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582 results on '"Mehdi Rashidi"'

1. Dopamine- and Grape-Seed-Extract-Loaded Solid Lipid Nanoparticles: Interaction Studies between Particles and Differentiated SH-SY5Y Neuronal Cell Model of Parkinson’s Disease

Author

Rosanna Mallamaci, Debora Musarò, Marco Greco, Antonello Caponio, Stefano Castellani, Anas Munir, Lorenzo Guerra, Marina Damato, Giuseppe Fracchiolla, Chiara Coppola, Rosa Angela Cardone, Mehdi Rashidi, Roberta Tardugno, Sara Sergio, Adriana Trapani, and Michele Maffia

Subjects
Parkinson’s disease, dopamine, solid lipid nanoparticles, grape seed extract, alpha-synuclein, oxidative stress, Organic chemistry, QD241-441
Abstract

Parkinson’s disease (PD) is a prevalent neurodegenerative disorder, primarily associated with dopaminergic neuron depletion in the Substantia Nigra. Current treatment focuses on compensating for dopamine (DA) deficiency, but the blood–brain barrier (BBB) poses challenges for effective drug delivery. Using differentiated SH-SY5Y cells, we investigated the co-administration of DA and the antioxidant Grape Seed Extract (GSE) to study the cytobiocompability, the cytoprotection against the neurotoxin Rotenone, and their antioxidant effects. For this purpose, two solid lipid nanoparticle (SLN) formulations, DA-co-GSE-SLNs and GSE-ads-DA-SLNs, were synthesized. Such SLNs showed mean particle sizes in the range of 187–297 nm, zeta potential values in the range of −4.1–−9.7 mV, and DA association efficiencies ranging from 35 to 82%, according to the formulation examined. The results showed that DA/GSE-SLNs did not alter cell viability and had a cytoprotective effect against Rotenone-induced toxicity and oxidative stress. In addition, this study also focused on the evaluation of Alpha-synuclein (aS) levels; SLNs showed the potential to modulate the Rotenone-mediated increase in aS levels. In conclusion, our study investigated the potential of SLNs as a delivery system for addressing PD, also representing a promising approach for enhanced delivery of pharmaceutical and antioxidant molecules across the BBB.

Published
2024
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2. The Perception of Employee Exclusion and Knowledge Concealment: The Moderating Role of Job Stress and Job Independence (Case Study: South Khorasan General Customs Department)

Author

Mehdi Rashidi, Zahra Masoumi Bilondi, and Morteza SalehPour

Subjects
perceived employees', ostracism, knowledge hiding, job stress, job autonomy, Management. Industrial management, HD28-70
Abstract

Considering the importance of knowledge management and the investigation of factors related to the phenomenon of knowledge concealment, the present research was conducted with the aim of investigating the effect of employees' perception of exclusion on knowledge concealment with the moderating role of job stress and job independence. This research is applied in terms of purpose and descriptive and correlational in terms of data collection method. The statistical population of the research was considered to be the employees of the General Administration of South Khorasan Customs. 150 people were working in this general office in 2022, and according to Morgan's table, 108 of them were selected by simple random sampling. To collect data, standard questionnaires of knowledge concealment, perceived rejection, job stress, and job independence were used, and the validity and reliability of these tools were checked through face validity and construct validity (convergent and divergent validity) and calculation of Cronbach's alpha coefficient and composite reliability ( CR) were confirmed. Data were analyzed using descriptive methods and structural equation modeling using SPSS15 and Smart PLS3 statistical software. The findings of the research showed that the perception of employee rejection causes knowledge concealment, and the moderating role of job autonomy was confirmed in the effect of these two variables on each other, but job stress did not have a moderating role in the effect of employee rejection perception on knowledge concealment. According to the results of this research, it can be stated that in order to prevent the phenomenon of knowledge hiding in the organization, managers should behave in such a way that the employees do not feel left out and considering that the variable of job independence in this Communication had a moderating role and reduces the concealment of knowledge, so it is suggested to increase the independence and autonomy of employees in the design or redesign of organizational jobs in cases where other conditions are also available

Published
2022

3. The role of milk-derived exosomes in the treatment of diseases

Author

Mehdi Rashidi, Salar Bijari, Amir Hossein Khazaei, Fereshteh Shojaei-Ghahrizjani, and Leila Rezakhani

Subjects
milk-derived exosome, clinical applications, exosome isolation, natural nanovesicles, diseases, Genetics, QH426-470
Abstract

Exosomes (EXOs) are natural nanoparticles of endosome origin that are secreted by a variety of cells in the body. Exosomes have been found in bio-fluids such as urine, saliva, amniotic fluid, and ascites, among others. Milk is the only commercially available biological liquid containing EXOs. Proof that exosomes are essential for cell-to-cell communication is increasingly being reported. Studies have shown that they migrate from the cell of origin to various bioactive substances, including membrane receptors, proteins, mRNAs, microRNAs, and organelles, or they can stimulate target cells directly through interactions with receptors. Because of the presence of specific proteins, lipids, and RNAs, exosomes act in physiological and pathological conditions in vivo. Other salient features of EXOs include their long half-life in the body, no tumorigenesis, low immune response, good biocompatibility, ability to target cells through their surface biomarkers, and capacity to carry macromolecules. EXOs have been introduced to the scientific community as important, efficient, and attractive nanoparticles. They can be extracted from different sources and have the same characteristics as their parents. EXOs present in milk can be separated by size exclusion chromatography, density gradient centrifugation, or (ultra) centrifugation; however, the complex composition of milk that includes casein micelles and milk fat globules makes it necessary to take additional issues into consideration when employing the mentioned techniques with milk. As a rich source of EXOs, milk has unique properties that, in addition to its role as a carrier, promotes its use in treating diseases such as digestive problems, skin ulcers, and cancer, Moreover, EXOs derived from camel milk are reported to reduce the risk of oxidative stress and cancer. Milk-derived exosomes (MDEs) from yak milk improves gastrointestinal tract (GIT) development under hypoxic conditions. Furthermore, yak-MDEs have been suggested to be the best treatment for intestinal epithelial cells (IEC-6 cell line). Because of their availability as well as the non-invasiveness and cost-effectiveness of their preparation, isolates from mammals milk can be excellent resources for studies related to EXOs. These features also make it possible to exploit MDEs in clinical trials. The current study aimed to investigate the therapeutic applications of EXOs isolated from various milk sources.

Published
2022
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4. Woven g-Fusion Frames in Hilbert Spaces

Author

Maryam Mohammadrezaee, Mehdi Rashidi-Kouchi, Akbar Nazari, and Ali Oloomi

Subjects
frame, g-fusion frame, woven frame, weaving g-fusion frame, perturbation, Mathematics, QA1-939
Abstract

In this paper, we introduce the notion of woven g-fusion frames in Hilbert spaces. Then, we present sufficient conditions for woven g-fusion frames in terms of woven frames in Hilbert spaces. We extend some of the recent results of standard woven frames and woven fusion frames to woven g-fusion frames. Also, we study perturbations of woven g-fusion frames.

Published
2021
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5. Wavelet Sets on Locally Compact Abelian Groups

Author

Mehdi Rashidi-Kouchi

Subjects
wavelet, locally compact abelian group, wavelet set, multiresolution analysis, generalized scaling sets., Mathematics, QA1-939
Abstract

Introduction An orthonormal wavelet is a square-integrable function whose translates and dilates form an orthonormal basis for the Hilbert space . That is, given the unitary operators of translation for and dilation , we call an orthonormal wavelet if the set is an orthonormal basis for . This definition was later generalized to higher dimensions and to allow for other dilation and translation sets; let Hilbert space and an n × n expansive matrix A (i.e. a matrix with eigenvalues bigger than 1) with integer entries, then dilation operator is given by and the translation operator is given by for . A finite set is called multiwavelet if the set , is an orthogonal basis for . The concept of a multiresolution analysis, abbreviated as MRA is Central to the theory of wavelets. There is much overlaps between wavelet analysis and Fourier analysis. Indeed, wavelets can be thought of as non-trigonometric Fourier series. Thus, Fourier analysis is used as a tool to investigate properties of wavelets. Another concept is wavelet set. The term wavelet set was coined by Dai and Larson in the late 90s to describe a set W such that , the characteristic function of W, is the Fourier transform of an orthonormal wavelet on . At about the same time as the Dai and Larson paper, Fang and Wang first used the term MSF wavelet (minimally supported frequency wavelet) to describe wavelets whose Fourier transforms are supported on sets of the smallest possible measure. The importance of MSF wavelets as a source of examples and counterexamples has continued throughout wavelet history. A famous example due to Journe first showed that not all wavelets have an associated structure multiresolution analysis (MRA). The discovery of a non-MRA wavelet gave an important push to the development of more general structures such as frame multiresolution analyses (FMRAs) and generalized multiresolution analysis(GMRAs). In this paper we generalize wavelets and wavelet sets on locally compact Abelian group G with uniform lattice. Material and methods In this paper, we investigate wavelet sets on locally compact abelian groups with uniform lattice, where a uniform lattice H in LCA group G is a discrete subgroup of G such that the quotient group G/H is compact. So we review some basic facts from the theory of LCA groups and harmonic analysis. Then we define wavelet sets on these groups and characterize them by using of Fourier transform and multiresolution analysis. Results and discussion We extend theory of wavelet sets on locally compact abelian groups with uniform lattice. This is a generalization of wavelet sets on Euclidean space. We characterize wavelet sets by using of Fourier transform and multiresolution analysis. Also, we define generalized scaling sets and dimension functions on locally compact abelian groups and verify its relations with wavelet sets. Dimension functions for MSF wavelets are described by generalized scaling sets. In the setting of LCA groups, we define translation congruent and show wavelet sets are translation congruent, so we can define a map on G such that it is measurable, measure preserving and bijection. Conclusion The following conclusions were drawn from this research. Wavelet sets on locally compact groups by uniform lattice can be defined. This is a generalization of wavelet sets on Euclidean space. Characterization of wavelet sets on LCA groups can be done in different ways. A method is to use Fourier transform and translation congruent. Another way is to generaliz scaling set and dimension function. As an example, Cantor dyadic group is a non-trivial example that satisfies in the theory of wavelet sets on locally compact groups by uniform lattice. We find wavelet set and generalized scaling set for this group and show related wavelet is MRA wavelet../files/site1/files/63/7.pdf

Published
2020

6. Frames in super Hilbert modules

Author

Mehdi Rashidi-Kouchi

Subjects
Super Hilbert, Frame, G-Frame, Hilbert $C^*$-module, Mathematics, QA1-939
Abstract

In this paper, we define super Hilbert module and investigate frames in this space. Super Hilbert modules are generalization of super Hilbert spaces in Hilbert C*-module setting. Also, we define frames in a super Hilbert module and characterize them by using of the concept of g-frames in a Hilbert C*-module. Finally, disjoint frames in Hilbert C*-modules are introduced and investigated.

Published
2018

7. Novel Semisolid Design Based on Bismuth Oxide (Bi2O3) nanoparticles for radiation protection

Author

Hamid Shirkhanloo, Mostafa Safari, Seyed Mohammad Amini, and Mehdi Rashidi

Subjects
x-ray protection, x-ray absorbance, semisolid, bismuth oxide nanoparticles, radiotherapy, radiology, Medicine
Abstract

Objective(S): The dangerous effects of X-ray have been elucidated by scientific studies in occupational health hygiene. X-ray protective like an apron, thyroid shield and gloves have been made of lead (Pb) to protect against X-ray. However, such equipment makes a lot of safety and health problems such as toxicity, weight, inflexibility and troubles usage in a physician. To overcome such problems, X-ray absorbance’s such as semi-solids have been developed. Here in, an investigation was carried out to see whether the mixture of semi-solid material containing bismuth oxide nanoparticles. Methods: The mixture of semi-solid containing bismuth oxide nanoparticles was prepared based on the synthesis of bismuth oxide nanoparticles and formulation of semisolid. The bismuth oxide nanoparticles were prepared via synthesis method intermediating sorbitol with optimized conditions. In X-ray dosimeter test, the protective effect of bismuth oxide nanoparticles in semisolid was evaluated in comparison to lead adsorbents when all conditions were similar (P Results: X-ray absorbance efficiency of bismuth nanoparticles dispersed in semisolids was more efficient than conventional lead absorbance. The percentage of X-ray absorption in the ointment of bismuth oxide nanoparticles is 56.79 while the absorption value in the 0.5-millimeter lead is between 40% and 42%. Conclusions: The X-ray absorbent based on semi-solid containing bismuth oxide nanoparticles has many advantages in comparison to conventional lead absorbent such as; high surface area, low amount of sorbent, easy usage, high efficiency of X-ray absorbance, and lower toxic effect on the environment.

Published
2017
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9. Some relationship between G-frames and frames

Author

Mehdi Rashidi-Kouchi and Akbar Nazari

Subjects
Frame, g-frame, Hilbert C*-module, g-frame operator, Bounded operator, Mathematics, QA1-939
Abstract

In this paper we proved that every g-Riesz basis for Hilbert space $H$ with respect to $K$ by adding a condition is a Riesz basis for Hilbert $B(K)$-module $B(H,K)$. This is an extension of [A. Askarizadeh,M. A. Dehghan, {em G-frames as special frames}, Turk. J. Math., 35, (2011) 1-11]. Also, we derived similar results for g-orthonormal and orthogonal bases. Some relationships between dual frame, dual g-frame and exact frame and exact g-frame are presented too.

Published
2015

10. Extension of shift-invariant frames for locally compact abelian groups

Author

Mehdi Rashidi and Akbar Nazari

Subjects
Mathematics, QA1-939
Abstract

Let G be a locally compact abelian group with a uniform lattice sub- group. In this paper, we verify extension of shift-invariant systems in L2(G) to tight frames. We show that any shift-invariant Bessel sequence with an at most countable number of generators in L2(G) can be extended to a tight frame for its closed linear span by adding another shift-invariant system with at most the same number of generators in L2(G). Also, we yield an extension of the given Bessel sequence to a pair of dual frame sequences

Published
2014

11. Designing and explaining the model of knowledge workers’ retention with emphasis on HRM practices

Author

Reza Rasouli, Alireza Mooghali, Mohammad Mousavi, and Mehdi Rashidi

Subjects
Knowledge workers, Intent to stay, Retention, HRM practices, Business records management, HF5735-5746
Abstract

This study identifies the relationship between human resource management practices and job satisfaction, organizational commitment, trust in management and intention to stay of knowledge workers and to investigate the predictability of their intent to stay with HRM practices through the intermediary variables of job satisfaction, organizational commitment and trust in management in surveyed organizations. Standard questionnaires are used to measure the variables. In addition, to gather data, stratified random sampling of faculty members in colleges and higher education institutions in South Khorasan province of Iran, was accomplished. The results obtained in method of path analysis with AMOS software show that HRM practices including the development of skills, compensation, opportunity to participate, organizational support and procedural justice are able to anticipate intend to stay through job satisfaction, organizational commitment and trust in management. Among them, organizational support has a direct effect and the strongest indirect effect on the intention to stay of knowledge workers.

Published
2013

12. Continuous g-Frame in Hilbert C∗-Modules

Author

Mehdi Rashidi Kouchi and Akbar Nazari

Subjects
Mathematics, QA1-939
Abstract

We give a generalization of g-frame in Hilbert C∗-modules that was introduced by Khosravies then investigated some properties of it by Xiao and Zeng. This generalization is a natural generalization of continuous and discrete g-frames and frame in Hilbert space too. We characterize continuous g-frame g-Riesz in Hilbert C∗-modules and give some equality and inequality of these frames.

Published
2011
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15. Understanding the performance of bridge decks through full-scale accelerated testing

Author

Mehdi Rashidi, Hoda Azari, John Braley, and Robert Zobel

Subjects
Safety, Risk, Reliability and Quality
Abstract

Understanding the long-term performance of bridges plays a major role in the selection of appropriate asset-management strategies, which eventually reduce life-cycle costs and extend the service life of a bridge. To understand bridge performance better, the Federal Highway Administration initiated a research project utilising accelerated testing of full-scale bridge superstructure systems subjected to cyclic moving wheel loads and freeze–thaw environmental conditions. As part of the research project, complementary non-destructive evaluation (NDE) techniques were used to assess the performance of a full-scale bridge deck during the curing and loading period. NDE results, shortly after construction, revealed a smaller cover depth of rebars in the middle section of the deck. This has likely created a preferential path for the subsequent deterioration of the deck. It was suggested to use a scaled version of the electrical resistivity (ER) values to improve the consistency between temporal ER measurements of the deck, and it was shown that combining construction information with NDE results can improve the interpretation of results. Overall, the results showed the importance of NDE for quality assurance of new construction and provided a better understating of the long-term bridge deck performance.

Published
2023

20. Magnetorheological damper parameter identification using a novel metaheuristic algorithm

Author

Mehdi Rashidi Meybodi, Arash Bahar, Francesc Pozo, Universitat Politècnica de Catalunya. Departament de Matemàtiques, and Universitat Politècnica de Catalunya. CoDAlab - Control, Dades i Intel·ligència Artificial

Subjects
General Mathematics, General Engineering, Matemàtiques i estadística [Àrees temàtiques de la UPC], Algorismes, Algorithms
Abstract

In this study, a new optimization algorithm is proposed based on swarm intelligence theory. In the algorithm, the movement of each individual toward the best member of the population is not represented as a linear vector; instead, it can change nonlinearly according to the discrete-time that is represented by the iteration number. By implementing this change, the speed of each member of the population can be controlled, which results in finding a better solution. As there is a dependency on the iteration number, it is named the Iteration Dependent Optimizer (IDO). The performance of the proposed algorithm is evaluated based on unconstrained unimodal and multimodal benchmark functions and constrained engineering optimization problems. Then the algorithm is used to solve a practical problem in civil engineering, in which unknown parameters of the model of a large-scale magnetorheological (MR) damper, which is commonly used in structural control, are identified. The results of statistical study and direct comparisons demonstrate the advantages and capabilities of the proposed model and indicate that IDO can compete favorably with some other well-studied algorithms.

Published
2022

27. Effectiveness of low-dose radiation therapy to improve mortality in coronavirus disease (COVID-19): A Systematic Review and Meta-Analysis

Author

Sahar Sayfollahi, Zeinab Momeni, Sakineh Bagherzadeh, Foad Goli-Ahmadabad, Amin Banaei, Mehdi Rashidi, and Salar Bijari

Abstract

Background Before antibiotics were available, X-ray therapy was used to treat pneumonia, but its effectiveness is unknown. It was not fully understood how low-dose radiation could reduce inflammation in early attempts to treat pneumonia with X-rays. Exposure to low-dose radiation therapy (LDRT) may activate anti-inflammatory molecules such as TGF-b1 and IL-10. This systematic review and meta-analysis aimed to determine whether LDRT effectively treats COVID-19-associated pneumonia. Methods This study followed the PRISMA guidelines (Principles for Reporting Systematic Reviews and Meta-Analyses). A search was conducted on Google Scholar and PubMed for articles published before June 12, 2022. The Newcastle–Ottawa Scale (NOS) was used to evaluate the included research quality. Results In these studies, patients were given lung radiation at doses ranging from 0.5 to 1.5 Gy. Except for one study, all clinical, radiological, and survival outcomes improved. The study showed that whole-lung radiation at doses of 0.5–1.5 Gy was beneficial to patients with COVID-19-associated pneumonia who were oxygen-dependent. In these studies, the reported SR was 59% (95% CI, 44–75%). Conclusions LDRT has the potential to be a viable therapy option, although large-scale randomized trials are necessary, particularly in the elderly, who are more at risk of mortality from COVID-19.

Published
2022

28. Efficient Heat Transfer Augmentation in Channels with Semicircle Ribs and Hybrid Al

Author

Hussein, Togun, Raad Z, Homod, Zaher Mundher, Yaseen, Azher M, Abed, Jameel M, Dhabab, Raed Khalid, Ibrahem, Sami, Dhahbi, Mohammad Mehdi, Rashidi, Goodarz, Ahmadi, Wahiba, Yaïci, and Jasim M, Mahdi

Abstract

Global technological advancements drive daily energy consumption, generating additional carbon-induced climate challenges. Modifying process parameters, optimizing design, and employing high-performance working fluids are among the techniques offered by researchers for improving the thermal efficiency of heating and cooling systems. This study investigates the heat transfer enhancement of hybrid "Al

Published
2022

29. A review on applications of solar energy for preheating in power plants

Author

Mohammad Mehdi Rashidi, Mohammad Alhuyi Nazari, Mamdouh El Haj Assad, Khalid Almutairi, Mohamed Salem, and Sanjeevikumar Padmanaban

Subjects
Power station, business.industry, General Engineering, Thermal power station, Steam turbine, Engineering (General). Civil engineering (General), Thermal energy storage, Solar energy, Brayton cycle, Power plant, Renewable energy, Preheating, Gas turbine, Fuel efficiency, Environmental science, TA1-2040, Process engineering, business, Degree Rankine
Abstract

One of the main approaches for performance improvement of thermal power plants is employing preheating units. Preheating the air or stream in Brayton or Rankine cycles can significantly improve the overall efficiency output power. Solar energy, as an available renewable energy, is an attractive option to be employed as the source of preheating. In the present article, applications of solar energy for preheating air and steam in thermal power plants are reviewed. According to reviews, enhancement in the performance of the systems is under influence of several factors such as the configuration of reference system, operating condition, applied technology etc. Besides performance enhancement of the power plant, integration of solar preheating system can remarkably reduce the fuel consumption and consequently the emission of carbon dioxide. Furthermore, due to the unavailability of the solar energy in nigh and cloudy hours, applying thermal storage units can enhance the reliability of the system and increase contribution of solar energy in the output of the system.

Published
2022

31. Experimental research of active control optimization on a 3/4 open-jet wind tunnel’s jet section

Author

Mohammad Mehdi Rashidi, L. Huang, J. Xu, Z. Yang, Q. Jia, and Y. Zhu

Subjects
Physics, Jet (fluid), Scaled wind tunnel test, 020209 energy, Nozzle, Buffeting, General Engineering, Spectral density, 02 engineering and technology, Mechanics, Aeroelasticity, Engineering (General). Civil engineering (General), 01 natural sciences, Synthetic jet actuator, 010305 fluids & plasmas, Quality (physics), 0103 physical sciences, Turbulence kinetic energy, 0202 electrical engineering, electronic engineering, information engineering, Shear layer of jets, TA1-2040, Excitation, Wind tunnel
Abstract

A 1:15 3/4 open-jet scaled wind tunnel was used for experimental test. By arranging the synthetic jet actuator around the nozzle, the experimental method was used to analyze the flow field after the active flow control was implemented. The effects of the excitation frequency f J of different input signals and the excitation velocity V 0 of different jet nozzles on the jet shear layer and the flow field in the test section were studied. The obtained results showed that when the excitation frequency of the synthetic jet actuator ( f J ) was 40 Hz and excitation velocity ( V 0 ) equaled to 10 m/s, the turbulence intensity of each measurement point was the highest among all excitation frequencies, and the flow field had a peak near 19–20 Hz, which was the sensitive frequency of buffeting. The highest power spectral density of this frequency peak was nearly ten times higher than the original working condition, which meant that this control scheme will aggravate the buffeting phenomenon. For f J = 140 Hz and V 0 = 15 m/s, it only had a high PSD peak at 19–20 Hz near the measurement point 15 of the collector. The overall control effect of this scheme is better than other schemes. Therefore, it can significantly suppress the buffeting phenomenon of the wind tunnel and improve the flow field quality of the test section.

Published
2021

33. Determining the Effect of Ashwagandha Plant Powder on Men with Semen Disorders

Author

Ali Mohammad Mirjalili, Majid Emtiazy, Mahmood Khodadoost, Hossien Fallahzadeh, and Mehdi Rashidi

Subjects
Infertility, medicine.medical_specialty, business.industry, Semen, Urine, medicine.disease, Sperm, law.invention, Male infertility, Randomized controlled trial, law, Internal medicine, Inclusion and exclusion criteria, medicine, business, Sperm motility
Abstract

Introduction: Infertility, which is defined as the inability to conceive after one year of intercourse without the use of contraceptive methods, affects 15% of couples. 30-40% of the causes of male infertility are related to sperm disorders. The most common cause of infertility in men is their inability to produce enough healthy, active and active sperm, so the aim of this study was to determine the effect of ashwagandha powder on men with semen disorders. Materials and Methods: This study is a double-blind, clinical, randomized trial. Subjects were entered the study after obtaining informed consent and having inclusion and exclusion criteria. All subjects were clinically examined by a urologist. Blood and urine tests were also performed to ensure the health status of the individuals. Subjects did not take any PDE-V inhibitors or glucocorticoids, chemical, herbal and hormonal drugs for infertility treatment in the 4 weeks before the start of the study and until the end of the study. Finally, demographic information was obtained from all individuals and statistical calculations were performed using the statistical software SPSS. Results: In general, our results showed that the consumption of ashwagandha powder in the first experimental group was 41.3 ± 16.66% in the pre-test stage, 46.53±13.42% in the post-test stage and 45.5%±11.99% in the follow-up stage. These values were 41.23 ±19.85% in the placebo group of the pre-test stage, 41.0%±19.15 in the post-test stage and 40.37±19.41 % in the follow-up stage. This indicates that ashwagandha increased semen performance scores and sperm motility in different stages of the test compared to the second experimental group. Conclusion: The use of medicinal plants with male fertility enhancement properties can be used as a substitute or supplement for chemical drugs that affect male fertility. On the other hand, it is recommended that chemical drugs with fertility-reducing properties be less used or not used in men with infertility disorders.

Published
2020

34. Heat transfer enhancement with nanofluid in an open enclosure due to discrete heaters mounted on sidewalls and a heated inner block

Author

Endalkachew Getachew Ushachew, Mohammad Mehdi Rashidi, and Mukesh Kumar Sharma

Subjects
Convection, Natural convection, Materials science, Convective heat transfer, 020209 energy, Applied Mathematics, Mechanical Engineering, Heat transfer enhancement, Enclosure, 02 engineering and technology, Mechanics, Nusselt number, Computer Science Applications, 020303 mechanical engineering & transports, Nanofluid, 0203 mechanical engineering, Mechanics of Materials, Heat transfer, 0202 electrical engineering, electronic engineering, information engineering
Abstract

Purpose The purpose of this study is to explore the heat transfer enhancement in copper–water nanofluid flowing in a diagonally vented rectangular enclosure with four discrete heaters mounted centrally on the sidewalls and a square-shaped embedded heated block in the influence of a static magnetic field. Design/methodology/approach Four discrete heaters are mounted centrally on each sidewall of the rectangular enclosure that embraces a heated square block. A static transverse magnetic field is acting on the vertical walls. The Navier–Stokes equations of motion and the energy equation are modified by incorporating Lorentz force and basic physical properties of nanofluid. The derived momentum and energy equations are tackled numerically using the successive over-relaxation technique associating with the Gauss–Seidel iteration technique. The effects of physical parameters connected to dynamics of flow and heat convection are explored from streamlines and isotherms graphs and discussed numerically in terms of Nusselt number. Findings The effect of the embedded heated square block size and its location in the enclosure, nanoparticles volume fraction and the intensity of the magnetic field on flow and heat transfer are computed. Compared with the case when no heated block is embedded in the enclosure, in free convection at Ra = 106, the average local Nusselt number on the wall-mounted heaters is attenuated by 8.25%, 11.24% and 12.75% when the enclosure embraced a heated square block of side length 10% of H, 20% of H and 30% of H, respectively. An increase in Hartmann number suppresses the heat convection. Research limitations/implications The enhancement in the convective heat is greater when the buoyancy effect dominates the viscous effects. Placing the embedded heated block near the inlet vent, the lower temperature zone has reduced while the embedded heated block is at the central location of the enclosure, the high-temperature zone has expanded. The external magnetic field can be used as a non-invasive controlling device. Practical implications The numerically simulated results for heat convection of water-based copper nanofluid agreed qualitatively with the existing experimental results. Social implications The models could be used in designing a target-oriented heat exchanger. Originality/value The paper includes a comparative study for three locations of the embedded heated square. The optimal results for the centrally located heated block are also performed for three different sizes of the embedded block. The numerically simulated results are compared with the published numerical and experimental studies.

Published
2020

37. Comprehensive Investigating on the Aerodynamic Influences of the Wheel Contact Patch

Author

Xiaoyan Yu, Qing Jia, Mohammad Mehdi Rashidi, and Zhigang Yang

Subjects
contact step, drivaer, wheel contact patch, vehicle aerodynamics, lcsh:Mechanics of engineering. Applied mechanics, lcsh:TA349-359, tread shape
Abstract

Computational fluid dynamics is implemented to investigate the influence of the wheel contact patch on the global car aerodynamics. Two main aspects of the problem are the contact step and patch shape. Three important parameters: step height, cut angle, and tire tread shape are taken into consideration. For validations of the numerical results, the experimental data are also considered. The obtained results show that the step height may not significantly affect the global flow field. But when the cut angle increases, the flow separations on the two sides of the front wheel patch will be suppressed successively, which generates two critical points and a sudden drag decrease is achieved. Besides, tiny differences in tread shape can effectively change the flow rate of the underbody and make a huge drag discrepancy in the results. In conclusion, the cut angle and tire tread shape carefully must be dealt with in aerodynamic applications of automotive engineering.

Published
2020

38. Cooling System with Porous Finned Heat Sink for Heat-Generating Element

Author

Mohammad Mehdi Rashidi, Giulio Lorenzini, Mikhail A. Sheremet, and Marina S. Astanina

Subjects
Natural convection, Materials science, Passive cooling, General Chemical Engineering, Enclosure, Mechanics, Heat sink, Catalysis, law.invention, Physics::Fluid Dynamics, Thermal conductivity, law, Water cooling, Streamlines, streaklines, and pathlines, Radiator
Abstract

The present study deals with computational investigation of natural convection in a porous chamber having a copper finned heat sink and a thermally producing element of finite thickness and heat conductivity. The enclosure is cooled from the external vertical and upper horizontal walls, whilst the remaining borders are considered to be thermally insulated. Newtonian and heat-conducting liquid with temperature-dependent viscosity is assumed as a working medium. Governing equations are written in non-dimensional variables «stream function—vorticity—temperature» and they are worked out by the finite difference technique. The temperature distribution, streamlines and the dependences of the integral characteristics on the governing characteristics, such as the Darcy and Ostrogradsky numbers and geometric characteristics of the radiator have been illustrated. Presented results can be used for the development of passive cooling systems.

Published
2020

39. A Review: Differential Transform Method for Semi-Analytical Solution of Differential Equations

Author

Mohammad Mehdi Rashidi, Faranak Rabiei, S. Naseri Nia, and Saeid Abbasbandy

Subjects
Fluid Flow and Transfer Processes, Differential equation, differential transform-pad é approximation, fuzzy differential transformation method, gs-differentiability, differential transform method, Mechanics of engineering. Applied mechanics, Semi analytical method, differential equations, Transportation, 010103 numerical & computational mathematics, 02 engineering and technology, TA349-359, 01 natural sciences, Differential transform method, Physics::Plasma Physics, Computer Science::Computer Vision and Pattern Recognition, 0202 electrical engineering, electronic engineering, information engineering, Applied mathematics, 020201 artificial intelligence & image processing, semi-analytical method, 0101 mathematics, Civil and Structural Engineering, Mathematics
Abstract

In this article, the semi-analytical method known as the Differential Transform Method (DTM) for solving different types of differential equations is reviewed. First, basic definitions and formulas of DTM and Differential Transform-Padé approximation (DTM-Padé), which are used to increase the convergence and accuracy of DTM approximations, are discussed. Then both techniques of DTM and DTM-Padé, which have been successfully applied to partial differential equations, as well as the application of these methods in fluid mechanic and heat transfer are presented. In addition, the extension of DTM for integral differential equations and the fuzzy differential transformation method (FDTM) for fuzzy problems are discussed.

Published
2020

40. Novel solution for heat and mass transfer of a MHD micropolar fluid flow on a moving plate with suction and injection

Author

Fatemeh Baharifard, Kourosh Parand, and Mohammad Mehdi Rashidi

Subjects
Differential equation, Mathematical analysis, General Engineering, Computer Science Applications, Exponential function, Nonlinear system, Algebraic equation, Flow (mathematics), Rate of convergence, Modeling and Simulation, Boundary value problem, Software, Linear equation, Mathematics
Abstract

Two new functions on the semi-infinite interval, namely Rational Gegenbauer (R) and Exponential Gegenbauer (E) functions are proposed to solve the heat transfer problem. The considered problem is flow of MHD micropolar over a moving plate with suction and injection boundary conditions. For applying Tau method efficiently, two matrices of derivative and product for both of rational and exponential Gegenbauer whose enable us to solve a system of nonlinear algebraic equations on the semi-infinite interval were introduced, and an error bound of these functions approximation was estimated which led to have an exponential convergence rate in this method. Moreover, the influence of the important physical parameters on heat and mass transfer phenomena are studied with details. Comparing the results of Rational Gegenbauer Tau and Exponential Gegenbauer Tau methods with available analytical and numerical solutions shows that the present methods are efficient and have fast convergence rate and high accuracy. This method can solve a set of coupled nonlinear and high-order differential equations on a semi-infinite domain by converting to a set of linear equations.

Published
2020

41. Investigation of magnetohydrodynamics in Ag-TiO2/water hybrid nanofluid in a Shamse knot shaped cavity

Author

Yuan Ma, Mohammad Mehdi Rashidi, Rasul Mohebbi, and Zhigang Yang

Subjects
Natural convection, Materials science, 020209 energy, Applied Mathematics, Mechanical Engineering, Lattice Boltzmann methods, 02 engineering and technology, Mechanics, Rayleigh number, Thermal conduction, Hartmann number, Nusselt number, Computer Science Applications, 020303 mechanical engineering & transports, Nanofluid, 0203 mechanical engineering, Mechanics of Materials, Heat transfer, 0202 electrical engineering, electronic engineering, information engineering
Abstract

Purpose The nanofluid natural convection heat transfer in a hollow complex enclosure, which is named as Shamse knot shape, is studied numerically. This paper aims to present how the Rayleigh number, nanoparticle volume fraction, Hartmann number and hollow side length affect the fluid flow and heat transfer characteristics. Design/methodology/approach The continuity, momentum and energy equations have been solved using lattice Boltzmann method (LBM). Numerical simulation has been obtained for a wide range of Rayleigh number (103 ≤ Ra ≤ 106), nanoparticle volume fraction (0 ≤ ϕ 0.05) and Hartmann number (0 ≤ Ha ≤ 60) to analyze the fluid flow pattern and heat transfer characteristics. Moreover, the effect of hollow side length (D) on flow field and thermal performance is studied. Findings The results showed that the magnetic field has a negative effect on the thermal performance and the average Nusselt number decreases by increasing the Hartmann number. Because of the high conduction heat transfer coefficient of nanoparticles, the average Nusselt number increases by rising the nanoparticle volume fraction. The effect of adding nanoparticles on heat transfer is more effective at low nanoparticle volume fraction (0 ≤ ϕ ≤ 0.01). It was also found that at Ra = 106, when the hollow side length increases to 3, the flow pattern becomes different due to the small gap. The averaged Nu is an increasing function of D at low Ra and an opposite trend occurs at high Rayleigh number. Originality/value For the first time, the effects of magnetic field, Rayleigh number, nanoparticle volume fraction and hollow side length on natural convection heat transfer of hybrid nanofluid (Ag-TiO2/water) is investigated in a complicated cavity.

Published
2020

42. IMPACT OF NON-DARCY MEDIUM ON MIXED CONVECTIVE FLOW TOWARDS A PLATE CONTAINING MICROPOLAR WATER-BASED TiO2 NANOMATERIAL WITH ENTROPY GENERATION

Author

Mohammad Mehdi Rashidi, Mohsen Sheikholeslami, Aurang Zaib, Rizwan Ul Haq, and Ali J. Chamkha

Subjects
Convective flow, Materials science, Mechanics of Materials, Mechanical Engineering, Modeling and Simulation, Biomedical Engineering, Entropy (information theory), Thermodynamics, General Materials Science, Condensed Matter Physics, Water based, Nanomaterials
Published
2020

43. A Nonstandard Finite Difference Method for a Generalized Black–Scholes Equation

Author

Mohammad Mehdizadeh Khalsaraei, Mohammad Mehdi Rashidi, Ali Shokri, Higinio Ramos, and Pari Khakzad

Subjects
Physics and Astronomy (miscellaneous), option valuation, Chemistry (miscellaneous), positivity, General Mathematics, nonstandard finite difference, Computer Science (miscellaneous), QA1-939, generalized Black–Scholes equation, Mathematics
Abstract

An implicit finite difference scheme for the numerical solution of a generalized Black–Scholes equation is presented. The method is based on the nonstandard finite difference technique. The positivity property is discussed and it is shown that the proposed method is consistent, stable and also the order of the scheme respect to the space variable is two. As the Black–Scholes model relies on symmetry of distribution and ignores the skewness of the distribution of the asset, the proposed method will be more appropriate for solving such symmetric models. In order to illustrate the efficiency of the new method, we applied it on some test examples. The obtained results confirm the theoretical behavior regarding the order of convergence. Furthermore, the numerical results are in good agreement with the exact solution and are more accurate than other existing results in the literature.

Published
2022
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45. Impact of Waste Heat Recovery of Chimney Using U-Shaped Pulsating Heat Pipe to Generate Hot Water- Experimental and Environmental Analysis

Author

Shahin Shoeibi, Hadi Kargarsharifabad, and Mohammad Mehdi Rashidi

Abstract

Many studies have been done on the Pulsating heat pipes (PHP) using energy applications system. In this study a heat exchanger PHP is analyzed. A heat pipe prototype is manufactured for waste heat recovery. The present study experimentally investigated the effect of pulsating heat pipe on the waste heat recovery of the chimney and produce hot water for household consumption. The evaporator is placed in a smoke exhaust duct and the condenser is located in a water chamber in which the smoke heat is transferred through. The results are presented for different heat pipe angles to the horizon from 0 to 90. The PHP is filled 60% by distilled water as operating fluid. The highest hot water temperature in outlet of reservoir was about to 58 oC. Also, The CO2 mitigation and CPH of the waste heat recovery system was equal to 84.82 tons and 0.1$/m3. Moreover, the efficiency is changing from 19% for a horizontal PHP to 54% for a vertical one.

Published
2021

47. Molecular dynamics simulation approach for discovering potential inhibitors against SARS-CoV-2: A structural review

Author

Shabnam Ghahremanian, Mohammad Mehdi Rashidi, Kimai Raeisi, and Davood Toghraie

Subjects
Materials Chemistry, Physical and Theoretical Chemistry, Condensed Matter Physics, Spectroscopy, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials
Abstract

Since the commencement of the novel Coronavirus, the disease has quickly turned into a worldwide crisis so that there has been growing attention in discovering possible hit compounds for tackling this pandemic. Discovering standard treatment strategies is a serious challenge because little information is available about this emerged infectious virus. Regarding the high impact of time, applying computational procedures to choose promising drugs from a catalog of licensed medications provides a precious chance for combat against the life-threatening disorder of COVID-19. Molecular dynamics (MD) simulation is a promising approach for assessing the binding affinity of ligand-receptor as well as observing the conformational trajectory of docked complexes over time. Given that many computational studies are performed using MD along with the molecular docking on various candidates as antiviral inhibitors of COVID-19 protease, there is a demand to conduct a comprehensive review of the most important studies to reveal and compare the potential introduced agents that this study covers this defect. In this context, the present review intends to prepare an overview of these studies by considering RMSD, RMSF, radius of gyration, binding free energy, and Solvent-Accessible Surface Area (SASA) as effective parameters for evaluation. The outcomes will offer a road map for adjusting antiviral inhibitors, which can facilitate the selection and development of drug candidates for use in the medical therapy. Finally, the molecular modeling approaches rendered by this study may be valuable for future computational studies.

Published
2021

48. Thermophysical Properties of Hybrid Nanofluids and the Proposed Models: An Updated Comprehensive Study

Author

Abdullah O. Nuhait, Mohammad Alhuyi Nazari, Mohamed E. Ali, Ibrahim Mahariq, Redhwan Almuzaiqer, Nimer Murshid, Mohammad Mehdi Rashidi, and Mamdouh El Haj Assad

Subjects
Materials science, Artificial neural network, General Chemical Engineering, Mechanics, Review, hybrid nanostructures, Chemistry, Thermal conductivity, Nanofluid, Heat transfer, Volume fraction, Thermal, Energy transformation, thermophysical features, General Materials Science, thermal conductivity, dynamic viscosity, QD1-999, Reliability (statistics)
Abstract

Thermal performance of energy conversion systems is one of the most important goals to improve the system’s efficiency. Such thermal performance is strongly dependent on the thermophysical features of the applied fluids used in energy conversion systems. Thermal conductivity, specific heat in addition to dynamic viscosity are the properties that dramatically affect heat transfer characteristics. These features of hybrid nanofluids, as promising heat transfer fluids, are influenced by different constituents, including volume fraction, size of solid parts and temperature. In this article, the mentioned features of the nanofluids with hybrid nanostructures and the proposed models for these properties are reviewed. It is concluded that the increase in the volume fraction of solids causes improvement in thermal conductivity and dynamic viscosity, while the trend of variations in the specific heat depends on the base fluid. In addition, the increase in temperature increases the thermal conductivity while it decreases the dynamic viscosity. Moreover, as stated by the reviewed works, different approaches have applicability for modeling these properties with high accuracy, while intelligent algorithms, including artificial neural networks, are able to reach a higher precision compared with the correlations. In addition to the used method, some other factors, such as the model architecture, influence the reliability and exactness of the proposed models.

Published
2021

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