In the last decades, there has been substantial development in modeling techniques of travel demand estimation. For low population areas the external trip estimation is important but usually neglected in travel demand...In the last decades, there has been substantial development in modeling techniques of travel demand estimation. For low population areas the external trip estimation is important but usually neglected in travel demand modeling process. In Egypt, the researches in this field are scarce due to lack of data. Accordingly, this paper aims to identify and estimate the main variables that affect the travel demand in low population areas, and to develop models to predict them. The study focused on the Port Said Govemorate in North East Egypt. A special questionnaire had been prepared in 2010 depending on interviews of passengers at basic taxi terminals in Port Said. And 2211 filled questionnaires were offering for research. To analyze the data, two modeling procedures were used. One is the multiple linear regression and the other is the generalized linear modeling (GLM) applying normal distributions. It is found that GLM procedure offers more suitable and accurate approach than the linear regression for developing number of trips. The final demand models have statistics within the acceptable regions and, also, they are conceptually reasonable. These results are so important for Egyptian highway authorities to improve the efficiency of highway transportation system in Egypt.展开更多
Aim: This study aimed to investigate critical thinking disposition among nurses working in Public Hospitals in Port-Said Governorate.Methods: A descriptive research design was conducted in this study. Totally 196 resp...Aim: This study aimed to investigate critical thinking disposition among nurses working in Public Hospitals in Port-Said Governorate.Methods: A descriptive research design was conducted in this study. Totally 196 respondents were chosen by systemic random sampling, to take part in the study as the sample. Data was collected from April to September in 2015. Tools of data collection: A personal and job characteristics data sheet and California Critical Thinking Disposition Inventory(CCTDI) were used. Results: The results revealed that the total critical thinking disposition score mean was 257.05 ± 20.16 and the highest score mean was 48.67 ± 6.28 for inquisitiveness subscale, while the lowest score mean was 21.36 ± 7.19 for the truth-seeking subscale. Also, none of the personal&job characteristics showed statistically significant relations with the total critical thinking disposition. Conclusion: More than three quarters of the nurses had an ambivalent disposition toward critical thinking, and most nurses' scores indicated a negative tendency towards truth-seeking. So the findings pointed for upgrading nurses' critical thinking through educational programs and a need for more problem-based learning with advanced teaching strategies in clinical areas.展开更多
<div style="text-align:justify;"> <span style="font-family:Verdana;">Posterior approach lumbar disc surgeries (LDS) can be associated with serious iatrogenic vascular complications whic...<div style="text-align:justify;"> <span style="font-family:Verdana;">Posterior approach lumbar disc surgeries (LDS) can be associated with serious iatrogenic vascular complications which could be a serious life threatening condition. We report a rare case of right sided acute iliac vessels iatrogenic arteriovenous fistula (IAVF) which was diagnosed and managed in 24 hours duration in a 45 years old healthy female who underwent surgical posterior approach L4-5 discectomy. Intraoperative, she developed sudden hypotension, tachycardia, wide pulse pressure and acute drop of hemoglobin level without obvious operative site bleeding which raise the index of suspicion of vascular injury and urge the team for doing emergency CT angiography (CTA), vascular and endovascular team consultation for digital subtraction angiography (DSA) and endovascular management. Endovascular stenting is nowadays the modality of choice of intervention. We provide case report with literature review.</span> </div>展开更多
The increasing demand for sustainable energy storage solutions has intensified the focus on high-performance supercapaci-tors,known for their rapid charge/discharge capabilities,high power density,and long cycle life....The increasing demand for sustainable energy storage solutions has intensified the focus on high-performance supercapaci-tors,known for their rapid charge/discharge capabilities,high power density,and long cycle life.Polyurethane(PU)-based materials have gained attention as promising candidates for supercapacitor electrodes,due to their flexibility,mechanical robustness,and tunable properties.It is important to clarify that PU typically does not contribute directly to charge storage via adsorption or pseudocapacitive mechanisms.Instead,PU serves as a flexible scaffold,a binder,or a precursor for the preparation of heteroatom-doped carbon materials upon thermal treatment.Thus,the term'PU-based'in this review refers to PU-supported or PU-derived composites,where PU enables structural or functional integration of active electrode Materi-als.Polyurethane composites incorporating graphene oxide have demonstrated a specific capacitance of 758.8 mF/cm^(2)with capacitance retention of 92%over 5,000 cycles.Other PU-based electrodes have achieved energy densities up to 22.5 Wh/kg and power densities of 1472.7 W/kg,reflecting their potential for high-performance energy storage applications.Despite these advantages,challenges,such as low intrinsic conductivity and the environmental impact of traditional synthesis methods,limit their widespread adoption.Conventional PU composites often incorporate conductive additives like carbon materi-als,metal oxides,or conductive polymers to enhance their electrochemical performance,yet these approaches may involve non-renewable or toxic components.Developing green energy materials that adhere to sustainability and green chemistry principles is crucial to address these limitations.This includes using renewable resources,environmentally friendly process-ing techniques,and recyclable materials to reduce the ecological footprint and meet the growing need for sustainable energy storage technologies.This review highlights current trends in developing eco-friendly supercapacitor materials,addressing key challenges such as limited conductivity and complex processing.It uniquely integrates green chemistry principles with advances in polyurethane composites,emphasizing sustainable feedstocks,heteroatom doping,and functional nanomateri-als.By combining these aspects,this review provides a comprehensive perspective not fully covered in existing literature.展开更多
Honey,a natural substance,has long been valued for its dual role in both food and medicine in diverse cultural traditions,particularly in traditional Chinese medicine(TCM).It is rich in sugars,amino acids,enzymes,poly...Honey,a natural substance,has long been valued for its dual role in both food and medicine in diverse cultural traditions,particularly in traditional Chinese medicine(TCM).It is rich in sugars,amino acids,enzymes,polyphenols,and flavonoids that contribute to its antimicrobial,antioxidant,and immuno-modulatory properties.Additionally,honey is effective in managing some conditions,such as antibiotic-resistant infections,inflammation,and oxidative stress-related diseases.This review explores the extensive health benefits of honey,emphasizing the homology between food and medicine,as proposed by TCM philosophy.Further,this review explores the traditional applications of honey in respiratory health,wound healing,and gastrointestinal support,along with modern scientific validation of these uses.Moreover,the role of honey as a dietary supplement,functional food,and preservative in culinary practices is examined.Overall,this review highlights the synergy between ancient wisdom and contemporary science,advocating for the continued exploration of the role of honey in health,nutrition,and medicine.展开更多
Accelerated life tests play a vital role in reliability analysis,especially as advanced technologies lead to the production of highly reliable products to meet market demands and competition.Among these tests,progress...Accelerated life tests play a vital role in reliability analysis,especially as advanced technologies lead to the production of highly reliable products to meet market demands and competition.Among these tests,progressive-stress accelerated life tests(PSALT)allow for continuous changes in applied stress.Additionally,the generalized progressive hybrid censoring(GPHC)scheme has attracted significant attention in reliability and survival analysis,particularly for handling censored data in accelerated testing.It has been applied to various failure models,including competing risks and step-stress models.However,despite its growing relevance,a notable gap remains in the literature regarding the application of GPHC in PSALT models.This paper addresses that gap by studying PSALT under a GPHC scheme with binomial removal.Specifically,it considers lifetimes following the quasi-Xgamma distribution.Model parameters are estimated using both maximum likelihood and Bayesian methods under gamma priors.Interval estimation is provided through approximate confidence intervals,bootstrap methods,and Bayesian credible intervals.Bayesian estimators are derived under squared error and entropy loss functions,using informative priors in simulation and non-informative priors in real data applications.A simulation study is conducted to evaluate various censoring schemes,with coverage probabilities and interval widths assessed via Monte Carlo simulations.Additionally,Bayesian predictive estimates and intervals are presented.The proposed methodology is illustrated through the analysis of two real-world accelerated life test datasets.展开更多
Objective:To evaluate the factors predicting fatigue among patients undergoing hemodialysis(HD).Fatigue is a common health problem in patients receiving HD.Understanding the factors that predict fatigue is crucial for...Objective:To evaluate the factors predicting fatigue among patients undergoing hemodialysis(HD).Fatigue is a common health problem in patients receiving HD.Understanding the factors that predict fatigue is crucial for helping patients to manage their weariness.Methods:A descriptive design was utilized with a convenient sample of 200 subjects who were on HD therapy at the Mansoura University Hospital and Mansoura International Hospital in Mansoura,Egypt,for at least 3 months.Four tools were utilized in collecting data.Results:The study subjects had a moderate level of fatigue regarding all sub-dimensions of the Piper Fatigue Scale(PFS).Among the total subjects,78.5%suffered from anxiety,and 31.0%had depression.A positive correlation was found between fatigue and anxiety,depression,and overall symptoms of distress,while a negative correlation was found between perception of the ability to manage symptoms and fatigue.The factors predicting fatigue included anxiety(β=0.274,P<0.001),depression(β=305,P<0.001),and the overall symptoms of distress(β=0.248,P<0.001),while the perceived ability to manage symptoms did not predicted.Conclusions:Fatigue was ranked as the top distressing symptom among HD patients,with psychological factors such as anxiety,depression,and the overall symptoms of distress predicting fatigue.Regular screenings of these factors and psychological therapies to modulate them might decrease fatigue severity and its related disability in HD clients.Multidimensional nurse-led interventions involving physical and psychological therapies are required to manage fatigue in HD patients.展开更多
BACKGROUND Treatment response to direct-acting antivirals(DAAs)is a challenging issue and the identification of non-responders patients is very important.AIM To evaluate the relation between baseline serum levels of h...BACKGROUND Treatment response to direct-acting antivirals(DAAs)is a challenging issue and the identification of non-responders patients is very important.AIM To evaluate the relation between baseline serum levels of hyaluronic acid(HA)and type III procollagen N-peptide(PIIINP)with direct-acting antivirals treatment failure in Egyptian patients with chronic hepatitis C.METHODS Hepatitis C patients(responders and non-responders to sofosbuvir/daclatasvir)were tested for HA and PIIINP using sensitive chemiluminescent immunoassay.RESULTS There were distinctly higher PIIINP(P=0.0003)and HA(P<0.0001)levels in non-responders than responders patients with a good ability for distinguishing non-responders from patients with sustained virological response(area under the curve=0.766 for HA and 0.684 for PIIINP).Logistic regression analysis revealed that the HA×PIIINP is the model with the highest predictive ability(area under the curve=0.809).Diagnostic performances were superior to each marker alone with good sensitivity(74.7%),specificity(74%),positive predictive(68.3%),negative predictive values(79.6%)and accuracy(74.3%).The multiplication of HA×PIIINP is correlated significantly(P<0.05)with elevated liver enzymes(r=0.212),decreased albumin(r=-0.26),elevated aspartate aminotransferase-platelet ratio index(r=0.223)and elevated fibrosis-4 score(r=0.216)scores.CONCLUSION These findings suggested the remarkable role of fibrogensis markers HA and PIIINP in the prediction of hepatitis C virus DAAs treatment response.Multiplying HA with PIIINP values increase the sensitivity to detect treatment success and thus may aim to improve treatment duration and the disease control.展开更多
Inflammatory bowel disease(IBD)is a chronic condition consisting of two main types:Crohn’s disease and ulcerative colitis.Conventional treatments for these diseases include aminosalicylates,corticosteroids,immunomodu...Inflammatory bowel disease(IBD)is a chronic condition consisting of two main types:Crohn’s disease and ulcerative colitis.Conventional treatments for these diseases include aminosalicylates,corticosteroids,immunomodulators,and biologics.However,these treatments have several drawbacks,including high costs for patients and numerous side effects.Recently,advanced treatments have been developed,such as small-molecule therapies,targeted biologics,innovative drug delivery systems,and microbiome-based interventions.Emerging therapies like anti-interleukin-23 monoclonal antibody inhibitors,sphingosine-1-phosphate receptor modulators,and Janus kinase inhibitors are more specialized in reducing immune activity.They enhance bioavailability,reduce side effects,and specifically target the gastrointestinal tract without affecting other systems.Innovative drug delivery systems for IBD,such as nanoparticles,hydrogels,and microgrippers,improve bioavailability and prolong drug release.The combination of conventional and advanced therapies may benefit from the synergistic effects of both.Furthermore,fecal microbiota transplantation and probiotics can help restore the balance of gastrointestinal microbiota,reducing disease flare-ups.Advances in artificial intelligence,endoscopic techniques,and stem cell therapies have shown great potential in treating IBD,although several significant challenges remain.Treating this disease requires multidisciplinary integration and the application of technology and telemedicine.展开更多
The advantageous magnetic,optical,and antibacterial properties of magnetic nanoparticles have recently drawn a lot of attention in the field of biomedicine.One of the most famous super paramagnetic materials,nanoferri...The advantageous magnetic,optical,and antibacterial properties of magnetic nanoparticles have recently drawn a lot of attention in the field of biomedicine.One of the most famous super paramagnetic materials,nanoferrite,is made up of two types of spinel structures:inverse and normal.Cobalt ferrite's inverse spinel structure offers several benefits,including excellent magnetostrictivity,good coupling efficiency,and inexpensive cost.This study's objective is to synthesize,characterize,and investigate the characteristics of the electrochemical properties of Co_(x)Fe_(1-x)Fe_(2)O_(4)/Fe_(2)O_(3)(x=0.30 and 0.77)nanoparticles using the chemical co-precipitation method.The physical properties of the produced nanoparticles were investigated using x-ray diffraction(XRD),transmission electron microscopy(TEM),and a vibrating sample magnetometer(VSM).The band gap properties of magneto-nano powders,including the direct and indirect band gap energies,and Urbach energy,are found.Scanning electron microscopy showed the presence of spherical nanoparticles ranging from 20.7 nm-23.7 nm.The analysis of Co_(x)Fe_(1-x)Fe_(2)O_(4)/Fe_(2)O_(3)(x=0.30 and 0.77)nanoparticles,for instance,reveals differences in their surface characteristics that are significant for their potential applications.Parameters like dnorm,de,and di,along with shape index and curvedness,contribute to a comprehensive understanding of the molecular surface,which is crucial for the design of new materials with desired physical and chemical properties.Molecular docking studies have revealed promising interactions between certain crystals and DNA gyrase,mirroring the binding mode of known inhibitors.This suggests potential for these crystals to serve as antimicrobial agents in future research.Such findings are crucial as they contribute to the development of new treatments against antibiotic-resistant bacteria,a growing global health concern.展开更多
BACKGROUND Acrylamide(ACR),a toxic compound commonly found in heat-processed foods,poses a serious risk to liver health due to its oxidative and inflammatory effects.AIM To evaluate the hepatoprotective potential of g...BACKGROUND Acrylamide(ACR),a toxic compound commonly found in heat-processed foods,poses a serious risk to liver health due to its oxidative and inflammatory effects.AIM To evaluate the hepatoprotective potential of ginger extract in mitigating ACR-induced liver toxicity in a rat model.METHODS Male Sprague-Dawley rats were randomly assigned into control,ACR-treated,and ACR+ginger-treated groups.Liver function enzymes[alanine aminotransferase(ALT),aspartate aminotransferase(AST),alkaline phosphatase(ALP)],oxidative stress biomarkers[malondialdehyde(MDA),glutathione(GSH),catalase(CAT),superoxide dismutase(SOD)],and histopathological assessments were performed.In addition,gene expression analyses of key antioxidant and inflammatory markers were conducted using quantitative polymerase chain reaction.RESULTS ACR administration significantly increased serum levels of ALT,AST,ALP,and MDA,while reducing levels of GSH,CAT,and SOD.Histological analysis revealed hepatic degeneration and inflammation.Co-administration of ginger extract significantly reversed these effects,restoring antioxidant enzyme levels,reducing oxidative stress,and improving liver histoarchitecture.CONCLUSION Ginger extract exhibited strong hepatoprotective effects against ACR-induced toxicity through antioxidant and anti-inflammatory mechanisms.These findings support the potential role of ginger as a natural dietary intervention for mitigating liver damage caused by environmental toxins.Further clinical studies are recommended to confirm its efficacy in human populations.展开更多
Horizontal alignment greatly affects the speedof vehicles at rural roads. Therefore, it is necessary toanalyze and predict vehicles speed on curve sections.Numerous studies took rural two-lane as research subjectsand ...Horizontal alignment greatly affects the speedof vehicles at rural roads. Therefore, it is necessary toanalyze and predict vehicles speed on curve sections.Numerous studies took rural two-lane as research subjectsand provided models for predicting operating speeds.However, less attention has been paid to multi-lane highwaysespecially in Egypt. In this research, field operatingspeed data of both cars and trucks on 78 curve sections offour multi-lane highways is collected. With the data, correlationbetween operating speed (V85) and alignment isanalyzed. The paper includes two separate relevant analyses.The first analysis uses the regression models toinvestigate the relationships between V85 as dependentvariable, and horizontal alignment and roadway factors asindependent variables. This analysis proposes two predictingmodels for cars and trucks. The second analysisuses the artificial neural networks (ANNs) to explore theprevious relationships. It is found that the ANN modelinggives the best prediction model. The most influential variableon V85 for cars is the radius of curve. Also, for V85 fortrucks, the most influential variable is the median width.Finally, the derived models have statistics within theacceptable regions and they are conceptually reasonable.展开更多
Complexes of La (III), Nd(III), Gd(III), Sm(III), and Ce(IV) were synthesized with Schiff base [(3,5-di-tert-butyl-2-hy- droxybenzyl) amino] acetic acid (H3L). The ligand and its complexes were synthesiz...Complexes of La (III), Nd(III), Gd(III), Sm(III), and Ce(IV) were synthesized with Schiff base [(3,5-di-tert-butyl-2-hy- droxybenzyl) amino] acetic acid (H3L). The ligand and its complexes were synthesized and characterized based on the following analysis: elemental analyses, FAB-mass, molar conductance measurements, magnetic measurement, UV-visible, IR, and NMR spectral studies. The spectral data revealed that the ligand acted as a neutral tridentate coordinating to metal ion through ONO donor sequence. Thermal degradation studies of the ligand and its complexes showed that the previous lanthanide complexes were more thermally stable than the ligand itself. The Schiff base and its complexes were screened for their antibacterial (Escherichia coli, Staphylococcus aureus) and antifungal (Aspergillus flavus and Candida Albicans).展开更多
Metavolcanic rocks hosting base metal sulphide mineralization, and belonging to the Kid Metamorphic Complex, are exposed in the Samra-Tarr area, Southern Sinai. The rocks consist of slightly metamorphosed varicolored ...Metavolcanic rocks hosting base metal sulphide mineralization, and belonging to the Kid Metamorphic Complex, are exposed in the Samra-Tarr area, Southern Sinai. The rocks consist of slightly metamorphosed varicolored porphyritic lavas of rhyolite-to-andesite composition, and their equivalent pyroclastics. Geochemically, these metavolcanics are classified as high-K calc-alkaline, metaluminous andesites, trachyandesites, dacites, and rhyolites. The geochemical characteristics of these metavolcanics strongly point to their derivation from continental crust in an active continental margin. The sulphide mineralization in these metavolcanics occurs in two major ore zones, and is represented by four distinct styles of mineralization. The mineralization occurs either as low-grade disseminations or as small massive pockets. The associated hydrothermal alterations include carbonatization, silicification, sericitization and argillic alterations. The base metal sulphide mineralization is epigenetic and was formed by hvdrothermal solutions associated with subduction-related volcanic activity.展开更多
Zinc telluride is a versatile wide band gap semiconductor used in many applications.But it has certain limitations like large dimensions and large band gaps.Introducing alkali metal to its bulk lattice(3D)can reduce i...Zinc telluride is a versatile wide band gap semiconductor used in many applications.But it has certain limitations like large dimensions and large band gaps.Introducing alkali metal to its bulk lattice(3D)can reduce its dimensions and lanthanide can produce a red shift in the energy gap by converting it into quaternary compounds.The alkali and lanthanide incorporated quaternary zinc tellurides CsLnZnTe_(3)(Ln=La,Pr,Nd and Sm)form layered crystal structure in which_(∞)^(2)[LnZnTe_(3)]-layers are separated by Cs+layer.The famous lanthanide contraction is experimental both from lattice constants and bond lengths.The calculated band gaps are 2.26,2.28,2.12,2.05 eV for CsLaZnTe_(3),CsPrZnTe_(3),CsNdZnTe_(3) and CsSmZnTe_(3),respectively.These compounds show direct band gap nature.The energy band gaps of these compounds have not been evaluated yet both experimentally and theoretically.Energy loss functions,refractive index and dielectric functions were also calculated to explore the potential applications of CsLnZnTe_(3) in optoelectronic devices.展开更多
Plant diseases are a major impendence to food security,and due to a lack of key infrastructure in many regions of the world,quick identification is still challenging.Harvest losses owing to illnesses are a severe prob...Plant diseases are a major impendence to food security,and due to a lack of key infrastructure in many regions of the world,quick identification is still challenging.Harvest losses owing to illnesses are a severe problem for both large farming structures and rural communities,motivating our mission.Because of the large range of diseases,identifying and classifying diseases with human eyes is not only time-consuming and labor intensive,but also prone to being mistaken with a high error rate.Deep learning-enabled breakthroughs in computer vision have cleared the road for smartphone-assisted plant disease and diagnosis.The proposed work describes a deep learning approach for detection plant disease.Therefore,we proposed a deep learning model strategy for detecting plant disease and classification of plant leaf diseases.In our research,we focused on detecting plant diseases in five crops divided into 25 different types of classes(wheat,cotton,grape,corn,and cucumbers).In this task,we used a public image database of healthy and diseased plant leaves acquired under realistic conditions.For our work,a deep convolutional neural model AlexNet and Particle Swarm optimization was trained for this task we found that the metrics(accuracy,specificity,Sensitivity,precision,and Fscore)of the tested deep learning networks achieves an accuracy of 98.83%,specificity of 98.56%,Sensitivity of 98.78%,precision of 98.67%,and F-score of 98.47%,demonstrating the feasibility of this approach.展开更多
Air pollution from shipping is becoming a critical issue,particularly in dense hub port cities.One proposed solution to minimize ship-based emissions at ports is the implementation of an Onshore Power Supply(OPS)syste...Air pollution from shipping is becoming a critical issue,particularly in dense hub port cities.One proposed solution to minimize ship-based emissions at ports is the implementation of an Onshore Power Supply(OPS)system.OPS allows ships to shut off their auxiliary engines and instead connect to the port grid.While there have been numerous studies conducted on ports in Europe and the United States,little research has been done on Egyptian ports.Therefore,this paper aims to investigate the feasibility of implementing OPS at Port Said West Port in Egypt,aligning with Egypt Vision 2030’s goals for addressing climate change.The research primarily focuses on analyzing data collected from calling ships to generate socio-economic and cost-effectiveness analyses of OPS.To further enhance the environmental benefits of OPS,the paper proposes the use of solar energy as the OPS electricity source.The findings of the study revealed that by relying on the national grid,emissions can be reduced by 28%.Moreover,it is predicted that this reduction could reach 100%if electricity generation is solely based on solar energy.Additionally,the economic analysis demonstrates promising profitability,with a payback period of approximately two years.展开更多
The hepatotoxic effect of potassium bromide(KBr)on rat liver tissues were determined,as well as the potential protective effect of Tegillaraca granosa(T.granosa)flesh body extract.Twenty adult male albino rats were eq...The hepatotoxic effect of potassium bromide(KBr)on rat liver tissues were determined,as well as the potential protective effect of Tegillaraca granosa(T.granosa)flesh body extract.Twenty adult male albino rats were equally distributed into four groups;Group(I)treated with physiological saline(control group),Group(II)was orally gavaged by 200 mg/kg of T.granosa body extract day after day,Group(III)was intoxicated by KBr(150 mg/kg bwt day after day orally)and finally,Group(IV)was given a combination of T.granosa flesh body extract plus KBr with similar doses in the second and third groups.At the end of one month,blood,liver tissue and bone marrow samples were collected to be used for the required laboratory examinations.In response to KBr toxicity,there was a significant increase in serum antioxidant biomarkers,which was accompanied by a significant change in hepatocyte ultrastructure and a significant change in carbohydrate and protein levels within the liver organ.In addition,KBr intoxication resulted in a substantial increase in the incidence of chromosomal aberrations such as holes,splits,deletions,fragments,ploidy,and ring chromosomes,as well as significant upregulation of TGF-1,VEGF,and COX-2 gene expression.The hepatotoxic effect of KBr was counteracted by treatment with T.granosa flesh body extract.T.granosa flesh body extract has a curative antioxidant and numerous protective effects against KBr hepatotoxicity.展开更多
Indeed,polymeric materials have thrived in worldwide sectors over the last five decades due to their versatility and durability,to the point that we can no longer envisage a product that does not contain them.However,...Indeed,polymeric materials have thrived in worldwide sectors over the last five decades due to their versatility and durability,to the point that we can no longer envisage a product that does not contain them.However,many synthetic polymers that have been produced are mostly sourced from petroleum and coal as raw materials,making them environmentally incompatible because they cannot be integrated with what is a natural recycling system.One of the most important aspects of the transition to a circular bioeconomy(CBE)is the provision of more sustainable strategies for resource and waste management.Considering the environmental consequences associated with petroleum-based polymers(PBPs),natural biopolymers,originating from biomass,can be conceived as a promising solution to gradually replace the PBPs,and address,and resolve the potential challenges and prevailing research gaps in the PBPs.The biopolymers have significant advantages over PBPs in terms of low-cost/zero-cost precursors,environmental friendliness,and user-friendliness.The present review dissects the sources,synthesis pathways,structures,characterization,and employment of biopolymers and their composites in water and wastew-ater treatment applications via different scenarios.Furthermore,the CBE model framework proposes potential approaches to applying CBE principles in the wastewater management sector,with a heavy emphasis on not only technology but also organizational and societal reforms.To sum up,the reliance on biopolymers can be considered a crucial tool for assessing the global progress toward CBE,as well as future environmental management and planning.展开更多
In this paper,a new approach is devoted to find novel analytical and approximate solutions to the damped quadratic nonlinear Helmholtz equation(HE)in terms of the Weiersrtrass elliptic function.The exact solution for ...In this paper,a new approach is devoted to find novel analytical and approximate solutions to the damped quadratic nonlinear Helmholtz equation(HE)in terms of the Weiersrtrass elliptic function.The exact solution for undamped HE(integrable case)and approximate/semi-analytical solution to the damped HE(non-integrable case)are given for any arbitrary initial conditions.As a special case,the necessary and sufficient condition for the integrability of the damped HE using an elementary approach is reported.In general,a new ansatz is suggested to find a semi-analytical solution to the non-integrable case in the form of Weierstrass elliptic function.In addition,the relation between the Weierstrass and Jacobian elliptic functions solutions to the integrable case will be derived in details.Also,we will make a comparison between the semi-analytical solution and the approximate numerical solutions via using Runge-Kutta fourth-order method,finite difference method,and homotopy perturbation method for the first-two approximations.Furthermore,the maximum distance errors between the approximate/semi-analytical solution and the approximate numerical solutions will be estimated.As real applications,the obtained solutions will be devoted to describe the characteristics behavior of the oscillations in RLC series circuits and in various plasma models such as electronegative complex plasma model.展开更多
文摘In the last decades, there has been substantial development in modeling techniques of travel demand estimation. For low population areas the external trip estimation is important but usually neglected in travel demand modeling process. In Egypt, the researches in this field are scarce due to lack of data. Accordingly, this paper aims to identify and estimate the main variables that affect the travel demand in low population areas, and to develop models to predict them. The study focused on the Port Said Govemorate in North East Egypt. A special questionnaire had been prepared in 2010 depending on interviews of passengers at basic taxi terminals in Port Said. And 2211 filled questionnaires were offering for research. To analyze the data, two modeling procedures were used. One is the multiple linear regression and the other is the generalized linear modeling (GLM) applying normal distributions. It is found that GLM procedure offers more suitable and accurate approach than the linear regression for developing number of trips. The final demand models have statistics within the acceptable regions and, also, they are conceptually reasonable. These results are so important for Egyptian highway authorities to improve the efficiency of highway transportation system in Egypt.
文摘Aim: This study aimed to investigate critical thinking disposition among nurses working in Public Hospitals in Port-Said Governorate.Methods: A descriptive research design was conducted in this study. Totally 196 respondents were chosen by systemic random sampling, to take part in the study as the sample. Data was collected from April to September in 2015. Tools of data collection: A personal and job characteristics data sheet and California Critical Thinking Disposition Inventory(CCTDI) were used. Results: The results revealed that the total critical thinking disposition score mean was 257.05 ± 20.16 and the highest score mean was 48.67 ± 6.28 for inquisitiveness subscale, while the lowest score mean was 21.36 ± 7.19 for the truth-seeking subscale. Also, none of the personal&job characteristics showed statistically significant relations with the total critical thinking disposition. Conclusion: More than three quarters of the nurses had an ambivalent disposition toward critical thinking, and most nurses' scores indicated a negative tendency towards truth-seeking. So the findings pointed for upgrading nurses' critical thinking through educational programs and a need for more problem-based learning with advanced teaching strategies in clinical areas.
文摘<div style="text-align:justify;"> <span style="font-family:Verdana;">Posterior approach lumbar disc surgeries (LDS) can be associated with serious iatrogenic vascular complications which could be a serious life threatening condition. We report a rare case of right sided acute iliac vessels iatrogenic arteriovenous fistula (IAVF) which was diagnosed and managed in 24 hours duration in a 45 years old healthy female who underwent surgical posterior approach L4-5 discectomy. Intraoperative, she developed sudden hypotension, tachycardia, wide pulse pressure and acute drop of hemoglobin level without obvious operative site bleeding which raise the index of suspicion of vascular injury and urge the team for doing emergency CT angiography (CTA), vascular and endovascular team consultation for digital subtraction angiography (DSA) and endovascular management. Endovascular stenting is nowadays the modality of choice of intervention. We provide case report with literature review.</span> </div>
基金Open access funding provided by The Science,Technology&Innovation Funding Authority(STDF)in cooperation with The Egyp-tian Knowledge Bank(EKB).
文摘The increasing demand for sustainable energy storage solutions has intensified the focus on high-performance supercapaci-tors,known for their rapid charge/discharge capabilities,high power density,and long cycle life.Polyurethane(PU)-based materials have gained attention as promising candidates for supercapacitor electrodes,due to their flexibility,mechanical robustness,and tunable properties.It is important to clarify that PU typically does not contribute directly to charge storage via adsorption or pseudocapacitive mechanisms.Instead,PU serves as a flexible scaffold,a binder,or a precursor for the preparation of heteroatom-doped carbon materials upon thermal treatment.Thus,the term'PU-based'in this review refers to PU-supported or PU-derived composites,where PU enables structural or functional integration of active electrode Materi-als.Polyurethane composites incorporating graphene oxide have demonstrated a specific capacitance of 758.8 mF/cm^(2)with capacitance retention of 92%over 5,000 cycles.Other PU-based electrodes have achieved energy densities up to 22.5 Wh/kg and power densities of 1472.7 W/kg,reflecting their potential for high-performance energy storage applications.Despite these advantages,challenges,such as low intrinsic conductivity and the environmental impact of traditional synthesis methods,limit their widespread adoption.Conventional PU composites often incorporate conductive additives like carbon materi-als,metal oxides,or conductive polymers to enhance their electrochemical performance,yet these approaches may involve non-renewable or toxic components.Developing green energy materials that adhere to sustainability and green chemistry principles is crucial to address these limitations.This includes using renewable resources,environmentally friendly process-ing techniques,and recyclable materials to reduce the ecological footprint and meet the growing need for sustainable energy storage technologies.This review highlights current trends in developing eco-friendly supercapacitor materials,addressing key challenges such as limited conductivity and complex processing.It uniquely integrates green chemistry principles with advances in polyurethane composites,emphasizing sustainable feedstocks,heteroatom doping,and functional nanomateri-als.By combining these aspects,this review provides a comprehensive perspective not fully covered in existing literature.
基金supported by the National Natural Science Foundation of China(32322079)Beijing Nova Program(20220484101)Talented Young Scientist Program,Ministry of Science and Technology of the People's Republic of China,and China Postdoctoral Science Foundation(2024M753576).
文摘Honey,a natural substance,has long been valued for its dual role in both food and medicine in diverse cultural traditions,particularly in traditional Chinese medicine(TCM).It is rich in sugars,amino acids,enzymes,polyphenols,and flavonoids that contribute to its antimicrobial,antioxidant,and immuno-modulatory properties.Additionally,honey is effective in managing some conditions,such as antibiotic-resistant infections,inflammation,and oxidative stress-related diseases.This review explores the extensive health benefits of honey,emphasizing the homology between food and medicine,as proposed by TCM philosophy.Further,this review explores the traditional applications of honey in respiratory health,wound healing,and gastrointestinal support,along with modern scientific validation of these uses.Moreover,the role of honey as a dietary supplement,functional food,and preservative in culinary practices is examined.Overall,this review highlights the synergy between ancient wisdom and contemporary science,advocating for the continued exploration of the role of honey in health,nutrition,and medicine.
基金supported and funded by the Deanship of Scientifc Research at ImamMohammad Ibn Saud Islamic University(IMSIU)(grant number IMSIU-DDRSP2503).
文摘Accelerated life tests play a vital role in reliability analysis,especially as advanced technologies lead to the production of highly reliable products to meet market demands and competition.Among these tests,progressive-stress accelerated life tests(PSALT)allow for continuous changes in applied stress.Additionally,the generalized progressive hybrid censoring(GPHC)scheme has attracted significant attention in reliability and survival analysis,particularly for handling censored data in accelerated testing.It has been applied to various failure models,including competing risks and step-stress models.However,despite its growing relevance,a notable gap remains in the literature regarding the application of GPHC in PSALT models.This paper addresses that gap by studying PSALT under a GPHC scheme with binomial removal.Specifically,it considers lifetimes following the quasi-Xgamma distribution.Model parameters are estimated using both maximum likelihood and Bayesian methods under gamma priors.Interval estimation is provided through approximate confidence intervals,bootstrap methods,and Bayesian credible intervals.Bayesian estimators are derived under squared error and entropy loss functions,using informative priors in simulation and non-informative priors in real data applications.A simulation study is conducted to evaluate various censoring schemes,with coverage probabilities and interval widths assessed via Monte Carlo simulations.Additionally,Bayesian predictive estimates and intervals are presented.The proposed methodology is illustrated through the analysis of two real-world accelerated life test datasets.
文摘Objective:To evaluate the factors predicting fatigue among patients undergoing hemodialysis(HD).Fatigue is a common health problem in patients receiving HD.Understanding the factors that predict fatigue is crucial for helping patients to manage their weariness.Methods:A descriptive design was utilized with a convenient sample of 200 subjects who were on HD therapy at the Mansoura University Hospital and Mansoura International Hospital in Mansoura,Egypt,for at least 3 months.Four tools were utilized in collecting data.Results:The study subjects had a moderate level of fatigue regarding all sub-dimensions of the Piper Fatigue Scale(PFS).Among the total subjects,78.5%suffered from anxiety,and 31.0%had depression.A positive correlation was found between fatigue and anxiety,depression,and overall symptoms of distress,while a negative correlation was found between perception of the ability to manage symptoms and fatigue.The factors predicting fatigue included anxiety(β=0.274,P<0.001),depression(β=305,P<0.001),and the overall symptoms of distress(β=0.248,P<0.001),while the perceived ability to manage symptoms did not predicted.Conclusions:Fatigue was ranked as the top distressing symptom among HD patients,with psychological factors such as anxiety,depression,and the overall symptoms of distress predicting fatigue.Regular screenings of these factors and psychological therapies to modulate them might decrease fatigue severity and its related disability in HD clients.Multidimensional nurse-led interventions involving physical and psychological therapies are required to manage fatigue in HD patients.
文摘BACKGROUND Treatment response to direct-acting antivirals(DAAs)is a challenging issue and the identification of non-responders patients is very important.AIM To evaluate the relation between baseline serum levels of hyaluronic acid(HA)and type III procollagen N-peptide(PIIINP)with direct-acting antivirals treatment failure in Egyptian patients with chronic hepatitis C.METHODS Hepatitis C patients(responders and non-responders to sofosbuvir/daclatasvir)were tested for HA and PIIINP using sensitive chemiluminescent immunoassay.RESULTS There were distinctly higher PIIINP(P=0.0003)and HA(P<0.0001)levels in non-responders than responders patients with a good ability for distinguishing non-responders from patients with sustained virological response(area under the curve=0.766 for HA and 0.684 for PIIINP).Logistic regression analysis revealed that the HA×PIIINP is the model with the highest predictive ability(area under the curve=0.809).Diagnostic performances were superior to each marker alone with good sensitivity(74.7%),specificity(74%),positive predictive(68.3%),negative predictive values(79.6%)and accuracy(74.3%).The multiplication of HA×PIIINP is correlated significantly(P<0.05)with elevated liver enzymes(r=0.212),decreased albumin(r=-0.26),elevated aspartate aminotransferase-platelet ratio index(r=0.223)and elevated fibrosis-4 score(r=0.216)scores.CONCLUSION These findings suggested the remarkable role of fibrogensis markers HA and PIIINP in the prediction of hepatitis C virus DAAs treatment response.Multiplying HA with PIIINP values increase the sensitivity to detect treatment success and thus may aim to improve treatment duration and the disease control.
文摘Inflammatory bowel disease(IBD)is a chronic condition consisting of two main types:Crohn’s disease and ulcerative colitis.Conventional treatments for these diseases include aminosalicylates,corticosteroids,immunomodulators,and biologics.However,these treatments have several drawbacks,including high costs for patients and numerous side effects.Recently,advanced treatments have been developed,such as small-molecule therapies,targeted biologics,innovative drug delivery systems,and microbiome-based interventions.Emerging therapies like anti-interleukin-23 monoclonal antibody inhibitors,sphingosine-1-phosphate receptor modulators,and Janus kinase inhibitors are more specialized in reducing immune activity.They enhance bioavailability,reduce side effects,and specifically target the gastrointestinal tract without affecting other systems.Innovative drug delivery systems for IBD,such as nanoparticles,hydrogels,and microgrippers,improve bioavailability and prolong drug release.The combination of conventional and advanced therapies may benefit from the synergistic effects of both.Furthermore,fecal microbiota transplantation and probiotics can help restore the balance of gastrointestinal microbiota,reducing disease flare-ups.Advances in artificial intelligence,endoscopic techniques,and stem cell therapies have shown great potential in treating IBD,although several significant challenges remain.Treating this disease requires multidisciplinary integration and the application of technology and telemedicine.
文摘The advantageous magnetic,optical,and antibacterial properties of magnetic nanoparticles have recently drawn a lot of attention in the field of biomedicine.One of the most famous super paramagnetic materials,nanoferrite,is made up of two types of spinel structures:inverse and normal.Cobalt ferrite's inverse spinel structure offers several benefits,including excellent magnetostrictivity,good coupling efficiency,and inexpensive cost.This study's objective is to synthesize,characterize,and investigate the characteristics of the electrochemical properties of Co_(x)Fe_(1-x)Fe_(2)O_(4)/Fe_(2)O_(3)(x=0.30 and 0.77)nanoparticles using the chemical co-precipitation method.The physical properties of the produced nanoparticles were investigated using x-ray diffraction(XRD),transmission electron microscopy(TEM),and a vibrating sample magnetometer(VSM).The band gap properties of magneto-nano powders,including the direct and indirect band gap energies,and Urbach energy,are found.Scanning electron microscopy showed the presence of spherical nanoparticles ranging from 20.7 nm-23.7 nm.The analysis of Co_(x)Fe_(1-x)Fe_(2)O_(4)/Fe_(2)O_(3)(x=0.30 and 0.77)nanoparticles,for instance,reveals differences in their surface characteristics that are significant for their potential applications.Parameters like dnorm,de,and di,along with shape index and curvedness,contribute to a comprehensive understanding of the molecular surface,which is crucial for the design of new materials with desired physical and chemical properties.Molecular docking studies have revealed promising interactions between certain crystals and DNA gyrase,mirroring the binding mode of known inhibitors.This suggests potential for these crystals to serve as antimicrobial agents in future research.Such findings are crucial as they contribute to the development of new treatments against antibiotic-resistant bacteria,a growing global health concern.
文摘BACKGROUND Acrylamide(ACR),a toxic compound commonly found in heat-processed foods,poses a serious risk to liver health due to its oxidative and inflammatory effects.AIM To evaluate the hepatoprotective potential of ginger extract in mitigating ACR-induced liver toxicity in a rat model.METHODS Male Sprague-Dawley rats were randomly assigned into control,ACR-treated,and ACR+ginger-treated groups.Liver function enzymes[alanine aminotransferase(ALT),aspartate aminotransferase(AST),alkaline phosphatase(ALP)],oxidative stress biomarkers[malondialdehyde(MDA),glutathione(GSH),catalase(CAT),superoxide dismutase(SOD)],and histopathological assessments were performed.In addition,gene expression analyses of key antioxidant and inflammatory markers were conducted using quantitative polymerase chain reaction.RESULTS ACR administration significantly increased serum levels of ALT,AST,ALP,and MDA,while reducing levels of GSH,CAT,and SOD.Histological analysis revealed hepatic degeneration and inflammation.Co-administration of ginger extract significantly reversed these effects,restoring antioxidant enzyme levels,reducing oxidative stress,and improving liver histoarchitecture.CONCLUSION Ginger extract exhibited strong hepatoprotective effects against ACR-induced toxicity through antioxidant and anti-inflammatory mechanisms.These findings support the potential role of ginger as a natural dietary intervention for mitigating liver damage caused by environmental toxins.Further clinical studies are recommended to confirm its efficacy in human populations.
文摘Horizontal alignment greatly affects the speedof vehicles at rural roads. Therefore, it is necessary toanalyze and predict vehicles speed on curve sections.Numerous studies took rural two-lane as research subjectsand provided models for predicting operating speeds.However, less attention has been paid to multi-lane highwaysespecially in Egypt. In this research, field operatingspeed data of both cars and trucks on 78 curve sections offour multi-lane highways is collected. With the data, correlationbetween operating speed (V85) and alignment isanalyzed. The paper includes two separate relevant analyses.The first analysis uses the regression models toinvestigate the relationships between V85 as dependentvariable, and horizontal alignment and roadway factors asindependent variables. This analysis proposes two predictingmodels for cars and trucks. The second analysisuses the artificial neural networks (ANNs) to explore theprevious relationships. It is found that the ANN modelinggives the best prediction model. The most influential variableon V85 for cars is the radius of curve. Also, for V85 fortrucks, the most influential variable is the median width.Finally, the derived models have statistics within theacceptable regions and they are conceptually reasonable.
文摘Complexes of La (III), Nd(III), Gd(III), Sm(III), and Ce(IV) were synthesized with Schiff base [(3,5-di-tert-butyl-2-hy- droxybenzyl) amino] acetic acid (H3L). The ligand and its complexes were synthesized and characterized based on the following analysis: elemental analyses, FAB-mass, molar conductance measurements, magnetic measurement, UV-visible, IR, and NMR spectral studies. The spectral data revealed that the ligand acted as a neutral tridentate coordinating to metal ion through ONO donor sequence. Thermal degradation studies of the ligand and its complexes showed that the previous lanthanide complexes were more thermally stable than the ligand itself. The Schiff base and its complexes were screened for their antibacterial (Escherichia coli, Staphylococcus aureus) and antifungal (Aspergillus flavus and Candida Albicans).
基金supported and partly funded by a grant provided by the Administration of Postgraduate Studies and Research,Suez Canal University
文摘Metavolcanic rocks hosting base metal sulphide mineralization, and belonging to the Kid Metamorphic Complex, are exposed in the Samra-Tarr area, Southern Sinai. The rocks consist of slightly metamorphosed varicolored porphyritic lavas of rhyolite-to-andesite composition, and their equivalent pyroclastics. Geochemically, these metavolcanics are classified as high-K calc-alkaline, metaluminous andesites, trachyandesites, dacites, and rhyolites. The geochemical characteristics of these metavolcanics strongly point to their derivation from continental crust in an active continental margin. The sulphide mineralization in these metavolcanics occurs in two major ore zones, and is represented by four distinct styles of mineralization. The mineralization occurs either as low-grade disseminations or as small massive pockets. The associated hydrothermal alterations include carbonatization, silicification, sericitization and argillic alterations. The base metal sulphide mineralization is epigenetic and was formed by hvdrothermal solutions associated with subduction-related volcanic activity.
基金the Deanship of Scientific Research at King Khalid University for funding this work through research groups program under grant number(RGP.2/141/43)。
文摘Zinc telluride is a versatile wide band gap semiconductor used in many applications.But it has certain limitations like large dimensions and large band gaps.Introducing alkali metal to its bulk lattice(3D)can reduce its dimensions and lanthanide can produce a red shift in the energy gap by converting it into quaternary compounds.The alkali and lanthanide incorporated quaternary zinc tellurides CsLnZnTe_(3)(Ln=La,Pr,Nd and Sm)form layered crystal structure in which_(∞)^(2)[LnZnTe_(3)]-layers are separated by Cs+layer.The famous lanthanide contraction is experimental both from lattice constants and bond lengths.The calculated band gaps are 2.26,2.28,2.12,2.05 eV for CsLaZnTe_(3),CsPrZnTe_(3),CsNdZnTe_(3) and CsSmZnTe_(3),respectively.These compounds show direct band gap nature.The energy band gaps of these compounds have not been evaluated yet both experimentally and theoretically.Energy loss functions,refractive index and dielectric functions were also calculated to explore the potential applications of CsLnZnTe_(3) in optoelectronic devices.
文摘Plant diseases are a major impendence to food security,and due to a lack of key infrastructure in many regions of the world,quick identification is still challenging.Harvest losses owing to illnesses are a severe problem for both large farming structures and rural communities,motivating our mission.Because of the large range of diseases,identifying and classifying diseases with human eyes is not only time-consuming and labor intensive,but also prone to being mistaken with a high error rate.Deep learning-enabled breakthroughs in computer vision have cleared the road for smartphone-assisted plant disease and diagnosis.The proposed work describes a deep learning approach for detection plant disease.Therefore,we proposed a deep learning model strategy for detecting plant disease and classification of plant leaf diseases.In our research,we focused on detecting plant diseases in five crops divided into 25 different types of classes(wheat,cotton,grape,corn,and cucumbers).In this task,we used a public image database of healthy and diseased plant leaves acquired under realistic conditions.For our work,a deep convolutional neural model AlexNet and Particle Swarm optimization was trained for this task we found that the metrics(accuracy,specificity,Sensitivity,precision,and Fscore)of the tested deep learning networks achieves an accuracy of 98.83%,specificity of 98.56%,Sensitivity of 98.78%,precision of 98.67%,and F-score of 98.47%,demonstrating the feasibility of this approach.
文摘Air pollution from shipping is becoming a critical issue,particularly in dense hub port cities.One proposed solution to minimize ship-based emissions at ports is the implementation of an Onshore Power Supply(OPS)system.OPS allows ships to shut off their auxiliary engines and instead connect to the port grid.While there have been numerous studies conducted on ports in Europe and the United States,little research has been done on Egyptian ports.Therefore,this paper aims to investigate the feasibility of implementing OPS at Port Said West Port in Egypt,aligning with Egypt Vision 2030’s goals for addressing climate change.The research primarily focuses on analyzing data collected from calling ships to generate socio-economic and cost-effectiveness analyses of OPS.To further enhance the environmental benefits of OPS,the paper proposes the use of solar energy as the OPS electricity source.The findings of the study revealed that by relying on the national grid,emissions can be reduced by 28%.Moreover,it is predicted that this reduction could reach 100%if electricity generation is solely based on solar energy.Additionally,the economic analysis demonstrates promising profitability,with a payback period of approximately two years.
基金This study was funded by Taif University Researchers Supporting Project No.(TURSP-2020/222),Taif University,Taif,Saudi Arabia.
文摘The hepatotoxic effect of potassium bromide(KBr)on rat liver tissues were determined,as well as the potential protective effect of Tegillaraca granosa(T.granosa)flesh body extract.Twenty adult male albino rats were equally distributed into four groups;Group(I)treated with physiological saline(control group),Group(II)was orally gavaged by 200 mg/kg of T.granosa body extract day after day,Group(III)was intoxicated by KBr(150 mg/kg bwt day after day orally)and finally,Group(IV)was given a combination of T.granosa flesh body extract plus KBr with similar doses in the second and third groups.At the end of one month,blood,liver tissue and bone marrow samples were collected to be used for the required laboratory examinations.In response to KBr toxicity,there was a significant increase in serum antioxidant biomarkers,which was accompanied by a significant change in hepatocyte ultrastructure and a significant change in carbohydrate and protein levels within the liver organ.In addition,KBr intoxication resulted in a substantial increase in the incidence of chromosomal aberrations such as holes,splits,deletions,fragments,ploidy,and ring chromosomes,as well as significant upregulation of TGF-1,VEGF,and COX-2 gene expression.The hepatotoxic effect of KBr was counteracted by treatment with T.granosa flesh body extract.T.granosa flesh body extract has a curative antioxidant and numerous protective effects against KBr hepatotoxicity.
文摘Indeed,polymeric materials have thrived in worldwide sectors over the last five decades due to their versatility and durability,to the point that we can no longer envisage a product that does not contain them.However,many synthetic polymers that have been produced are mostly sourced from petroleum and coal as raw materials,making them environmentally incompatible because they cannot be integrated with what is a natural recycling system.One of the most important aspects of the transition to a circular bioeconomy(CBE)is the provision of more sustainable strategies for resource and waste management.Considering the environmental consequences associated with petroleum-based polymers(PBPs),natural biopolymers,originating from biomass,can be conceived as a promising solution to gradually replace the PBPs,and address,and resolve the potential challenges and prevailing research gaps in the PBPs.The biopolymers have significant advantages over PBPs in terms of low-cost/zero-cost precursors,environmental friendliness,and user-friendliness.The present review dissects the sources,synthesis pathways,structures,characterization,and employment of biopolymers and their composites in water and wastew-ater treatment applications via different scenarios.Furthermore,the CBE model framework proposes potential approaches to applying CBE principles in the wastewater management sector,with a heavy emphasis on not only technology but also organizational and societal reforms.To sum up,the reliance on biopolymers can be considered a crucial tool for assessing the global progress toward CBE,as well as future environmental management and planning.
基金Taif University Researchers Supporting Project number(TURSP-2020/275),Taif University,Taif,Saudi Arabia.
文摘In this paper,a new approach is devoted to find novel analytical and approximate solutions to the damped quadratic nonlinear Helmholtz equation(HE)in terms of the Weiersrtrass elliptic function.The exact solution for undamped HE(integrable case)and approximate/semi-analytical solution to the damped HE(non-integrable case)are given for any arbitrary initial conditions.As a special case,the necessary and sufficient condition for the integrability of the damped HE using an elementary approach is reported.In general,a new ansatz is suggested to find a semi-analytical solution to the non-integrable case in the form of Weierstrass elliptic function.In addition,the relation between the Weierstrass and Jacobian elliptic functions solutions to the integrable case will be derived in details.Also,we will make a comparison between the semi-analytical solution and the approximate numerical solutions via using Runge-Kutta fourth-order method,finite difference method,and homotopy perturbation method for the first-two approximations.Furthermore,the maximum distance errors between the approximate/semi-analytical solution and the approximate numerical solutions will be estimated.As real applications,the obtained solutions will be devoted to describe the characteristics behavior of the oscillations in RLC series circuits and in various plasma models such as electronegative complex plasma model.
