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The analysis of distribution of the reaction mixture in ammonia oxidation reactor

do we stand today ? Appl. Catal. B 44 117–151. DOI: 10.1016/S0962-3373(03)00026-2. 8. Kay, O. & Buennagel, T. (2016) Targeting improving performance and conversion efficiency in nitric acid plants. International Fertiliser Society Proceedings No. 787. 9. Najlepsze dostępne techniki (BAT). Wytyczne dla Branży Chemicznej w Polsce. Przemysł Wielkotonażowych Chemikaliów Nieorganicznych, Amoniaku, Kwasów i Nawozów Sztucznych Wersja II, Ministerstwo Środowiska, (2005) [in Polish]. http://www.pipc.org.pl/pl/download/bat/branza_chemiczna/2005-09-29/nawozy

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The research of anti corrosive properties of various compositions on samples of standard metals

, Deng Liu. (2016). Study of the influence of lubrication parameters on gear lubrication properties and efficiency. Ind. Lubr. Tribol. 68(6). 647–657. https://doi.org/10.1108/ILT-06-2015-0089 20. Chang, S.C., Rihana, A., Bahrman, S., Gruden, C.L., Khijniak, A.I., Skerlos, S.J. & Adriaens, P. (2004). Flow cytometric detection and quantification of mycobacteria in metalworking fluids. Inter. Biodeterioration & Biodegradation 54(2–3), 105–112. http://doi.org/10.1016/j.ibiod.2004.03.019 21. Hernández Gayosso, M.J. Nava, N. & Zavala, G. Olivares. (2016

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Corrosion inhibition of mild steel in HCl solution by Tinidazole

response of solid and liquid electrolytes. J. Electroanal. Chem. 223,25-0.DOI:10.1016/0022-0728(87)85249-X. Pang, J., Briceno, A. & Chander, S. (1990).A Study of Pyrite/Solution Interface by Impedance Spectroscopy. J. Electrochem. Soc. 137, 3447-3455.DOI:10.1149/1.2086249. Lagrenee, M., Mernari, B., Bouanis, M., Traisnel, M. & Bentiss, F. (2002). Study of the mechanism and inhibiting efficiency of 3,5-bis(4-methylthiophenyl)-4H-1,2,4-triazole on mild steel corrosion in acidic media. Corros. Sci. 44, 573-588.DOI:10

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Effects of processing parameters on the properties of amphiphilic block copolymer micelles prepared by supercritical carbon dioxide evaporation method

LITERATURE CITED 1. Yang, X.Y., Zhang, X.Y., Liu, Z.F., Ma, Y.F., Huang, Y. & Chen, Y. (2008). High-Efficiency Loading and Controlled Release of Doxorubicin Hydrochloride on Graphene Oxide. J. Phys. Chem. C 112 , 17554–17558. DOI: 10.1021/jp806751k. 2. Chen, M.X., Li, B.K., Yin, D.K., Liang, J., Li, S.S. & Peng, D.Y. (2014). Layer-by-layer Assembly of Chitosan Stabilized Multilayered Liposomes for Paclitaxel Delivery. Carbohydr. Polym. 111, 298–304. DOI: 10.1016/j.carbpol.2014.04.038. 3. Sugahara, K.N., Teesalu, T., Karmali, P.P., Kotamraju

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Adsorption of Cr(VI) by Natural Clinoptilolite Zeolite from Aqueous Solutions: Isotherms and Kinetics

LITERATURE CITED 1. Gueye, M.Y.R., Kafack, F.T. & Blin, J. (2014). High efficiency activated carbons from African biomass residues for the removal of chromium(VI) from wastewater. J. Environ. Chem. Eng . 2(1), 273–281. DOI : 10.1016/j.jece.2013.12.014. 2. Sreenivas, K.M., Gokhale, M.B.I. & Lele, S.S. (2014). Reutilization of ash gourd (Benincasa hispida) peel waste for chromium (VI) biosorption: Equilibrium and column studies. J. Environ. Chem. Eng. 2(1), 455–462. DOI: 10.1016/j.jece.2014.01.017. 3. Nosuhi, M. & Nezamzadeh-Ejhieh, A. (2017

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Monitoring and remediation technologies of organochlorine pesticides in drainage water

, A.T. (2002). Oxidation of diazinon by anodic Fenton treatment. Wat. Res. 36, 3237-3244. DOI: 10.1016/S0043-1354(02)00041-6. 26. Pare, B.P., Singh, S. & Jonnalagadda, B. (2008). Visible light induced heterogeneous advanced oxidation process to degrade pararosanilin dye in aqueous suspension of ZnO. Indian J. Chem. 4, 830-835. 27. Wang, H., Xie, C., Zhang, W., Cai, Z., Cai, S., Yang, Z. & Gui, Y. (2007). Comparison of dye degradation efficiency using ZnO powders with various size scales. J. Hazard. Mat.141, 645-652. DOI: org/10.1016/j

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Simultaneous synthesis-immobilization of nano ZnO on perlite for photocatalytic degradation of an azo dye in semi batch packed bed photoreactor

., Shankar, M.V., Arabindoo, B., Palanichamy, M. & Murugesan, V. (2003). Solar photocatalytic degradation of azo dye: comparison of photocatalytic efficiency of ZnO and TiO2. Sol. Energy Mater. C, 77(1), 65-82. DOI: 10.1016/S0927-0248(02)00255-6. 11. Huihu, W., Changsheng, X., Wei, Z., Shuizhou, C., Zhihong, Y. & Yanghai, G. (2004). Comparison of dye degradation efficiency using ZnO powders with various size scales. J. Hazard. Mater. B, 141(3), 645-652. DOI: 10.1016/j.jhazmat.2006.07.021. 12. Daneshvar, N., Rasoulifard, M.H., Khataee, A

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Heterogeneous photocatalytic removal and reaction kinetics of Rhodamine-B dye with Au loaded TiO2 nanohybrid catalysts

Gold-Nanoparticle-Supported Layered Titanate. J. Am. Chem. Soc. 132(47), 16762-16764. DOI: 10.1021/ja1083514. Li, F. B. & Li, X. Z. (2002). The enhancement of photodegradation efficiency using Pt-TiO 2 catalyst. Chemosphere. 48(10), 1103-1111. DOI: 10.1016/S0045-6535(02)00201-1. Zhong, H. E., Yang, S. G., Ju, Y. M. & Sun. C. (2009). Microwave photocatalytic degradation of Rhodamine B using TiO 2 supported on activated carbon: Mechanism implication. J. Environ. SCi. 21(2), 268-272. DOI: 10.1016/S1001

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Corrosion Inhibition of Mild Steel in Nitric Acid Media by some Schiff Bases Derived from Anisalidine

Corrosion inhibition performance of mild steel in nitric acid solution containing different concentration of anisalidine derivative Schiff bases viz. N- (4-nitro phenyl) p-anisalidine (SB1), N- (4-chloro phenyl) p-anisalidine (SB2), N- (4-phenyl) p-anisalidine (SB3), N- (4-methoxy phenyl) p-anisalidine (SB4), N- (4-hydroxy phenyl) p-anisalidine (SB5) has been investigated using mass loss, thermometric and potentiostate polarization technique. Inhibition efficiencies of Schiff bases have been evaluated at different acid strength. The inhibition efficiency was found larger than their parent amines. Inhibition efficiencies of synthesized Schiff bases increase with inhibitor concentration. Inhibition efficiency increases up to 98.32% with ansalidine derivative Schiff base.

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Scaling diminution by heterogeneous crystallization in a filtration element integrated with membrane distillation module

: Thermal efficiency, sensitivity study and cost estimation. J. Membr. Sci. , 323 , 85-93. DOI: 10.1016/j.memsci.2008.06.006. Gryta, M. (2008). Alkaline scaling in the membrane distillation process. Desalination   228 , 128-134. DOI: 10.1016/j.desal.2007.10.004. Li, B. & Sirkar, K. K., (2004). Novel membrane and device for direct contact membrane distillation-based desalination process, Ind. Eng. Chem. Res.   43 , 5300-5309. Gryta, M. (2008). Fouling in direct contact membrane distillation

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