Combined Influence of Thermal Radiation and Radiation Absorption on MHD Mixed Convective Heat and Mass Transfer Flow in Circular Annulus

The aim of the problem is to analyze theoretically the combined effects of thermal radiation and radiation absorption on hydromagnetic Brinkman-Forchhimer mixed convection flow of optically dense fluid flow under the influence of magnetic field and chemical reaction on through a vertical circular annulus filled with a saturated porous medium. The outer cylinder is maintained at constant heat flux while the inner cylinder is at a constant temperature. Based on the assumptions, the nonlinear model equations of momentum, energy and species concentration balance are obtained and tacked numerically using an efficient implicit Galerkin finite element method with quadratic polynomial approximation technique. The behavior of velocity, temperature and concentration is analyzed for different parametric values at different axial positions numerically. The local skin friction, local Nusselt number and local Sherwood number are illustrated to show interesting features of the solution. Keywords: Heat & Mass Transfer; Thermal Radiation; Radiation absorption; Soret and Dufour effects; Concentric Annulus; Chemical reaction

Studies on the Zetapotential of Calcite/p-Sulfonatocalix[ 4,8]arenes

Zeta potential of calixarenes has been reported for the first time. The water-soluble calixarenes has been used as dispersion media in solid/liquid interface. p-sulfonato-calix[4]arene (PSC4) and p-sulfonato-calix[8]arene (PSC8) were synthesized and characterized by FTIR, NMR, mass spectrometry, and HPLC techniques. It was proved that the zeta potential is a fast and simple measurement to know the adsorption behavior of sufonato calixarnes on calcite. The chemisorption of p-sulfonato-calix[n]arene was confirmed by shift in iso electric point, adsorption studies and FTIR. The calculated free energy of adsorption value and its sign suggests the chemical interaction between the calcite surface and p-sulfonato calix[4]and[8]arene

Coinfection of Dengue and Chikungunya viruses: a serological study in a tertiary care hospital in Warangal, Telangana, India

Background: All around India, Dengue and Сhikungunya (CHIK) diseases seem to be rising. Aedes aegypti mosquitoes frequently transmit the CHIK virus and Dengue virus (DENV). Both viruses can spread together in regions where they cocirculate. Objectives: The objective of the current investigation is to determine the seroprevalence of coinfection with Dengue and Сhikungunya. Methods: The present study was conducted at the Virus Research and Diagnostic Laboratory, Kakatiya Medical College, Warangal, Telangana, India, from January to December 2022. The district health authority and the admitted cases provided the samples. The patients had symptoms typical of CHIK and DEN infections, including high fever (>39°C), chills, rashes, joint pain, joint swelling, nausea, and headache, myalgia, and pain behind the eyes. Results: Between January 2022 and December 2022, a total of 4892, 3344, and 2103 hospitalised patients underwent serological testing for the Dengue virus (DENV), the Сhikungunya virus (CHIKV), and both Dengue and Сhikungunya virus for co-infection, respectively. IgM Capture ELISA was used for all tests. 153 (7.8%) of the cases had both Dengue virus (DENV) and Сhikungunya virus IgM positivity. (CHIKV). Dengue virus (DENV) monoinfection, or 703 (14.3%), denotes the presence of Dengue virus. 313 (9.3%) individuals tested positive for the Сhikungunya virus, or mono-infected with the virus (CHIKV). Chikungunya IgM, Dengue IgM, and Co-infection Conclusion: Dengue and Chikungunya virus co-infections are clinically more serious than a single infection. However, in endemic regions, particularly during the monsoon season, clinically suspected cases should be tested for both viruses. To determine the severity and clinical result of co-infection, more thorough investigations are needed to analyse the pathophysiology and complications of co-infection

Varijacija gena β-tubulin izotip 1 u kodonu 167 i 200 odgovorna za rezistenciju Haemonchus contortus na benzimidazol iz ovaca uzgajanih u distriktu Krishna, AP, Indija.

A study was carried out for detection of single nucleotide polymorphisms at codon 167 and 200 of the β-tubulin isotype 1 gene that are linked to BZ resistance of Haemonchus contortus in sheep. A total of 226 adult male worms were genotyped from different regions of Krishna district, Andhra Pradesh. Amplification of DNA from each worm by PCR, followed by semi-nested PCR, yielded an expected fragment of 488 bp product. The PCR product was subsequently digested with restriction endonuclease SnaBI and TaaI to detect mutation at codon 167 and 200 respectively. On digestion, three different fragment patterns were observed at codon 200, one with 215 bp, 206 bp and 67 bp (homozygous resistant; ‘rr’), the second with 282 bp, 215 bp, 206 bp and 67 bp (heterozygous; ‘rS’), and another with 282 bp and 206 bp fragment (homozygous susceptible; ‘SS’). No resistance allele (TAC) was evident at codon 167 in any worms including the worms that carried a susceptible allele (TTC) at codon 200. The overall genotype frequencies varied significantly (P<0.01) with respect to the β-tubulin gene/TaaI locus in the study area. The frequency of ‘rS’ (64.60%) genotypes was high compared to that of ‘rr’ and ‘SS’ genotypes. The genotype frequency for ‘rr’ worms ranged from 6.25% to 31.82% among different regions. In general, the prevalence of BZ resistance allele was found to be significantly (P<0.01) higher (54.0%). Results revealed β-tubulin isotype 1 polymorphism at codon 200 in H. contortus of sheep indicating the occurrence of resistance allele in the study area.Provedeno je istraživanje s ciljem otkrivanja polimorfizama pojedinačnih nukleotida u kodonu 167 i 200, β-tubulin izotip 1 gena koji je povezan s otpornošću ovčjeg parazita Haemonchus contortus prema benzimidazolu (BZ). Genotipizirano je ukupno je 226 odraslih muških crva iz različitih područja distrikta Krishna, Andhra Pradesh. Umnažanje DNA iz svakoga crva pomoću PCR-a praćeno je poluugniježđenim PCR-om, čime je proizveden očekivani fragment od 488 bp. PCR produkt potom je pomiješan s restrikcijskim endonukleazama SnaBI i TaaI radi otkrivanja mutacije u kodonu 167 i 200. U kodonu 200 opažena su tri različita fragmenta, jedan s 215 bp, 206 bp i 67 bp (homozigotno rezistentan, „rr“), drugi s 282 bp, 215 bp, 206 bp i 67 bp (heterozigot, „rS“) i treći s 282 bp i 206 bp fragmentom (homozigotno sumnjiv, „SS“). Rezistentni alel (TAC) nije ustanovljen u kodonu 167 svih istraženih crva, uključujući crve koji su nosili sumnjivi alel (TTC) u kodonu 200. Ukupna učestalost genotipova znatno je varirala (P<0,01) u odnosu na β-tubulin gen/TaaI lokus istraženog područja. Učestalost genotipa „rS“ (64,60 %) bila je visoka u usporedbi s učestalošću genotipova „rr“ i „SS“. Učestalost genotipa „rr“ kod crva iz različitih područja kretala se u rasponu od 6,25 % do 31,82 %. Općenito, opažena je signifikantno (P<0,01) viša (54,0 %) prevalencija BZ rezistentnog alela. Rezultati potvrđuju da polimorfizam kodona 200 u β-tubulin izotip 1 genu ovčjeg parazita H. contortus upućuje na pojavu rezistentnih alela u istraženim područjima

A network view on Schizophrenia related genes

Abstract This study is a part of a project investigating the molecular determinants of neurological diseases. To account for the systemic nature of these diseases we proceeded from a well established list of 38 schizophrenia-related gene

Soret and Dufour effects on MHD flow with heat and mass transfer past a permeable stretching sheet in presence of thermal radiation

An analysis has been carried out to study the combined effects of the magnetic field, Joule heating, thermal radiation absorption, viscous dissipation, Buoyancy forces, thermal-diffusion and diffusion-thermion the convective heat and mass transfer flow of an electrically conducting fluid over a permeable vertically stretching sheet. The boundary layer equations for the fluid flow, heat and mass flux under consideration have been obtained and reduced into a system of non-linear ordinary differential equations by using appropriate similarity transformation. Using shooting method coupled with the fourth order Runge-Kutta integration scheme, the numerically solutions have been obtained and presented graphically. The effects of various embedded thermo-physical parameters on the fluid velocity, temperature, skin friction, Nusselt number and Sherwood number have been determined and discussed quantitatively. A comparison of a special case of our results with the one previously reported in the literature shows a very good agreement. An increase in values of thermal radiation, viscous dissipation, suction/injection coefficient and chemical reaction results in the increase of velocity, temperature and heat-mass transfer rates. It is further noted that the velocity, temperature and heat-mass transfer rates reduces on the boundary layer of a permeable vertical stretching sheet due to increase in the values of Soret or decrease in values of Dufour. Further, this work leads to study different flows of electrically conducting fluid over a permeable vertical stretching sheet problem that includes the two dimensional non-linear boundary equations

Studies on the Energy Band Discontinuities in SnS/ZnMgO Thin Film Heterojunction

AbstractTin sulfide (SnS), with a direct energy band gap of 1.3eV and high absorption coefficient >104cm-1 is a promising candidate for application as an absorber material for solar cell fabrication. Although several research groups have fabricated SnS-related solar cells, the reported efficiencies were low (< 3.0%). One of the reasons for this low efficiency is the mismatch at the band edges in the heterojunction. In the present work, SnS films have been synthesized by sulfurization of Sn layers deposited by evaporation and RF sputtering onto SnO2 coated glass. The structural properties of the layers were discussed. All RF sputtered Zn0.8Mg0.2O (ZMO) and ZnO:Ga were coated on SnS as buffer and window layers respectively. The band offsets at the SnO2/SnS and ZMO/SnS heterojunctions were evaluated using X-ray photoelectron spectroscopy measurements. The conduction band (ΔEc) and valence band (ΔEv) discontinuities were determined as approximately 1.0eV and 3.5eV for SnO2/SnS and 0.4eV and 1.7eV for ZMO/SnS junction. The related energy band diagram was constructed and the results discussed

An Intrusion Detection Using Machine Learning Algorithm Multi-Layer Perceptron (MlP): A Classification Enhancement in Wireless Sensor Network (WSN)

During several decades, there has been a meteoric rise in the development and use of cutting-edge technology. The Wireless Sensor Network (WSN) is a groundbreaking innovation that relies on a vast network of individual sensor nodes. The sensor nodes in the network are responsible for collecting data and uploading it to the cloud. When networks with little resources are deployed harshly and without regulation, security risks occur. Since the rate at which new information is being generated is increasing at an exponential rate, WSN communication has become the most challenging and complex aspect of the field. Therefore, WSNs are insecure because of this. With so much riding on WSN applications, accuracy in replies is paramount. Technology that can swiftly and continually analyse internet data streams is essential for spotting breaches and assaults. Without categorization, it is hard to simultaneously reduce processing time while maintaining a high level of detection accuracy. This paper proposed using a Multi-Layer Perceptron (MLP) to enhance the classification accuracy of a system. The proposed method utilises a feed-forward ANN model to generate a mapping for the training and testing datasets using backpropagation. Experiments are performed to determine how well the proposed MLP works. Then, the results are compared to those obtained by using the Hoeffding adaptive tree method and the Restricted Boltzmann Machine-based Clustered-Introduction Detection System. The proposed MLP achieves 98% accuracy, which is higher than the 96.33&amp;percnt; achieved by the RBMC-IDS and the 97% accuracy achieved by the Hoeffding adaptive tree

6-Formyl-2-meth­oxy-3-nitro­phenyl 4-toluene­sulfonate

In the title compound, C15H13NO7S, the inter­planar angle between the two aromatic rings is 26.04 (3)°. The crystal structure is stabilized by C—H⋯O interactions