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An Approach towards economical hierarchic Search over Encrypted Cloud

Sasubilli S., Perichiappan K. A., Kumar P. S., Kumar A.

Annals of Computer Science and Information Systems

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2018

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Vol. 14

125--129

EN

In display, Cloud registering is the prevailing area in data innovation. With expanded value of information outsourcing of cloud information protection of delicate information turns into a major issue. For the security reason information is encoded before outsourcing. Yet, scrambled information is exceptionally hard to be recovered proficiently. Albeit some conventional scan plans are accessible for looking encoded information, yet these methods are just base on Boolean pursuit and not manage the importance of records. These methodologies experience the ill effects of two principle inadequacies. Right off the bat, on the off chance that one client has no pre-learning of scrambled information, needs to process each recovered record to discover after effects of his utilization. Also, every time recovering every one of the records containing question watchword builds arrange movement. This work is devoted to build up a process for security and compelling recovery of cloud information. Positioned seek enormously enhances the execution by restoring the documents in positioned arrange in light of some closeness importance criteria. To accomplish more viable execution, framework shows an approach for SSE which uses data recovery and cryptography primitives. Thus the execution depends OPSE.

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Development of calcium titanium oxide coated silicon solar cells for enhanced voltage generation capacity

Kathirvel K., Rajasekar R., Shanmuharajan T., Pal S. K., Kumar P. S., Kumar J. S.

Materials Science Poland

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2017

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Vol. 35, No. 1

181--187

EN

Depletion of fossil fuel based energy sources drive the present scenario towards development of solar based alternative energy. Polycrystalline silicon solar cells are preferred due to low cost and abundant availability. However, the power conversion efficiency of polycrystalline silicon is lesser compared to monocrystalline one. The present study aims at analyzing the effect of calcium titanium oxide (CaTiO3) antireflection (AR) coating on the power conversion of polycrystalline solar cells. CaTiO3 offers unique characteristics, such as non-radioactive and non-magnetic orthorhombic biaxial structure with bulk density of 3.91 g/cm3. CaTiO3 film deposition on the solar cell substrate has been carried out using Radio Frequency (RF) magnetron sputter coating technique under varying time durations (10 min to 45 min). Morphological studies proved the formation of CaTiO3 layer and respective elemental percentages on the coated substrate. Open circuit voltage studies were conducted on bare and coated silicon solar substrates under open and controlled atmospheric conditions. CaTiO3 coated on a solar cell substrate in a deposition time of 30 min showed 8.76 % improvement in the cell voltage compared to the bare solar cell.

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Influence of Rock Properties on Wear of M and SR Grade Rubber with Varying Normal Load and Sliding Speed

Pal S. K., Rao K. U. M., Kumar P. S., Rajasekar R.

Archives of Metallurgy and Materials

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2017

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Vol. 62, iss. 3

1787--1793

EN

Rubbers are interesting materials and are extensively used in many mining industries for material transportation. Wear of rubber is a very complex phenomenon to understand. The present study aims to explain the influence of rock properties on wear of M and SR grade rubber used in top cover of conveyor belts. Extensive laboratory experiments were conducted under four combinations of normal load and sliding speed. The wear of both the rubber types were analyzed based on the rock properties like shear strength, abrasivity index and fractal dimension. A fully instrumented testing set up was used to study the wear of rubber samples under different operating conditions. In general, wear was higher for M grade rubber compared to SR grade rubber. Increase in shear strength of rocks depicts decreasing trend for the wear of M and SR grade rubber at lower load conditions. Moreover, a higher load combination displays no definite trend in both the rubbers. The strong correlation between the wear of rubber and frictional power for all rubber-rock combinations has given rise to the parameter A, which reflects the relative compatibility between the rubber and rock. Increase of Cerchar’s Abrasivity Index of rocks shows gradual enhancement in wear for M grade rubber in all the load and speed combinations whereas, it fails in SR grade rubber due to its higher strength. The wear of rubber tends to decrease marginally with the surface roughness of rocks at highest normal load and sliding speed in M grade rubber. However, the wear of M and SR grade rubber is influenced by the surface roughness of rocks.

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Adsorption kinetic, equilibrium and thermodynamic investigations of Zn(II) and Ni(II) ions removal by poly(azomethinethioamide) resin with pendent chlorobenzylidine ring

Kumar P. S., Ethiraj H., Venkat A., Deepika N., Nivedha S., Vidhyadevi T., Ravikumar L., Sivanesan S.

Polish Journal of Chemical Technology

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2015

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Vol. 17, nr 3

100--109

EN

This paper reports the application of poly(azomethinethioamide) (PATA) resin having the pendent chlorobenzylidine ring for the removal of heavy metal ions such as Zn(II) and Ni(II) ions from the aqueous solutions by adsorption technology. Kinetic, equilibrium and thermodynamic models for Zn(II) and Ni(II) ions adsorption were applied by considering the effect of contact time, initial metal ion concentration and temperature data, respectively. The adsorption influencing parameters for the maximum removal of metal ions were optimized. Adsorption kinetic results followed the pseudo-second order kinetic model based on the correlation coefficient (R2) values and closed approach of experimental and calculated equilibrium adsorption capacity values. The removal mechanism of metal ions by PATA was explained with the Boyd kinetic model, Weber and Morris intraparticle diffusion model and Shrinking Core Model (SCM). Adsorption equilibrium results followed the Freundlich model based on the R2 values and error functions. The maximum monolayer adsorption capacity of PATA for Zn(II) and Ni(II) ions removal were found to be 105.4 mg/g and 97.3 mg/g, respectively. Thermodynamic study showed the adsorption process was feasible, spontaneous, and exothermic in nature.