@Research Paper
<#LINE#>Solid State Properties of Ni and Nb doped Barium Titanate<#LINE#>Rachna,M.U.@Auwalu<#LINE#>1-10<#LINE#>1.ISCA-RJEngS-2015-022.pdf<#LINE#>Research and Technology Development Centre, Shardra University, INDIA @ Department of Chemistry, Sharda University, NIGERIA<#LINE#>1/5/2015<#LINE#>30/5/2015<#LINE#>High dielectric constant and low loss characteristics of Barium Titanate make it as an excellent choice for many applications, particularly as capacitors, multilayer capacitors (MLCs) and energy storage devices. When Barium Titanate doped with oxides, give interesting properties. Ba1-xNiTiO where x = 0.0, 0.1 and BaNb02Ti993 where x=0.0,x=0.02 were prepared by solid state reaction method and characterized by. X- ray diffraction and Scanning electron microscopic techniques. Results showed that nanosize materials were formed. Dielectric constant was determined at different temperature and frequency.<#LINE#> @ @ Structural, Optical and Dielectric Properties of Tin Selenide Nanoparticles Prepared by Aqueous Solution Method  Solanki G. K., Gosai N.N. and Patel K.D. Department of Physics, Sardar Patel University, Vallabh vidyanagar 388 120, Gujarat, Department of Physics, Matushri Virbaima Mahila Science and Home Science College, Rajkot, Gujarat, INDIA, Res. J. chem. sci., 5(3), 1-5 (2015) @No $ @ @ Synthesis, Spectroscopic and Physico chemical Characterization of Cu (II), Ni(II), Co(II) and Mn(II) Coordination  compounds with 4-methoxysalycylaldehyde-4-(2’-carboxy-5’-sulphophenyl) -3-thiosemi-carbazone 4-(MSCST) Malik GM, Patel BA, and Patel NC,Department of chemistry, Navyug Science College, Surat-395 007, INDIA Department of chemistry, Sir P T Sarvajanik college of Science, Surat-395 007, INDIA, Res. J. chem. sci., 5(3), 49-52 (2015) @No $ @ @ The Effect of Spinel formation in the Ceramic Welding Fluxes on the Properties of Molten Slag Davidenko A. O., Sokolsky V. E., Lisnyak V. V., Roik O. S., Goncharov I. A. and Galinich V.I. Chemical Department, Taras Shevchenko National University of Kyiv, 01601 Kyiv, UKRAINE. The E.O. Paton Electric Welding Institute, National Academy of Sciences of Ukraine, 03680 Kyiv, UKRAINE, Res. J. chem. sci.,5(1), 34 (2015) @No $ @ @ Structural, Optical, Thermal and Electrical properties of Fungus guided Biosynthesized Zinc Sulphide   Nanoparticles Senapati U. S., Jha D.K. and Sarkar D. Department of Physics, Henrique Girls’ College, Guwahati-781001, INDIA Department of Botany, Gauhati University, Guwahati-781014, INDIA3Department of Physics, Gauhati University, Guwahati- 781014, INDIA, Res. J. chem. sci.,5(1), 33-40 (2015) @No $ @ @ Physical Properties of Zinc chloride in Aqueous Dextrose Solution Sarkar Kalipada Assistant Professor, Islampur College, Islampur, Uttar Dinajpur: 733202, INDIA, Res. J. chem. sci.,5(1), 27-32 (2015) @No $ @ @ Effect   of   BaTiO3   Nanoparticle   on   Electro-Optical Properties of Polymer Dispersed Liquid Crystal Displays Mallikharjuna Rao Darla, Sriharsha Hegde,   Soney Varghese Department of GEBH, Sree Vidyanikethan Engineering  College, A Rangampet,  Tirupati,  Andhra Pradesh, India; Department of Mechanical Engineering, National Institute of Technology Karnataka (NITK), Surathkal, Karnataka, India; School of Nano Science and Technology, National Institute of Technology Calicut (NITC), Kerala, India, August  (2013 ) @No $ @ @ Crystal Structure of BaxSr1xTiO3 Fine Powder Natheer B. Mahmood1, Emad K. Al-Shakarchi1, Brahim Elouadi, Xavier Feaugas Physics Department, College of Science, Al-Nahrain University, Baghdad, Iraq Laboratoire des Sciences de ’Ingénieur pour ’Environnement, Université de La Rochelle, La Rochelle,  January (2015) @No $ @ @ Electrochemical and Photoelectrochemical Properties of Nano-Islands of Zinc and Niobium Oxides Deposited on Aluminum Thin Film by RF Magnetron Reactive Sputtering Go Sajiki, Yasuhiko Benino, Tokuro Nanba, Hiroshi Okano Technological, Educational Supporting Center in Takamatsu, Kagawa National College of Technology, Takamatsu, Japan Graduate School of Environmental and Life Science, Okayama University, Okayama, Japan  General Education, Kagawa National College of Technology, Takamatsu, Japan April, (2015) @No $ @ @ Mohiddon MA , and Yadav KL, Kumar sol gel science technology, 49 (2009) @No $ @ @ Masion WD, Kleeberg R, Heimann RB, abd Panichphant S, J Eur ceram Soc, 127, 23 (2003) @No
<#LINE#>Assessment of Resources for the Krishna Upper Basin by using Water Resources Information System (WRIS), India<#LINE#>M.J.@Madolli,P.S.@Kanannavar,J.M.@Umesh<#LINE#>11-16<#LINE#>2.ISCA-RJEngS-2015-024.pdf<#LINE#>Department of Hydrology, Indian Institute of Technology, Roorkee, Uttarakhand-247667, INDIA @ Departmentof Soil and Water Engineering, College of Agricultural Engineering, University of Agricultural Sciences, Raichur-584104, Karnataka, INDIA @ Departmentof Geology, Karnataka University, Dharwad-580003, Karnataka, INDIA<#LINE#>15/5/2015<#LINE#>5/6/2015<#LINE#>The Water Resources Information System (WRIS), India, is empowering the improvement of watershed (basin) assessments so as to expand the swiftness and proficiency producing data to guide preservation usage, and additionally the rate and effectiveness of placing it into the hands of local decision makers. Therefore the current study uses the WRIS India portal for assessing the resources and provides a comprehensive overview of the ecological health of Krishna upper basin. In the study assess the spatio-temporal variation of rainfall and temperature, soil erosion potentiality and ground water fluctuation (draft) for the Krishna upper basin. These appraisals help land-proprietors and neighborhood pioneers set needs and focus the best activities to accomplish their objectives.<#LINE#> @ @ Bar R., Rouholahnejad E., Rahman K., Abbaspour K.C. and Lehmann A., Climate change and agricultural water resources: A vulnerability assessment of the Black Sea catchment, Envi. Sci. and Policy,46, 57–69 (2015) @No $ @ @ Sham Kumar Sharma, M.L. Kansal, and AdityaTyagi, Resource assessment and strategic planningfor improvement of water supply to Shimla city in India using geo-spatial techniques, The Egypt, J. of Rem. Sen. and Space Sci., 1-13 (2015) @No $ @ @ The Water Resources Information System (WRIS), India (Jan, 2015), (http://www.india-wris.nrsc.gov.in/), (2015) @No $ @ @ National Remote Sensing Centre, India, (http://bhuvan.nrsc.gov.in/bhuvan_links.php), (2015) @No $ @ @ Central Water Commission (CWC), Ministry of Water Resources, Govt. of India, (2015) @No $ @ @ Central Ground Water Board, India, (http://cgwb.gov.in/), (2015) @No $ @ @ IGRAC, Manual on Water Resources Assessment, Technical material for Water Resources Assessment, WMO, (2012) @No $ @ @ Water Resources Assessment, Handbook for Review of National Capabilities. WMO and UNESCO, (1997) @No $ @ @ Miloradov M. and Marjanovic P., Guidelines for conducting water Resources Assessment, (1998) @No
<#LINE#>Comparative Analysis of Soft Switching Boost Converter<#LINE#>Subhajita@Sahu<#LINE#>17-24<#LINE#>3.ISCA-RJEngS-2015-033.pdf<#LINE#>Department of Electrical Engineering, IGIT, Sarang, Dhenkanal, Odisha-759146, INDIA <#LINE#>3/6/2015<#LINE#>11/6/2015<#LINE#>The objective of this paper is to analyse different topologies of interleaved soft switching boost converter for photovoltaic cell and hence draw a comparison between them. The topologies analysed in this paper are interfaces for photovoltaic power generation system. <#LINE#> @ @ Verma Sujata, Singh S.K and Rao A.G., Overview of control Techniques for DC-DC converters, Res. J. Engg. Sci., 2(8), 18-21, (2013) @No $ @ @ Sridevi J., A New Active Power Factor Correction Controller using Boost Converter, Res. J. Engg. Sci., 2(8), 7-11, (2013) @No $ @ @ Park S., Park Y., Choi S., Choi W. and Lee K., SoftSwitched Interleaved Boost Converters for High Step-Up and High-Power Applications, IEEE Transactions on power electronics, 26(10), 2906-2914 (2011) @No $ @ @ Jung D.Y., Ji Y.H., park S.H., Jung Y.C. and Won C.Y., Interleaved Soft Switching boost Converter for Photovoltaic Power Generation System, IEEE Transactions on Power Electronics, 26(4), 1137-1145 (2011) @No $ @ @ Yao G., Chen A. and He X., Soft Switching Circuit for Interleaved Boost Converters, IEEE Transactions on Power Electronics, 22(1),80-86, (2007) @No $ @ @ www.mathworks.com, (2015) @No $ @ @ Silva R.N.A.L., Henn G.A.L., Praça P.P., Barreto L.H.S.C., Oliveira D.S. and Antunes F.L.M., Soft Switching Interleaved Boost converter with High Voltage Gain, IEEE Transactions on Power Electronics, Spec.Conf(PESC), pp, 4157-4161 (2008) @No $ @ @ Ramya G., and Ramaprabha R, Comparative Analysis of Soft Switching Two phase Boost Converter for Photovoltaic System, InternationalConference on Circuits, Power and Computing Technologies, 231-235 (2013) @No $ @ @ Li W., He X., High Step-up Soft Switching Interleaved Boost Converters with cross-winding-coupled inductors and reduced auxiliary switch number, IET Power Electron., 2(2), 125–133, (2009) @No $ @ @ Jung D.Y., Ji Y.H., Park S.H., Jung Y.C. and Won C.Y., Ripple Analysis of Interleaved Soft Switching boost Converter for Photovoltaic Applications, International Power Electronics Conference, 699-702 (2010) @No $ @ @ Roh Y.S., Moon Y.J., Park J. and Yoo C., A Two-Phase Interleaved Power Factor Correction Boost Converter With a Variation-Tolerant Phase Shifting Technique, IEEE Transaction on Power Electronics, 29(2), 1032-1040 (2012) @No