipation. Furthermore, Brownian motion and thermophoresis effects are also considered. Nonlinear system of partial differential equations is altered into ordinary one due to employing transformations. The given systems are then solved through ND-solve technique. Impact of influential variables on velocity, motile microorganism’s temperature, and concentration is deliberated graphically. Skin friction coefficient, mass transfer rate, density number, and Nusselt number are numerically computed versus different influential variables. Velocity and temperature have opposite impact for curvature parameter. For higher estimation of fluid parameter, temperature and velocity fields boost up.

Published

2020

24. OPTIMIZATION OF RECLAMED ASPHALT AND FT PARAFFIN FOR PERMANENT DEFORMATION AND MOISTURE DAMAGE OF ASPHALT MIXES

Author

Fazal Haq, Arshad Hussain, and Muhammad Bilal Khurshid

Subjects

HMA, WMA, Sasobit, Permanent deformation, Rutting, Moisture damage, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Recycling of Reclaimed Asphalt Pavement (RAP) provides us the need to save valuable aggregate and the help of which the use of expensive bituminous binder will be reduced as well. In this study we have considered one WMA additive (Sasobit). The rut resistance of mixes was improved by adding either RAP or Sasobit or both as compared to control asphalt mixes. For lower contents of RAP i.e. up to 15 %, highest rut resistances was observed at 2 % Sasobit addition, and for higher content of RAP highest rut resistance was observed at 3 % Sasobit addition. On the other hand, increasing RAP and Sasobit content increased the moisture susceptibility of mixes, so best recommended combination is to use 30-40 % RAP in addition of 3 % Sasobit as far as permanent deformation and moisture susceptibility criteria are concerned.

Published

2018

25. Numerical solution of fractional order smoking model via laplace Adomian decomposition method

Author

Fazal Haq, Kamal Shah, Ghaus ur Rahman, and Muhammad Shahzad

Subjects

Engineering (General). Civil engineering (General), TA1-2040

Abstract

Smoking is one of the major cause of health problems around the globe. The present article deals with the dynamics of giving up smoking model of fractional order. We study analytical solution (approximate solution) of the concerned model with the help of Laplace transformation. The solution of the model will be obtained in form of infinite series which converges rapidly to its exact value. Moreover, we compare our results with the results obtained by Runge-Kutta method. Some plots are presented to show the reliability and simplicity of the method. Keywords: Smoking dynamics, Mathematical models, Fractional derivatives, Laplace-Adomian decomposition method, Analytical solution

Published

2018

26. Barcoding assessment of the Citrus species cultivated in the eastern Afghanistan

Author

Massimo Gori, Simona Pecchioli, Edgardo Giordani, Mohammad Aziz Saeedi, Fazal Haq Wafa, and Stefano Biricolti

Subjects

Afghanistan, Citrus, psbA-trnH spacer, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

The establishment of a modern fruit culture in developing countries requests an accurate evaluation of the preexisting germplasm and its health status. This to prevent the possibility to introduce new germplasm which can be easily prey of the endemic diseases carried by asymptomathic host plants. Therefore, after the identification of cases of citrus plants affected by Tristeza virus, a survey of the germplasm cultivated in the Nangarhar valley and some nearby regions was run. The survey was focussed on the identification of the main Citrus species widely cultivated using barcoding analysis of conserved sequences located in the plastid DNA. The sequences of matK and rbcl genes did not show any discriminatory ability while the analysis of the the non-coding psbA-trnH intergenic spacer (psbA-trnH) showed a robust single nucleotide polymorphism (sNP) discriminating C. aurantium from C. sinensis in all analysed samples. These non-coding regions have no known function; thus, much of the variation may result from the spread of mutations unconstrained by selection. Because nucleotide variation in the psbA-trnH spacer region is high, mutational hot spots may be useful to detect species-level variations. According to our study, the afghan citrus germplasm belong to the C. aurantium species which is commonly used in citrus culture as a rootstock. In Afghanistan it is widely cultivated for fresh consumption, without topworking with selected varieties and this may be the reason why symptoms are often mild and cultivation can be anyhow carried on.

Published

2019

27. Tal1NXtc01 in Xanthomonas translucens pv. cerealis Contributes to Virulence in Bacterial Leaf Streak of Wheat

Author

Syed Mashab Ali Shah, Fazal Haq, Wenxiu Ma, Xiameng Xu, Sai Wang, Zhengyin Xu, Lifang Zou, Bo Zhu, and Gongyou Chen

Subjects

bacterial leaf streak, Xanthomonas translucens pv. cerealis, SMRT sequencing, TALE, T3SS, virulence, Microbiology, QR1-502

Abstract

Xanthomonas translucens pv. cerealis (Xtc) causes bacterial leaf streak (BLS) of important cereal crops, including wheat (Triticum aestivum) and barley (Hordeum vulgare). Transcription activator-like effectors (TALEs) play vital roles in many plant diseases caused by Xanthomonas spp., however, TALEs have not been previously characterized in Xtc. In this study, the whole genome of NXtc01, a virulent strain of Xtc from Xinjiang, China, was sequenced and compared with genomes of other Xanthomonas spp. Xtc NXtc01 consists of a single 4,622,298 bp chromosome that encodes 4,004 genes. Alignment of the NXtc01 sequence with the draft genome of Xtc strain CFBP 2541 (United States) revealed a single giant inversion and differences in the location of two tal genes, which were designated tal1 and tal2. In NXtc01, both tal genes are located on the chromosome, whereas tal2 is plasmid-encoded in CFBP 2541. The repeat variable diresidues (RVDs) at the 12th and 13th sites within Tal2 repeat units were identical in both strains, whereas Tal1 showed differences in the third RVD. Xtc NXtc01 and CFBP 2541 encoded 35 and 33 non-TALE type III effectors (T3Es), respectively. tal1, tal2, and tal-free deletion mutants of Xtc NXtc01 were constructed and evaluated for virulence. The tal1 and tal-free deletion mutants were impaired with respect to symptom development and growth in wheat, suggesting that tal1 is a virulence factor in NXtc01. This was confirmed in gain-of-function experiments that showed the introduction of tal1, but not tal2, restored virulence to the tal-free mutant. Furthermore, we generated a hrcC deletion mutant of NXtc01; the hrcC mutant was non-pathogenic on wheat and unable to elicit a hypersensitive response in the non-host Nicotiana benthamiana. Our data provide a platform for exploring the roles of both TALEs and non-TALEs in promoting BLS on wheat.

Published

2019

28. Erratum to 'Numerical Analysis of Fractional Order Epidemic Model of Childhood Diseases'

Author

Fazal Haq, Muhammad Shahzad, Shakoor Muhammad, Hafiz Abdul Wahab, and Ghaus ur Rahman

Subjects

Mathematics, QA1-939

Published

2018

29. Computational Analysis of Complex Population Dynamical Model with Arbitrary Order

Author

Fazal Haq, Kamal Shah, Ghaus ur Rahman, Yongjin Li, and Muhammad Shahzad

Subjects

Electronic computers. Computer science, QA75.5-76.95

Abstract

This paper considers the approximation of solution for a fractional order biological population model. The fractional derivative is considered in the Caputo sense. By using Laplace Adomian decomposition method (LADM), we construct a base function and provide deformation equation of higher order in a simple equation. The considered scheme gives us a solution in the form of rapidly convergent infinite series. Some examples are used to show the efficiency of the method. The results show that LADM is efficient and accurate for solving such types of nonlinear problems.

Published

2018

30. Numerical Analysis of Fractional Order Epidemic Model of Childhood Diseases

Author

Fazal Haq, Muhammad Shahzad, Shakoor Muhammad, Hafiz Abdul Wahab, and Ghaus ur Rahman

Subjects

Mathematics, QA1-939

Abstract

The fractional order Susceptible-Infected-Recovered (SIR) epidemic model of childhood disease is considered. Laplace–Adomian Decomposition Method is used to compute an approximate solution of the system of nonlinear fractional differential equations. We obtain the solutions of fractional differential equations in the form of infinite series. The series solution of the proposed model converges rapidly to its exact value. The obtained results are compared with the classical case.

Published

2017

31. Nystagmus in Laurence-Moon-Biedl Syndrome

Author

A. Bruce Janati, Naif Saad ALGhasab, Fazal Haq, Ahmad Abdullah, and Aboubaker Osman

Subjects

Ophthalmology, RE1-994

Abstract

Introduction. Laurence-Moon-Biedl (LMB) syndrome is a rare autosomal-recessive ciliopathy with manifold symptomatology. The cardinal clinical features include retinitis pigmentosa, obesity, intellectual delay, polydactyly/syndactyly, and hypogenitalism. In this paper, the authors report on three siblings with Laurence-Moon-Biedl syndrome associated with a probable pseudocycloid form of congenital nystagmus. Methods. This was a case study conducted at King Khaled Hospital. Results. The authors assert that the nystagmus in Laurence-Moon-Biedl syndrome is essentially similar to idiopathic motor-defect nystagmus and the nystagmus seen in optic nerve hypoplasia, ocular albinism, and bilateral opacities of the ocular media. Conclusion. The data support the previous hypothesis that there is a common brain stem motor abnormality in sensory-defect and motor-defect nystagmus.

Published

2015

32. A Computational Modeling Based on Trigonometric Cubic B-Spline Functions for the Approximate Solution of a Second Order Partial Integro-Differential Equation.

Author

Arshed Ali, Kamil Khan, Fazal Haq, and Syed Inayat Ali Shah

Published

2019

33. Dynamics of an SAIQR influenza model of fractional order via convex incidence rate.

Author

Ghaus ur Rahman, Ahmet Yildirim, Fazal Haq, and Emile F. Doungmo Goufo

Published

2020

34. Study on fully cross-linked poly(cyclotriphosphazene-co-epigallocatechin) nanospheres and their application as drug delivery carriers

Author

Sahid Mehmood, Md Alim Uddin, Haojie Yu, Li Wang, Bilal Ul Amin, Fazal Haq, Shah Fahad, and Muhammad Haroon

Subjects

Polymers and Plastics, General Chemical Engineering, Analytical Chemistry

Published

2023

35. Growth and yield enhancement of carrot through integration of NPK and organic manures

Author

Kiran, Mehwish, Jilani, Muhammad Saleem, Kashif Waseem, Fazal Haq, Khan, Muhammad Sohail, Nadeem, Muhammad Amjad, Khalid Rahman, Ghazanfar Ullah, and Kashif Hussain

Subjects

Carrot, NPK, otal biomass, organic manures, root length, Original Research Papers, root weight

Abstract

A pot experiment was conducted at Horticulture Experimental Area, Gomal University, Dera Ismail Khan, Pakistan to investigate the combined effects of NPK and organic manures on growth and yield of carrot, for two consecutive years. The experiment was laid out in CRD with six treatments and four replications. Five different organic manures such as poultry manure (PM), sewage sludge (SS), farmyard manure (FYM), press mud (PrM) and goat manure (GM) were applied in combination with NPK, each at recommended levels for two successive years. A fertilizer check (control) was also included as treatment where no fertilizer and manure were used. The study revealed significant improvements in almost all growth and yield attributes by combined application of NPK and organic manures. Among different combinations, NPK + PM surpassed all other treatments by giving maximum leaves per plant (8.73 and 8.13), leaf length (38.17 and 36.77cm), root length (29.30 and 24.83cm), root diameter (3.10 and 3.27cm), root weight per plant (142.40 and 142.00g), total biomass per plant (169.33 and 166.67g) and root yield (56.67 and 56.83 t/ha), during both the experimental years. Similarly, NPK combination with green manure and sewage sludge also produced better results pertaining to carrot growth and production for two consecutive years. It was also observed during the study that control treatment showed poorest findings and placed at lowest levels.

Published

2022

36. Numerical Investigation of Irreversibility in Bioconvective Flow of Sisko Nanofluid with Arrhenius Energy

Author

Muzher Saleem, Fazal Haq, Asad Ullah, Mujeeb ur Rahman, and Omar T. Bafakeeh

Subjects

Computational Theory and Mathematics, Physical and Theoretical Chemistry, Computer Science Applications

Abstract

This paper investigates modeling and analysis of entropy generation in bioconvective non-radiative Sisko nanofluid flow by stretchable cylinder. Momentum relation is modeled in view of Darcy Forchheimer and porosity effects. Dissipation, Joule heating and heat generation impacts are accounted in energy relation. Mass concertation communication is constructed in manifestation of Arrhenius energy and chemical reaction. Brownian dispersion and thermophoretic effects of solid nanoparticles in Sisko liquid are stabilized by self-propelled gyrotactic microorganisms. The flow governing model is obtained utilizing boundary layer concepts. Fluid transport equations are made dimensionless via transformations and then tackled by NDSolve code in Mathematica package. Variation in transport properties versus effective parameters is examined via graphs and tables. It is perceived from obtained results that Sisko nanofluid velocity decays versus higher curvature parameter, Hartman number, porosity and Forchheimer variable. Further, it is observed that temperature distribution enhances for heat generation variable, Eckert number, Brownian movement variable, thermophoresis motion parameter and Prandtl number. Main observations are listed in the end.

Published

2022

37. Studies on the Synthesis and Drug Release Behavior of Cross-Linked Poly(cyclotriphosphazene-co-fluorescein) Microspheres

Author

Sahid Mehmood, Haojie Yu, Li Wang, Jian Hu, Md Alim Uddin, Bilal Ul Amin, Fazal Haq, Shah Fahad, Muhammad Haroon, Di Shen, and Jinming Xu

Subjects

Environmental Engineering, Polymers and Plastics, Materials Chemistry

Published

2022

38. Determination of Antioxidant Activity of Acacia Nilotica Linn from different Regions of Baluchistan (Pakistan)

Author

Muhammad Haroon, Zainab Ali Ahmad, Naeem Ullah, Fazal Haq, Muhammad Junaid, Amir Zeb, Mehwish Kiran, Sahid Mehmood, Farzana Kamalan, and Aisha Hamid

Abstract

Free radicals are naturally occurring species with unpaired electrons that are formed during normal metabolic processes. Their formation in a high amount may cause oxidation of essential structural molecules of cell, the condition is known as oxidative stress which results in several health issues such as cancer, diabetes, heart diseases, inflammatory diseases, arthritis and a lot more. To overcome these effects, antioxidants, both synthetic and natural ones are consumed by people. Due to recent evidences about the long term harmful effects of synthetic antioxidants the interest towards the natural sources has increased. The aim of the current research is to comparatively analyze the antioxidant activity of acacia Nilotica Linn samples collected from different regions of Makran by using 2, 2-diphenyl-1-picrylhydrazyl(DPPH) assay on which no work has been done so far. The DPPH assay of the samples gave the following results with antioxidant activity values as 18.51851%, 4.47761%, and 8.25958% for the samples of acacia Nilotica Linn from Shahrak, acacia from Turbat, acacia from Pedrak. The results revealed that acacia Nilotica Linn from Shahrak exhibits maximum free radical scavenging activity. More work on chemical composition of the tested samples has to be done.

Published

2022

39. Cross-Linked Poly(cyclotriphosphazene-co-phloretin) Microspheres and Their Application for Controlled Drug Delivery

Author

Sahid Mehmood, Haojie Yu, Li Wang, Md Alim Uddin, Bilal Ul Amin, Fazal Haq, Shah Fahad, and Muhammad Haroon

Subjects

Polymers and Plastics, General Chemical Engineering, Organic Chemistry, Materials Chemistry

Published

2022

40. Study on Synthesis, Burning Rate Catalytic and Anti-migration Properties of Ferrocene-Based Furan and Triazole Derivatives

Author

Bilal Ul Amin, Haojie Yu, Li Wang, Shah Fahad, Ahsan Nazir, Fazal Haq, Sahid Mehmood, Md Alim Uddin, Ruixue Liang, Jinyi Liu, Xuefei Li, and Lei Ding

Subjects

General Chemistry, Catalysis

Published

2022

41. Cyclo-matrix Poly(cyclotriphosphazene-co-kaempferol) Microspheres: Synthesis, Characterization, EPR Study and Their Controlled Drug Release Application

Author

Sahid Mehmood, Fazal Haq, Mehwish Kiran, Farman Ali, Tariq Aziz, Arshad Farid, and Muhammad Haroon

Subjects

Environmental Engineering, Polymers and Plastics, Materials Chemistry

Published

2023

42. Prevalence of Gestational Ovarian Cysts Detected by Ultrasound

Author

Zeeshan Ahmad, Fazal Haq, Bilal Bahadar, and Ifthekhar Ahmad

Abstract

OBJECTIVES To determine the prevalence of gestational ovarian cyst form in the early pregnancy or during first trimester that may contribute to the formation of ovarian cyst in pregnancy. METHODOLOGY Data collected through patient’s demographic history and questionnaire. For each case the patient’s ultrasound images were evaluated to determine the type of cyst, ultrasound appearance, with their rates and location. RESULTS Out of 111 patients were included in the study, the total incidence of ovarian cyst (Corpus luteum) in pregnancy were 1.8%. The ovarian cyst through analysis was found in patients whose gestational age was in the range of first trimester to second trimester. Other 109 (98.1%) Patients with family history of ovarian cyst, Diabetes, Induction therapy and Obesity found no cystic lesion. Patients included in this study were between the age of 18-48 Years CONCLUSION The outcome of this study has shown that prevalence of ovarian cyst in pregnancy is very less because ovarian cyst that form in the first trimester usually resolve itself without given any medication or resection treatment. Obstetric ultrasound has been found to be accurate in figuring out simple, solid, and complex type of cyst in pregnancy.

Published

2022

43. Frequency of Goiter in Hospitalized Patients of District Headquarters Hospital, Timergara

Author

Wahid Ullah, Fazal Haq, Zeeshan Ahmad, and Syed ishtiaq Ahmad

Abstract

OBJECTIVES The aim of this study was to determine the frequency of goiter among the population of Timergara, Lower Dir. METHODOLOGY A retrospective study was carried out at the district headquarters hospital Timergara hospital of district lower dir. The study duration was one year from January 2018 to December 2018. The data were collected from 205 patients in the district headquarters hospital Timergara district lower dir. the clinical data of patients were collected through proforma. It was approved by the research committee of the Department of the surgical, institute of paramedical sciences, Khyber medical university Peshawar Duranpur Khyber Pakhtunkhwa, Pakistan. Percentage and frequencies have been used to determine the frequency of goiter at district lower dir. SPSS version 22 was used for data analysis. RESULTS This study shows that goiter is most frequently occurring in females as compared to males. out of 205 patients with goiter 58 patients were male and 147 were female. Female frequency was higher than male. Secondly, it was observed that goiter is more frequent in people aged 35 -44. i.e., out of 205 patients, 37.1% were in this age group. patients having goiter were mostly from hilly areas (61.5%). It was also observed in this study large number of patients were having visible goiter of grade two. CONCLUSION It was concluded that goiter most of the females and older population are suffering from the goiter.

Published

2022

44. Preparation of size-controlled poly(cyclotriphosphazene-co-resveratrol) microspheres and their properties as drug delivery carriers

Author

Sahid Mehmood, Md Alim Uddin, Haojie Yu, Li Wang, Bilal Ul Amin, Fazal Haq, Shah Fahad, and Muhammad Haroon

Subjects

Polymers and Plastics, General Chemical Engineering, Materials Chemistry

Published

2022

45. Study on synthesis of cross-linked poly(cyclotriphosphazene-co-luteolin) nanospheres and their properties for controlled drug delivery

Author

Sahid Mehmood, Md Alim Uddin, Haojie Yu, Li Wang, Bilal Ul Amin, Fazal Haq, Shah Fahad, and Muhammad Haroon

Subjects

Colloid and Surface Chemistry, Polymers and Plastics, Materials Chemistry, Physical and Theoretical Chemistry

Published

2022

46. Theoretical investigation of radiative viscous hybrid nanofluid towards a permeable surface of cylinder

Author

Fazal Haq, M. Ijaz Khan, E.R. Moustafa El-Zahar, Sami Ullah Khan, Shahid Farooq, and Kamel Guedri

Subjects

General Physics and Astronomy

Published

2022

47. Development of thixotropic nanomaterial in fluid flow with gyrotactic microorganisms, activation energy, mixed convection.

Author

Muhammad Ijaz Khan, Fazal Haq, Sohail A. Khan, Tasawar Hayat, and M. Imran Khan

Published

2020

48. Darcy-Forchheimer Flow of Magnetized Bioconvective Williamson Nanofluid with Variable Thermal Conductivity

Author

Fazal Haq, Muzher Saleem, Essam-Roshdy El-Zahar, Soumaya Gouadria, and M. Ijaz Khan

Subjects

Electrical and Electronic Engineering, Condensed Matter Physics, Electronic, Optical and Magnetic Materials

Published

2021

49. Factors affecting Coronavirus Disease Outcome in Patients Admitted at Saidu Teaching Hospital, Swat

Author

Rahmat Ali Khan, Muhammad Naem Awan, Fawad Ali, null Attaullah, Fazal Haq, Nisar Khan, and Fazal Wahab

Abstract

OBJECTIVES: The study aimed to investigate the factors affecting corona virus disease outcome of patient admitted to critical care units of Saidu Teaching Hospital Swat. METHODOLOGY: A retrospective cohort study design used for the study. The study was conducted in Saidu Teaching Hospital Swat, from 23rd March 2020 till 2nd June 2020 and followed till 30th June 2020. Consecutive/census sampling technique was used in the study. Total 125 patients were sampled in which 99 (79%) were male and 26 (21%) were female. Out of 125 patients 63 were discharged from hospital and 62 died in hospital. RESULTS: Mean age of the participants was 56.25 years with standard deviation of 14.45 years. The statistical difference was observed between outcomes of comorbidity in comparison to no comorbidity with P-value (0.001). Oxygen saturation significantly affected outcome in this study. The mean saturation results show that there was statistical difference in outcome of the patient presented with oxygen saturation either high or low. CONCLUSION: Older age, comorbidity, high white blood cells count, increased blood urea, serum creatinine, increased D-Dimer level are associated factor for mortality in coronavirus diseased patients.

Published

2021

50. Role of Starch Based Materials as a Bio-sorbents for the Removal of Dyes and Heavy Metals from Wastewater

Author

Kashif Waseem, Tariq Aziz, Muhammad Haroon, Fazal Haq, Sahid Mehmood, Mehwish Kiran, and Arshad Farid

Subjects

Environmental Engineering, Materials science, Polymers and Plastics, Starch, food and beverages, Nanoparticle, Heavy metals, Phosphate, Modified starch, chemistry.chemical_compound, Adsorption, chemistry, Wastewater, Chemical engineering, Self-healing hydrogels, Materials Chemistry

Abstract

Native starch has low adsorption ability due to lack of specific functional groups. To increase the adsorption efficiency of native starch, it needs to be chemically modified. The modification produces specific functional groups on the backbone of starch and increases its adsorption efficacy towards dyes and heavy metals. The modified starch-based adsorbents (succinylated starches, starch phosphate, starch-based composites and nanoparticles, starch-based hydrogels, cross-linked and carboxylated starches and so on) are more useful due to their large surface area, available polar sites and reproducibility in the degree of activation. In this review article we have discussed the application of modified starches as sorbents for the removal of dyes and heavy metals from wastewater. It further highlighted the optimized conditions used for the removal of heavy metals and dyes by the modified starches and the interactions generated between the adsorbent and adsorbate. This article presented the most recent literature and will spark new ideas for researchers working in this field.

Published

2021