@Research Paper
<#LINE#>Optimum allocation of water and land resource for maximizing farm income of Jabalpur District, Madhya Pradesh, India<#LINE#>Vinay Kumar @Gautam,M.K. @Awasthi <#LINE#>1-7<#LINE#>1.ISCA-RJRS-2020-014.pdf<#LINE#>Department of Soil & Water Engineering, CTAE, MPUAT, Udaipur, Rajasthan, India@Department of Soil & Water Engineering, CAE, JN Krishi Vishwavidyalay, Jabalpur, MP, India<#LINE#>22/5/2020<#LINE#>10/8/2020<#LINE#>The continuous decrease and irrational use of water resources is the key issue for the proper application of water resources in tribal area of Jabalpur district. This study attempts to propose a new aspect of optimum allocation of land and water resources in Jabalpur District. The minimum cultivated area that ensures food requirement and land constraint have a direct impact on water resources allocation. To conduct an accurate program for land and water resource allocation for water deficit area a multi- constraint linear programing model (LPM) was developed by implanting land resource as a constraint on water resources allocation which has to be considered by the demand of water resources in the agriculture sector. The results shows that increase in major crops area like rice, wheat, gram, maize and oilseeds crop areas against the reduction in sorghum, moong, and sugarcane . Existing cropping intensity of the district was 150%. To achieve the maximum profit per unit of land i.e. cropping intensity more than 200% for district, therefore an extensive measures was made for district to fix out the water demand supply gap for agriculture. In this study a user friendly Linear programing software was used to develop a model for optimum allocation of resources under seasonal and multi-crop condition for Jabalpur district. The net annual profit is increased by 9.1% under optimal allocation conditions. The sensitivity analysis of model parameter shows that the better price of crop is the most sensitive parameter followed by the crop area. The results obtained from this study will definitely help policy makers to decide how to properly utilize and promote the water and land resources for the available area.<#LINE#>Matanga, G.B. and Marino, M.A. (1979). Irrigation planning Cropping pattern. Water Resource. Res., 15(1), 672-678.@undefined@undefined@Yes$Khare, D., Jat, M. K. and Sunder, J. D. (2007). Assessment of water resources allocation options: Conjunctive use planning in a link canal command. Resources, Conservation and Recycling, 51(2), 487-506. doi:10.1016/j.resconrec.2006.09.011.@undefined@undefined@Yes$Singh, D., Jaiswal, C., Reddy, K., Singh, R. and Bhandarkar, D. (2001). Optimal cropping pattern in a canal command area. Agricultural Water Management, 50(1), 1-8. 10.1016/s0378-3774(01)00104-4.@undefined@undefined@Yes$Singh, A. (2014). Optimization modelling for seawater intrusion management. J. Hydrol., 508(5), 43-52.@undefined@undefined@Yes$Dasa Biswadip, Singha Ajay, Pandaa Sudhindra N. and Yasuda, Hiroshi (2015). Optimal land and water resources allocation policies for sustainable irrigated agriculture. Land Use Policy, 42, 527-537.@undefined@undefined@No$Joodavi, A., Zare M. and Mahootchi, M. (2015). Development and application of a stochastic optimization model for groundwater management: crop pattern and conjunctive use consideration. Stoch Environ Res Risk Assess, 29, 1637-1648.@undefined@undefined@Yes$C.G.W.B. (2013). District Ground Water information booklet, Jabalpur. A report published by Central Ground Water Board, Bhopal.@undefined@undefined@Yes$James, G. Larry. (1988). Principles of farm irrigation Design. John Willey and Sons Publishers, United Kingdom.@undefined@undefined@Yes$Awasthi, M.K., Tomar, V.S., Nema, R.K., Lodhi A.S., Srivastava, R.N., Sharma, S.K. and Pyasi, S.K. (2018). A Book on Water Budgeting of Madhya Pradesh. College of Agricultural Engineering, JNKVV, Jabalpur, Madhya Pradesh, pp 1-150.@undefined@undefined@No$Gautam, V. K. and Awasthi, M.K. (2020). Evaluation of Water Resources Demand and Supply for the Districts of Central Narmada Valley Zone. Int. J. Curr. Microbiol. App. Sci., 9(1), 3043-3050. https://doi.org/10.20546/ ijcmas.2020.902.350.@undefined@undefined@Yes$Gupta, N. (2014). Groundwater Vulnerability Assessment using DRASTIC Method in Jabalpur District of Madhya Pradesh. International Journal of Recent Technology and Engineering, 3.@undefined@undefined@Yes$Nazarifar, M.H., Momeni, R., M.H. Kanani and Abolhasani, A. (2017). Develop a non-linear optimization model for determining optimal cropping pattern under different water regimes. Academia Journal of Biotechnology, 5(9), 137-146. 10.15413/ajb.2017.0514.@undefined@undefined@No$Sethi Laxmi, N., Panda Sudhindra N. and Nayak, Manoj K. (2006). Optimal crop planning and water resources allocation in a coastal groundwater basin, Orissa, India. Agricultural Water Management, 83(1), 209-220.@undefined@undefined@Yes$Singh, A. (2017). Optimal allocation of water and land resources for maximizing the farm income and minimizing the irrigation-induced environmental problems. Stoch Environ Res Risk Assess, 31(2), 1147-1154.@undefined@undefined@Yes$Xue, X., Liao, J.,Hsing, Y.T., Huang, C.H., and Liu, F.M. Policies (2015). Land use, and water resource management in an arid oasis ecosystem. Environ. Manag. 55(1), 1036-1051.@undefined@undefined@Yes$Zare, M. and Koch M. (2014). Optimization of Cultivation Pattern for Maximizing Farmers@undefined@undefined@Yes
@Review Paper
<#LINE#>Coastal navigation in the bay of Bengal, a study of eastern coast of Orissa<#LINE#>Ganeswar @Nayak <#LINE#>8-12<#LINE#>2.ISCA-RJRS-2020-009.pdf<#LINE#>Dept of History, F.M. Autonomous College, Balasore, Odisha<#LINE#>21/4/2020<#LINE#>7/7/2020<#LINE#>The PPPP tries to discuss a new dimension of coastal navigation in the Bengal Coast of Orissa. It discusses geographical location of different maritime landmarks in the Orissa coast. These landmarks facilitate coastal navigation to vessels and ships for long distance maritime voyage. These navigational landmarks played a dominant role in the in the identification of specific location of the coast. The PPPP further tries to delineate the role Moon, Stars and the Sun play in the coastal navigation of the country. In this geographical background, it further   tries to describe the important role of the South West and North West monsoon in the coastal   navigation of Bengal Coast of Orissa.<#LINE#>Schoff   W.H. (1974). Periplus of Erythrean Sea. New Delhi, p 48.@undefined@undefined@No$Warmington E.H. (1974). The Commerce between the Roman Empire and India. New Delhi, p35.@undefined@undefined@No$Majumdar Ramesh Chandra (1970). The Classical Age. Bombay, p305.@undefined@undefined@No$Horsburg J. (1836). India Directory. London, p 606.@undefined@undefined@Yes$Parkinson C.N. (1937). Trade in the Eastern Seas, 1793-1813. Cambridge, p 105.@undefined@undefined@Yes$Milburn W. (1815). Oriental Commerce containing a Geographical Description of the principal places in the East Indies, China, and Japan. Vol, London. p, 91.@undefined@undefined@Yes$Tripathy S. (2006). Monsoon Wind and Maritime Trade: A Case Study of Historical Evidences from rissa. Current Science, 6, p 90.@undefined@undefined@Yes$Nayak G. (2011). Navigational Landmarks in the Eastern Coast of Orissa. Journal of Indian Ocean Studies, 19. P 864-871.@undefined@undefined@No$Arunachalam B. (1988). Traditional Navigational Landmarks on the East Coast of Orissa, Maritime Heritage of India. cited in   by K S Behera, (ed) Maritime Heritage in India New Delhi, p237.@undefined@undefined@No$Rennel J. (1782). Memoirs of a Map of Hindoosthan (Different Editions) and adjacent countries. London, p8.@undefined@undefined@No$Orme R. (1850). History of Military Transaction of the British Nation in Hindoosthan. London, p 40.@undefined@undefined@No$Hamilton W. (1820). A Geographical and Historical Description of Hindoosthan and Adjacent Countries. London, p37,@undefined@undefined@Yes$Kalavathy, M. H., & Tietze, U. (1984). Artisanal marine fisheries in Orissa: A techno-demographic study (No. C050. 016). FAO;. Swedish International Development Authority (SIDA).@undefined@undefined@Yes$Mohapatra P. K. (1964). Ship and Boat Building Industries  of Orissa. Proceedings of Indian History Congress, Patna, p217@undefined@undefined@No$Mohapatra P. (1983). Traditional Marine Fishing Craft and Gear of Orissa, Bay of Bengal  Programme. Development of Small Scale Industries, Madras, p31.@undefined@undefined@Yes$Fairbridge Rhodes W. (1966). Encyclopedia of Oceanography. New York, p 110.@undefined@undefined@No$Blandford Henery E. (1899). A Practical Guide to the Climates and Weather of India, Ceylon and Burma. London, p 277.@undefined@undefined@No$Findley A. S. (1882). Indian Ocean and Bay of Bengal Directory. London p164,@undefined@undefined@Yes$Grandpre L. (1802). A Voyage in the Indian Ocean and to Bengal (translated from French). London, p 196.@undefined@undefined@No$Parkinson C. N. (1937). Trade in Eastern Seas, 1793-18. Cambridge, p105,@undefined@undefined@Yes$Elmore W. H. (1802). The Mariners Directory and Guide to the Trade and Navigation of India and China. London, p 290.@undefined@undefined@No$Johnson J. (1807). Oriental Voyager, London, p 306.@undefined@undefined@No$Flinders Mathew (1814). A Voyage to Tera Australis. London, p21.@undefined@undefined@Yes$Grose J. H. (1772). A Voyage to East Indies. London p, 252.@undefined@undefined@No$Capper James (1801). Observations on the Winds and Monsoon. London, p201.@undefined@undefined@Yes$Asiatic Annual Register (1800). A View of the Hindisthan, and of the politics, Commerce and Literature of Asia, for the year 1799. Edited by Samuel E. p 284.@undefined@undefined@No$Blendford  Henery F (1889). Indian Ocean and Adjacent Countries. London, 231.@undefined@undefined@No$Stephenson William (1824). Historical Sketches of the Progress of Discovery, Navigation, and Commence from Earliest Records to the Beginning of the Nineteenth Century. Edinburg, p524.@undefined@undefined@No$Kebble Chatternton (1913). Ships and Ways of the other days. London, p 23.@undefined@undefined@No$James S. (1791). Narrative of the voyage to Arabia, India. performed in the year 1781,  p 211.@undefined@undefined@No$James Wathen (1850). Journal of a Voyage in 1811. London, p80,@undefined@undefined@Yes
<#LINE#>Green corrosion inhibitors for brass: an overview<#LINE#>Rajendra T. @Vashi <#LINE#>13-17<#LINE#>3.ISCA-RJRS-2020-017.pdf<#LINE#>Department of Chemistry, Navyug Science College, Surat-395009, India<#LINE#>29/6/2020<#LINE#>28/8/2020<#LINE#>Metals are protected from corrosion by using inhibitors. To replace the environmentally hazardous inorganic and organic chemicals, various plant extracts were tested as green inhibitors. In this PPPP, inhibition of corrosion of various types of brass, medium and green inhibitors have been DDDDed. The green inhibitors are eco-friendly, cheap and easily available. Protective films on metal surface is formed by adsorption of polar atoms present in inhibitors onto the metal surface. Inhibition efficiency of inhibitors depends on their chemical structure and properties. Adsorptions of these ingredients on metal surface obey various adsorption isotherms. Corrosion of metals and its inhibition was analyzed by weight loss method with different time and temperatures. Corrosion study was carried out by Open Circuit Potential (OCP), Galvanostatic polarization and Electrochemical Impedance Spectra (EIS) methods. The protective films have been analyzed by various techniques such as X-ray Diffraction spectroscopy (XRD), Energy Dispersive X-ray Spectroscopy (EDX), Scanning Electron Microscope (SEM), UV-Visible spectra, AFM and Fourier Transform Infrared (FTIR) spectroscopy. The present DDDD PPPP is an overview of works published on protection of brass metal from corrosion by using green inhibitors.<#LINE#>Deepa Rani P. and Selvaraj S. (2010). Inhibitive and adsorption properties of pumica granatum extract on brass in acid media. J. of Phytology, 2(11), 58-64.@undefined@undefined@Yes$Deepa Rani P. and Selvaraj S. (2010). Inhibitive action of vitis vinifera (grape) on copper and brass in natural sea water environment. Rasyan J. Chem., 3(3), 473-482.@undefined@undefined@Yes$Deepa Rani P. and Selvaraj S. (2011). Comparative account of Jatropha curcas on Brass (Cu-40Zn) in acid and sea water environment. Pacific J. of Sci. and Tech., 12, 32-46.@undefined@undefined@Yes$Loto C. A., Loto R. T. and Popoola A.P.I. (2011). Inhibition Effect of Extracts of Carica Papaya and Camellia Sinensis Leaves on the Corrosion of Duplex (&#945; &#946;) Brass in 1M Nitric acid. Int. J. Electrochem. Sci.. 6, 4900-4914.@undefined@undefined@Yes$Deepa Rani P. and Selvaraj S. (2011). Azadirachta Indica Leaves as Green Inhibitor for Brass in Natural Sea Water Environment. Asian J. Res. Chem., 4, 1469-1473.@undefined@undefined@Yes$Deepa Rani P., Sathya S. and Selvaraj S. (2012). Inhibitive Efficacy of Amla as Green Inhibitor for Brass in Natural Sea Water Environment. Int. J. of Chem. and Pharm. Sci., 3(1), 41-45.@undefined@undefined@Yes$Fouda A. S. and Elattar K. M. (2012). Curcumin Derivatives as Green Corrosion inhibitors for a-Brass in Nitric Acid Solution. J. Mater. Eng. Perform., 21, 1059-9495.@undefined@undefined@Yes$Deepa Rani P. and Selvaraj S. (2013). Adsorption and inhibitive efficacy of tamanu oil extract on brass (Cu-40Zn) in acid media. J. Chem. Bio. Phys. Sci., 3(2), 998-1007.@undefined@undefined@Yes$Ramde T., Rossi S. and Zanella, C. (2014). Inhibition of the Cu65/Zn35 brass corrosion by natural extract of Camellia sinensis. Applied Surface Sci., 307, 209-216.@undefined@undefined@Yes$Deepa Rani P. and Selvaraj S. (2014). Inhibitive Efficacy of Jatropha Curcas Plant Extract on Brass in Seawater Environment. Int. J. Adv. Sci. and Tech. Res., 4(2), 785-794.@undefined@undefined@No$Fouda A. S., Nofal A. M., Awad A. and Riyad R. (2014). Lemon essential oil as green corrosion inhibitor for &#945;-brass in nitric acid solutions. Int. J. of Adv. Res., 2(7), 1193-1207.@undefined@undefined@No$Fouda A.S., Shalabi K. and Idress A.A. (2014). Thymus Vulgarise Extract as Nontoxic Corrosion Inhibitor for Copper and &#945;-Brass in 1 M HNO3 Solutions. Int. J. Electrochem. Sci., 9, 5126-5154.@undefined@undefined@Yes$Fouda A.S., Shalabi, K. andIdress A.A. (2015). Ceratonia Siliqua Extract as a Green Corrosion Inhibitor for Copper and Brass in Nitric Acid Solutions. Green Chem. Letters and DDDDs, 8, 17-29. doi:10.1080/17518253.2015.1073 797.@undefined@undefined@Yes$Bright A., Michlin Ruphina Maragatham S., Malar vizhi I., Kalirajan. K. and Selvaraj S. (2015). Corrosion Effect of Cu-30Zn Alloy Using Cnidoscolus Chayamansa Leaves Extract in Acid Media. Int. J. of Innovative Res. in Sci., Engg. and Tech., 4(10), 10181-10191. DOI:10.15680/ IJIRSET.2015.0410090.@undefined@undefined@No$Selva kumar R. and Chandrasekaran V. (2015). Sargassum wightii Extract as a Green Inhibitor for Corrosion of Brass in 0.1 N Phosphoric Acid Solution. Oriental J. Chem., 31(2), 939-949.@undefined@undefined@Yes$Loto C. A., Loto R. T. and Ohwofasa Oshogbunu (2016). Effect of Allium Sativum Extracts on the Corrosion and Inhibition of &#945;-Brass in HCl. Mor. J. Chem., 4(3), 711-721.@undefined@undefined@No$Loto C. A. and Loto R. T. (2016). Inhibition effect of garlic extracts on the corrosion of alphabrass in nitric acid. Der Pharma Chemica., 8(2), 162-171.@undefined@undefined@Yes$Deivanayagam P., Malarvizhi I. and Selvaraj S. (2016). Influence of wrightia tinctoria leaves on the corrosion of brass in acid medium. Int. J. of Adv. Sci. Res., 1(4), 42-48.@undefined@undefined@No$Cheyad Mustafa Sabri and Salman Tagharied Ali (2017). Characterization and Study the Inhibition Activity of Pomegranate Peel Extract for a-Brass corrosion in H2SO4 Solution. Oriental J. Chem., 33(3), 1241-1251.@undefined@undefined@Yes$Gadow A.S., Motaweab M.M. and Elabbasy H. M. (2017). Investigation of myrrh extract as a new corrosion inhibitor for a-brass in 3.5% NaCl solution polluted by 16 ppm sulfide. RSC Adv., 7, 29883-29898.@undefined@undefined@Yes$Patel B.B. and Vashi R.T. (2017). Azadirachta Indica extract as corrosion inhibitor for corrosion of Brass in nitric acid. J. of Applicable Chem., 6(3), 340-349.@undefined@undefined@No$Vashi R.T. and Patel B. B. (2018). Corrosion Inhibition of Brass (60/40) in Nitric Acid by Brahmi (Bacopa monnieri) Leaves Extract as Green Inhibitor. Int. J. of Res. and Rev., 5(4), 245-255.@undefined@undefined@No$Patel B. B., Vashi R. T. and Desai S. A. (2018). Cuminum Cyminum (Jeeru) seeds extract a green corrosion inhibitor for brass in HNO3 media. J. of Emerging Technologies and Innovative Res., 5(11), 446-451.@undefined@undefined@No$Deivanayagam P. and Selvaraj S. (2018). Cardiospermum Halicababum Leaves Extract as Green Inhibitor for Corrosion of Brass in 1.0 N Hydrochloric Acid Solution. Int. J. for Res. in Engg. Application & Management., 4(6), 292-298, DOI: 10.18231/2454-9150.2018.0732.@undefined@undefined@No$Fouda A. S. and Idress A. A. (2019). Investigation of the inhibition of copper and &#945;-brass corrosion in nitric acid solutions by pistacia atlantica extract. Third international conference on basic sciences & their applications, Special Conference Issue, Int. J. of Applied Sci., 1(1), 29-50.@undefined@undefined@Yes
@Review Paper
<#LINE#>Applications of nanomaterial in daily life<#LINE#>Rajesh Kumar @Meena,Aruna @Sharma,Rishikesh @Meena,Sapana @Jadoun <#LINE#>18-20<#LINE#>4.ISCA-RJRS-2020-015.pdf<#LINE#>Kalindi College, Department of Chemistry, University of Delhi, India@Department of Chemistry, JECRC University, Jaipur, India@Department of Botany, University of Rajasthan, Jaipur, India@Department of Chemistry, Jamia Millia Islamia, Delhi, India<#LINE#>6/6/2020<#LINE#>22/9/2020<#LINE#>Nano Synthetic materials possibly demonstrate with exclusive characteristics that be different from bulk materials. The outstanding characteristic properties of nanomaterial not only significant advantages as well as confers toxicity, because of their unnecessary connections with similar compartments with cellular process. In report DDDD, we talk about the variety of way in route of nanomaterials in the human being with their applications in on a every day basis.<#LINE#>Logothetidis S. (2012). Nanostructured materials and their applications. Nano Science and Technology, 12, p. 220.@undefined@undefined@Yes$Maynard A. D. (2006). Nanotechnology: A CUSTOME Strategy for Addressing Risk. Woodrow Wilson International Center for scholars, Project on Emerging Nanotechnologies. PEN, 03, Washington, DC.@undefined@undefined@No$Lyu M. and Choi T.G. (2015). CUSTOME trends in polymer materials for use in lightweight vehicles. Int. J. Precis. Eng. Manuf., 16, 213.@undefined@undefined@Yes$Gautam A. and Vijayaraghavan R. Singh (2011). Dermal exposure of nanoparticles: an understanding. Journal of Cell and Tissue CUSTOME, 11(1), 2703-2708.@undefined@undefined@Yes$Raj S., Jose S., Sumod U.S. and Sabitha M. (2012). Nanotechnology in cosmetics: opportunities and challenges. J Pharm Bioallied Sci., 4(3), 186-93.@undefined@undefined@Yes$Schafer-Korting M., Mehnert W. and Korting H.C. (2007). Lipid nanoparticles for improved topical application of drugs for skin diseases. Adv Drug Deliv Rev., 59(6), 427-43.@undefined@undefined@Yes$Katz L.M., Dewan K. and Bronaugh R.L. (2015). Nanotechnology in cosmetics. Food Chem Toxicol. 85, 127-37.@undefined@undefined@No