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Design and Development of Novel Coatings to Inhibit Degradation due to High Temperature Sulphidation
Online since: October 2006
Authors: Psantu K. Datta, Jim. S. Burnell-Gray, Hai Liang Du
Strafford and Datta [1], and Datta and Du et al [2]
have comprehensively reviewed the process of sulphidation.
The results from these studies have also allowed the development of a model for the degradation due to HT sulphidation as given by Du and Datta el al [16,17].
Al migrated outwards through the coating and formed an Al2O3 layer beneath the TiO2 layer.
As a result a bright Al-rich zone can be observed, which was identified as TiAl3 by XRD.
In the front of the TiS nodule an Al-enriched band adjacent to the substrate is observed.
The results from these studies have also allowed the development of a model for the degradation due to HT sulphidation as given by Du and Datta el al [16,17].
Al migrated outwards through the coating and formed an Al2O3 layer beneath the TiO2 layer.
As a result a bright Al-rich zone can be observed, which was identified as TiAl3 by XRD.
In the front of the TiS nodule an Al-enriched band adjacent to the substrate is observed.
Online since: June 2014
Authors: Zhi Rong Wang, Wei Li Wang, Xiao Yan Zhu, Jing Lan Wang, Zhi Jie Han, Ya Hua
Li et al [1] used Freundlich isotherm to describe the adsorption of E.coli by sand.
Vol. 135(2009),p.544 [7] D M Oliver, C D Clegg, A L Heathwaite, et al: Water Air Soil Pollute.
Guangxi: Guangxi university, 2007 In Chinese [9] F Yan, H M Liu, D L Liang, et al: Transactions of the CSAE.Vol.24 (2008), p. 21 In Chinese [10] Y H Yu, Q M Li, T L Zhang, et al: Acta Pedologica Sinica.Vol.49(2011),p. 202 In Chinese [11] S Lagergren: Kungliga Svenska Vetenskapsakademiens Handlingar.Vol.24 (1898), p.1 [12] Q Hui, L Lu, Bing-cai Pan, et al: Journal of Zhejiang University SCIENCE A.
Vol. 158(2008), p.65 [20] H H Jia,B P Han,W X Ma, et al: Environmental Science & Technology.Vol.34 (2011),p.43 In Chinese [21] B K G Theng, V A Orchard: Interactions of clay with microorganisms and bacterial survival in soil: A physicochemical perspective(CRC Press, Florida1995) [22] A Khaled, A Nemr, A El-Sikaily, et al: Journal of Hazardous Materials.
Vol.31 (1998), p.129 [26] H L Chen, J Y Zhang, Y X Chen, et al: Acta Scientiae Circumstantiae.Vol.24. (2004),p.27 In Chinese [27]W S Wang, D Z Wei, L X Zheng,et al: Metallic Ore Dressing Abroad.
Vol. 135(2009),p.544 [7] D M Oliver, C D Clegg, A L Heathwaite, et al: Water Air Soil Pollute.
Guangxi: Guangxi university, 2007 In Chinese [9] F Yan, H M Liu, D L Liang, et al: Transactions of the CSAE.Vol.24 (2008), p. 21 In Chinese [10] Y H Yu, Q M Li, T L Zhang, et al: Acta Pedologica Sinica.Vol.49(2011),p. 202 In Chinese [11] S Lagergren: Kungliga Svenska Vetenskapsakademiens Handlingar.Vol.24 (1898), p.1 [12] Q Hui, L Lu, Bing-cai Pan, et al: Journal of Zhejiang University SCIENCE A.
Vol. 158(2008), p.65 [20] H H Jia,B P Han,W X Ma, et al: Environmental Science & Technology.Vol.34 (2011),p.43 In Chinese [21] B K G Theng, V A Orchard: Interactions of clay with microorganisms and bacterial survival in soil: A physicochemical perspective(CRC Press, Florida1995) [22] A Khaled, A Nemr, A El-Sikaily, et al: Journal of Hazardous Materials.
Vol.31 (1998), p.129 [26] H L Chen, J Y Zhang, Y X Chen, et al: Acta Scientiae Circumstantiae.Vol.24. (2004),p.27 In Chinese [27]W S Wang, D Z Wei, L X Zheng,et al: Metallic Ore Dressing Abroad.
Online since: December 2025
Authors: Aluizio Freire da Silva Júnior, Josefa Dayse Lima Silva, Vanessa Bordin Viera, Maria Tereza Lucena Pereira, Amélia Ruth Nascimento Lima, Bruno Silva Dantas, Leidjane Matos de Souto, Célia Maria Rufino Franco, Jair Stefanini Pereira de Ataíde
OLIVEIRA, et al.
SANTANA, et al.
MATIAS, E.L.
FARIAS, et al.
FARIAS, et al.
SANTANA, et al.
MATIAS, E.L.
FARIAS, et al.
FARIAS, et al.
Online since: August 2024
Authors: Ariadne Lakshmidevi Juwono, Opa Fajar Muslim, Dwi Novriadi, Tulus Tulus
Gomez-Lopez et al., “Poly(hydroxyurethane) Adhesives and Coatings: State-of-the-Art and Future Directions,” ACS Sustain.
Fu et al., “Research progress of UV-curable polyurethane acrylate-based hardening coatings,” Prog.
Galhenage et al., “Fouling-Release Performance of Silicone Oil-Modified Siloxane-Polyurethane Coatings,” ACS Appl.
Aslamazova et al., “Effect of Ultraviolet Irradiation on the Inelasticity of a Highly Elastic Acrylic Polymer,” Russ.
El-Sawy, R.
Fu et al., “Research progress of UV-curable polyurethane acrylate-based hardening coatings,” Prog.
Galhenage et al., “Fouling-Release Performance of Silicone Oil-Modified Siloxane-Polyurethane Coatings,” ACS Appl.
Aslamazova et al., “Effect of Ultraviolet Irradiation on the Inelasticity of a Highly Elastic Acrylic Polymer,” Russ.
El-Sawy, R.
Online since: November 2022
Authors: Ziyauddin Seikh, Golam Kibria, Rafiqul Haque, Mukandar Sekh, Shamim Haidar
In one study, it was reported that RHA-Y2O3 reinforced Al-Re alloy displayed greater hardness and a lower wear rate than Al-Re alloy in the manufacturing of intermetallic compounds and microstructure refining [10].
Yadav, Comparative Study between SiC Reinforced Al 64430 Metal Matrix Composites and RHA Reinforced Al 64430 Metal Matrix Composites, Adv.
Shoba, Experimental evaluation on the damping behavior of Al/SiC/RHA hybrid composites, J.
Hassan, Aluminium alloy - rice husk ash composites production and analysis, Leonardo El.
Waziri, A Comparative Study on the Properties of Al-7%Si-Rice Husk Ash and Al-7%Si-Bagasse Ash Composites Produced by Stir Casting, Int.
Yadav, Comparative Study between SiC Reinforced Al 64430 Metal Matrix Composites and RHA Reinforced Al 64430 Metal Matrix Composites, Adv.
Shoba, Experimental evaluation on the damping behavior of Al/SiC/RHA hybrid composites, J.
Hassan, Aluminium alloy - rice husk ash composites production and analysis, Leonardo El.
Waziri, A Comparative Study on the Properties of Al-7%Si-Rice Husk Ash and Al-7%Si-Bagasse Ash Composites Produced by Stir Casting, Int.
Online since: May 2023
Authors: Mohd Asri Mohd Nor, Muhammad Ammar Imran Mohamad Razki, Nor Fazli Adull Manan
Similarly, Jadav et el. [14] indicates that tube with 6 fins shows better performance than 8 fins and 12 fins and reduces weight by 6% and 20%, respectively.
Liu et al [22].
Liu et al was 287K.
Liu et al., is then used to validate the simulation results.
Wadnerkat et al., ‘Numerical study of fog formation around ambient air vaporizers’, Chem.
Liu et al [22].
Liu et al was 287K.
Liu et al., is then used to validate the simulation results.
Wadnerkat et al., ‘Numerical study of fog formation around ambient air vaporizers’, Chem.
Online since: February 2011
Authors: Shan Duan, Ying Xia Zhang, Ting Ting Lu, Dui Xi Cao, Jing Diao Chen
., et al: Food Chem. 109 (2008) 176–183
[3] Cao, W.H., Zhang, C.H., Hong, P.Z., et al: LWT - Food Sci.
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[25] Peniston, Q.P., Johnson, E.L., Process for the recovery of chemicals from the shells of crustacea, United States Patent 4199496, 1980
[3] Cao, W.H., Zhang, C.H., Hong, P.Z., et al: LWT - Food Sci.
[14] Shan Duan, Yingxia Zhang, Tingting Lu, et al: Food Ferment.
[20] Cui, C., Zhou, X.S, Zhao, M.M, et al: Innovative Food Sci.
[25] Peniston, Q.P., Johnson, E.L., Process for the recovery of chemicals from the shells of crustacea, United States Patent 4199496, 1980
Online since: February 2021
Authors: Ramadhan Ananditia Putra, Heri Suroto
[4] Bagnaninchi P-O, Yang Y, El Haj AJ, Maffulli N.
[10] Bi Y, Ehirchiou D, Kilts TM, Inkson CA, Embree MC, Sonoyama W, et al.
[19] Yin Z, Chen X, Zhu T, Hu J, Song H, Shen W, et al.
[20] Sakabe T, Sakai K, Maeda T, Sunaga A, Furuta N, Schweitzer R, et al.
[26] Kawasaki T, Sumita Y, Egashira K, Ohba S, Kagami H, Tran SD, et al.
[10] Bi Y, Ehirchiou D, Kilts TM, Inkson CA, Embree MC, Sonoyama W, et al.
[19] Yin Z, Chen X, Zhu T, Hu J, Song H, Shen W, et al.
[20] Sakabe T, Sakai K, Maeda T, Sunaga A, Furuta N, Schweitzer R, et al.
[26] Kawasaki T, Sumita Y, Egashira K, Ohba S, Kagami H, Tran SD, et al.
Online since: January 2026
Authors: Oday I. Abdullah, Jasim Mohammed Salman, Mustafa S. Abdulamir, Mustafa Mohammed Ali, Mais A. Mohammed, Sarmad Al-Anssari, Thamer Adnan Abdullah, Ahmed Musa Jaffar
Mohammed1,d, Sarmad Al-Anssari3,4,e, Thamer Adnan Abdullah1,f, Oday I.
Abdullah5,6,g*, Ahmed Musa Jaffar7,h, 1Department of Applied Sciences, University of Technology, Baghdad, Iraq. 2Iraq University College, Basra, Iraq 3Department of Petroleum Engineering, Al-Naji University, Baghdad, Iraq 4Department of Chemical Engineering, University of Baghdad, Baghdad, Iraq 5Energy Engineering Dept., College of Engineering, University of Baghdad, Baghdad, Iraq 6Dept. of Mechanics, Al-Farabi Kazakh National University, Almaty, 050040, Kazakhstan 7Basra oil company, Ministry of oil, Basra, Iraq asahbmstfy105@gmail.com, bas.21.5077@student.uotechnology.edu.iq, cjassim.salman@iuc.edu.iq, dmais.a.mohammed@uotechnology.edu.iq, eal-anssari@uobaghdad.edu.iq, fthamer.a.abdullah@uotechnology.edu.iq, goday.abdullah@coeng.uobaghdad.edu.iq, hahmed.jaffar@boc.oil.gov.iq Keywords: Heavy metals, adsorption, Cellulose, Lead, Nickel, Sustainable water treatment.
Hamimed et al. (2022) utilized waste paper-derived nanocellulose with a high surface area with reactive functional groups for removing heavy metals, revealing the environmental benefits of waste paper recycling [14].
Kurniawan, et al., Comparisons of low-cost adsorbents for treating wastewater laden with heavy metals, Sci.
El-Mashad, K.
Abdullah5,6,g*, Ahmed Musa Jaffar7,h, 1Department of Applied Sciences, University of Technology, Baghdad, Iraq. 2Iraq University College, Basra, Iraq 3Department of Petroleum Engineering, Al-Naji University, Baghdad, Iraq 4Department of Chemical Engineering, University of Baghdad, Baghdad, Iraq 5Energy Engineering Dept., College of Engineering, University of Baghdad, Baghdad, Iraq 6Dept. of Mechanics, Al-Farabi Kazakh National University, Almaty, 050040, Kazakhstan 7Basra oil company, Ministry of oil, Basra, Iraq asahbmstfy105@gmail.com, bas.21.5077@student.uotechnology.edu.iq, cjassim.salman@iuc.edu.iq, dmais.a.mohammed@uotechnology.edu.iq, eal-anssari@uobaghdad.edu.iq, fthamer.a.abdullah@uotechnology.edu.iq, goday.abdullah@coeng.uobaghdad.edu.iq, hahmed.jaffar@boc.oil.gov.iq Keywords: Heavy metals, adsorption, Cellulose, Lead, Nickel, Sustainable water treatment.
Hamimed et al. (2022) utilized waste paper-derived nanocellulose with a high surface area with reactive functional groups for removing heavy metals, revealing the environmental benefits of waste paper recycling [14].
Kurniawan, et al., Comparisons of low-cost adsorbents for treating wastewater laden with heavy metals, Sci.
El-Mashad, K.