Study The Effect of Extract berry and mango leaves as a corrosion inhibitor of Cu, Carbon steel and Oil Pipelines.

Hamdy matter (1) , Tariq M. Ayad (2)
(1) Benghazi university, Egypt ,
(2) , Libya

Abstract

For the corrosion of iron, copper and carbon steel in 1.0 M HCl and 1.0 M of HNO3 solution. The materials extracted from the berry and mango leaves when added in different concentrations to solutions of 1 molar of hydrochloric acid and nitric acid have shown remarkable and effective resistance to corrosion of iron, copper and carbon steel, as well as to the samples that we brought from the oil companies in Galo to study the extent of resistance of these materials to their corrosion and the use of these natural and extracted products of berry leaves and mango leaves for use as corrosion inhibitors for oil pipelines These natural products, which are available in the environment, have shown a great deal of effective resistance to corrosion of oil pipelines. The effect of both the temperature and the concentration of these substances on the corrosion of these minerals has been studied and the study has shown that they inhibit corrosion even at low concentrations of reach to 50 ppm.

Full text article

Generated from XML file

References

Xu, Y.& Tan, M. Y. (2019), Probing the initiation and propagation processes of flow accelerated corrosion and erosion corrosion under simulated turbulent flow conditions, Corrosion Science, 151: 163-174.

Alrashed, M.M. Jana, S. and Soucek, M.D. (2019), Corrosion performance of polyurethane hybrid coatings with encapsulated inhibitor, Progress in Organic Coatings, 130: 235-243.

Man, C. Dong, C. Kong, D. Wang, L. and Li, X. (2019), Beneficial effect of reversed austenite on the intergranular corrosion resistance of martensitic stainless steel, Corrosion Science, 151: 108-121.

Fang, Y. Suganthan, B. Ramasamy, R. P. (2019), Electrochemical characterization of aromatic corrosion inhibitors from plant extracts, Journal of Electroanalytical Chemistry, 840: 74-83.

Guo, X. Fan, Y. Gao, W. Tang, R. and Zhang, L. (2019), Corrosion resistance of candidate cladding materials for supercritical water reactor, Annals of Nuclear Energy, 127: 351-363.

Wu, Y. Zhu, X. Zhao, W. Wang, Y. Xue, Q. (2019), Corrosion mechanism of graphene coating with different defect levels, Journal of Alloys and Compounds, 777: 135-144.

Chen, H. Hou, X. He,J. Guo, H. (2019), Bioxidant corrosion behaviour of CoNiCrAlY coated IN738 at 1100 °C, Corrosion Science, 151: 154-162.

Mędrala, A. M. Magdziarz, A. Kalemba-Rec, I. and Nowak, W. (2019), "The influence of potassium-rich biomass ashes on steel corrosion above 550 °C, Energy Conversion and Management, 187, 15-28.

Morończyk, B. Ura-Bińczyk, E. Kuroda, S. Jaroszewicz, J. and Molak, R. M. (2019), Microstructure and corrosion resistance of warm sprayed titanium coatings with polymer sealing for corrosion protection of AZ91E magnesium alloy, Surface and Coatings Technology, 363: 142-151.

Arora, S. and Srivastava, C. (2019), Microstructure and corrosion properties of Ni- Co-graphene oxide composite coatings, Thin Solid Films, 677: 45-54.

Liu, C. T. Fischer, K. B. and Rochelle, G. T. (2019), Corrosion of carbon steel by aqueous piperazine protected by FeCO3, International Journal of Greenhouse Gas Control, 85: 23-29.

Trolic, I.M. Serdarevic, N.L. Todoric, Z. Budimir, A. and Curkovic, H.O. (2019), Corrosion of orthodontic arch wires in artificial saliva in the presence of Lactobacillus reutter, Surface and Coatings Technology, in press, accepted manuscript,

Kumar Das, J. Pradhan, B. (2019), Effect of cation type of chloride salts on corrosion behaviour of steel in concrete powder electrolyte solution in the presence of corrosion inhibitors, Construction and Building Materials, 208: 175-191.

Duffó, G.S. Farina, S.B. and Schulz F.M. (2019), Corrosion behaviour of non-ferrous metals embedded in mortar, Construction and Building Materials, 210: 548-554.

Authors

Hamdy matter
hamdy.matter@gmail.com (Primary Contact)
Tariq M. Ayad
matter, H., & Ayad, T. M. . (2022). Study The Effect of Extract berry and mango leaves as a corrosion inhibitor of Cu, Carbon steel and Oil Pipelines. Journal of Pure & Applied Sciences, 21(1), 154–164. https://doi.org/10.51984/jopas.v21i1.1671

Article Details

The Effect of Quenching Media on the Hardness of Low Carbon Steel

Taha Abdullah, Abdulhakeem B. Miskeen, Mohammed A. Al-Madani
Abstract View : 318
Download :202

Green Synthesis and Characterization of Crystalline CuO Nanoparticles using Aqueous Mentha Piperita L. Leaf Extract

Fatma A. Shtewi, Wedad M. Al-Adiwish, Hamid A. Alqamoudy, Awatif A. Tarroush
Abstract View : 710
Download :506

The Evaluation of Brass and Low Carbon Steel Corrosion in Gabraun Water

Abdussalam Abdallah Mohammed Gebril , Ali Elzarog Ali
Abstract View : 298
Download :244