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Arabian Journal for Science and Engineering
Erschienen in: Arabian Journal for Science and Engineering 12/2023

06.07.2023 | Research Article-Chemical Engineering

Alteration Analysis of Refractories Bricks Used in Industrial Horizontal Anodes Baking Furnace

verfasst von: Jeanne Solange Ntchayi Tankeu, Guy Molay Tchapga Gnamsi, Arlin Bruno Tchamba, Patrick Lemougna Ninla, Elie Kamseu, Marcel Guidana, George Elambo Nkeng, Dana Kausik, Michel Mbessa, Daniel Njopwouo

Erschienen in: Arabian Journal for Science and Engineering | Ausgabe 12/2023

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Abstract

This study analyses the alteration of refractory bricks after 96 baking cycles of anodes baking furnace. A decrease of compressive strength from 48.45 to 32 MPa, respectively, for unused and used bricks were observed. The bulk density obtained by mercury intrusion porosimeter method decreased from 2.48 to 2.38 g/cm3for unused and used bricks; while the bulk density by archimedes method increased from 2.29 to 2.49 g/cm3. The water absorption by Archimedes method is decreased from 6.65 to 5.05 wt.%. While the total porosity obtained by mercury intrusion porosimeter increased from 15.41 to 17.21 wt.% for unused and used bricks. In the same way the total cumulative pore increased from 62.05 to 72.35 mm3/g. While the average pore radius decreased from 5.65 to 1.06 µm, respectively, for unused and used brick. The anode side of brick is deterioted rapidly than hot side of brick. The instrusion porosimetry method seems to be the best method to characterize bulk density and porosimetry of refractory bricks than Archimedes method. Mullite peak seems to be not change, suggesting that a very compacted brick with high mullite content seems to be the best matrix for bricks in anode baking furnace. Silica corrosion is mostly affected in refractory brick than alumina in anodes baking furnace.
Vorheriger Artikel Acid Treatment to Improve Total Light Olefins Selectivity of HZSM-5 Catalyst in Methanol to Olefins (MTO) Reaction
Nächster Artikel Effect of Curing Temperature on Properties of Compressed Lateritic Earth Bricks Stabilized with Natural Pozzolan-Based Geopolymer Binders Synthesized in Acidic and Alkaline Media

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Literatur
1.
Tajik, A.R.; Shamim, T.; Ghoniem, A.F.; Abual-Rub, R.K.: The impact of critical operational parameters on the performance of the aluminum anode baking furnace. J. Ener. Ressour. Technol. 143, 1–12 (2021)
2.
Prigent, P.; Bouchetou, M.L.; Poirier, J.: Gaseous corrosion of alumino-silicate refractories in anode baking furnaces used for aluminium production, part 2. Interceram 58(2), 121–126 (2009)
3.
Prigent, P.; Bouchetou, M.L.; Poirier, J.; Hubert, P.: The effect of the addition of fine andalusite particles in refractory bricks on gaseous corrosion. JOM 60, 58–63 (2008)CrossRef
4.
5.
Franken, M.C.; Everstein, S.J.; van Berkel, P.S.; Feldmann, R.M.; Bricks, L.P.: Light Metals The Minerals, Metals & Mater. Soc., pp. 709–713 (2005).
6.
Uhrig James, R.: Light Metals, The Minerals, Metals & Mater. Soc., pp. 553–557 (2004).
7.
Butter, J.: Light Metals, The Minerals, Metals & Mater. Soc., pp. 633–640 (1994).
8.
Brunk, F.: Light metals, The Minerals, Metals & Mater. Soc., pp. 641–646 (1995).
9.
Butter, J.; Bongers, A.: Light Metals, The Minerals, Metals & Mater. Soc., pp. 633–639 (1995).
10.
Fotsing Segnou, A.C.; Tchamba, A.B.; Aboudi Tsanga, C.; Raidandi, D.: Dissertation thesis, Uni. Maroua, Cameroon (2015)
11.
API, American Institute of Petroleum Engineers, Washington, DC (1998).
12.
Sadika, C.; El Amrani, I.; Albizane, A.: Recent advances in silica-alumina refractory: a review. J. Asian Ceram. Soc. 2, 83–96 (2014)CrossRef
13.
Prigent, P.; Bouchetou, M.L.; Poirier, J.: Andalusite: An amazing refractory raw material with excellent corrosion resistance to sodium vapours. Ceram. Int. 37, 2287–2296 (2011)CrossRef
14.
Oumarou, N.; Kocaefe, D.; Kocaefe, Y.: Investigation of the refractory bricks used for the flue wall of the horizontal anode baking ring furnace. Ceram. Soc. 99, 715–722 (2016)
15.
Marzagui, H.; Cutard, T.: Characterisation of microstructural evolutions in refractory castables by in situ high temperature ESEM. J. Mater. Process. Technol. 155–156, 1474–1481 (2004)CrossRef
16.
Sadika, C.; ElAmrani, I.; Albizane, A.: Recent advances in silica-alumina refractory: a review. J. Asian Ceram. Soc. 2, 83–96 (2014)CrossRef
17.
Aarhaug, T.A.; Brandvik, T.; Kjos, O.S.; Gaertner, H.; Ratvik, A.P.: Conference Paper. The Minerals, Metals & Mater Soc., pp. 1379–1385 (2018).
18.
ASTM C133–97 (2003), Standard test methods for cold crushing strength and modulus of rupture of refractories. ASTM—American Society for Testing and Materials, USA, Book of Standards Volume: 15.01.
19.
ASTMC20.00 Standard Test Methods for Apparent Porosity, Water Absorption, Apparent Specific Gravity and Bulk Density of Burned Refractory Brick and Shape by Boiling Water.
20.
Farrauto, R.J.; Hobson, M.C.: Encyclopedia of Physical Science and Technology, 3rd edn. (2003).
21.
Brunk, F.; Otto Feuerfest, C.: GmbH, 44874, Bochum, Germany (1995).
22.
23.
Mishra, B.; Sahu, B.B.; Panda, B.K.: Failure mechanism of alumino silicate refractories in anode baking furnace. Trans. Ind. Ceram. Soc. 67(3), 147–150 (2008)CrossRef
24.
Silva, W.M.; Ramos, V.P.; Bittencourt, L.R.M.; Silva, M.A.P.; Miotto, P.A.P.: Advances in refractories for the metallurgical industries IV, pp. 409–419 (2004).
25.
26.
Uhrig James,R.: In: T. Alton, T.M.S. Tabereaux (Eds.), Light Metals, (The Minerals, Metals & Materials Society), pp. 553–557 (2004).
27.
Franken, M.C.; Everstein, S.J.; van Berkel, P.S.; Feldmann, R.M.; Pbricks, L.: In: H. Kvande (Ed.), Light Metals, TMS (The Minerals, Metals & Materials Society), pp. 709–713. (2005).
28.
Lee, W.E.; Rainforth, W. M.: Ceramic Microstructures (Chapman & Hall, London, 1994), p. 290
29.
Schneider, H.; Majdic, A.: Kinetics and mechanism of the solid-state high-temperature transformation of andalusite (Al2SiO5) into (3Al2O3.2SiO2) and silica (SiO2). Ceramurgia Inter. 5(1), 31–36 (1979)CrossRef
30.
31.
Vargas, F.; Restrepo, E.; Rodríguez, J.E.; Vargas, F.; Arbeláez, L.; Caballero, P.; Arias, J.; López, E.; Latorre, G.; Duarte, G.: Solid-state synthesis of mullite from spent catalysts for manufacturing refractory brick coatings. Ceram. Int. 44(4), 3556–3562 (2017)CrossRef
32.
33.
Garzón, E.; Villarejo, L.P.; Soto, P.J.S.: Characterization, thermal and ceramic properties of phyllite clays from southeast Spain. J. Therm. An. Calor. 142, 1659–1670 (2020)CrossRef
34.
Xiong, Q.; Siavashi, M.; Doranehgard, M.H.; Nezhad, M.M.: Recent developments of advanced numerical heat transfer in porous media. J. Therm. An. Calor. 141, 1489–1491 (2020)CrossRef
35.
Smith, J.D.; Fang, H.; Peaslee, K.D.: Characterization and recycling of spent refractory wastes from metal manufacturers in Missouri. Resour. Conserv. Recycl. 25, 151–169 (1999)CrossRef
36.
37.
Albhilil, A.A.; Kozánková, J.; Palou, M.: Thermal and microstructure stability of cordierite-mullite ceramics prepared from natural raw materials. Arabian J. Sci. Eng. 39, 67–73 (2014)CrossRef
38.
Kumar, M.; Vaishya, R.O.; Suri, N.M.; Manna, A.: An Experimental investigation of surface characterization for zirconia ceramic using electrochemical discharge machining process. Arabian J. Sci. Eng. 46, 2269–2281 (2021)CrossRef
39.
Khan, K.I.; Khan, M.; Hussain, A.; Abdul Karim, M.R.; Khan, S.U.; Hussain, S.; Khan, H.A.: A low-cost novel talc-based opaque glaze for ceramic floor tiles. Arabian J. Sci. Eng. 48, 475–481 (2023)CrossRef
40.
41.
Bui, R.T.; Charrette, A.; Bourgeois, T.: Simulating the process of carbon anode baking used in the aluminum industry. Metall. Trans. 15, 492 (1984)CrossRef
42.
Kong, W.; Fu, C.; Liu, W.: Fire resistance test of a reinforced concrete beam-supporting column transfer structure joint unit. Arabian J. Sci. Eng. 44, 5117–5129 (2019)CrossRef
43.
Gupta, P.; Bhandary, A.K.; Chaudhuri, M.G.; Mukherjee, S.; Dey, R.: Kinetic studies on the reduction of iron oxides in low-grade chromite ore by coke fines for its beneficiation. Arabian J. Sci. Eng. 43, 6143–6154 (2018)CrossRef
44.
Metadaten
Titel
Alteration Analysis of Refractories Bricks Used in Industrial Horizontal Anodes Baking Furnace
verfasst von
Jeanne Solange Ntchayi Tankeu
Guy Molay Tchapga Gnamsi
Arlin Bruno Tchamba
Patrick Lemougna Ninla
Elie Kamseu
Marcel Guidana
George Elambo Nkeng
Dana Kausik
Michel Mbessa
Daniel Njopwouo
Publikationsdatum
06.07.2023
Verlag
Springer Berlin Heidelberg
Erschienen in
Arabian Journal for Science and Engineering / Ausgabe 12/2023
Print ISSN: 2193-567X
Elektronische ISSN: 2191-4281
DOI
https://doi.org/10.1007/s13369-023-08089-w

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