Investigations of thermal decomposition of big limestone samples in an enclosure fi lled with a mixture of air and CO2 Part I: Microstructure and physicochemical properties of limestones
 
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1
AGH University of Science and Technology, Faculty of Materials Science and Ceramics
 
2
Institute of Ceramics and Building Materials, Glass and Building Materials Division in Cracow
 
 
Publication date: 2018-11-01
 
 
Cement Wapno Beton 23(6) 442-452 (2018)
 
KEYWORDS
ACKNOWLEDGEMENTS
The fi nancial support from Institute of Ceramics and Building Materials, Glass and Building Materials Division, Cracow and AGH University of Science and Technology, Cracow, Poland is greatly acknowledged (grant No 11.11.160.184). We would like to offer our sincere thanks to prof. dr hab. inż. Piotr Wyszomirski for his valuable discussion of the results of the project.
REFERENCES (21)
1.
G. Seidel, H. Huckauf, J. Stark, Technologie des ciments, chaux, plâtre, 34-38, Edit. Septima, Paris 1980.
 
2.
R. Lech, Thermal Decomposition of Limestone: Part 1 - Infl uence of Properties on Calcination Time, Sil. Ind., 71, 103 – 109 (2006).
 
3.
A. M. M. Soltan, W. A. Kahl, M. M. Hazem, M. Wendschuh, R. X. Fischer, Thermal microstructural changes of grain-supported limestones, Miner. Petrol., 103, 9 -17 (2011).
 
4.
H. Piringer, Lime shaft kilns, Energy Procedia, 120, 75 – 95 (2017).
 
5.
S. Yagi, D. Kunii, Studies on combustion of carbon particles in fl ames and fl uidized beds, Fifth Symposium (International) on Combustion, 231 – 244, Van Nostrand Reinhold, New York 1954.
 
6.
A. W. D. Hills, The mechanism of the thermal decomposition of calcium carbonate, Chem. Eng. Sc., 23, 297 – 320 (1968).
 
7.
R. Lech, A mathematical model of thermal decomposition of limestones; Part 1 – Set of the model equations, Sil. Ind., 73, 11 – 12, 205 – 218 (2008).
 
8.
B. R. Stanmore, P. Gilot, Review - calcination and carbonation of limestone during thermal cycling for CO2 sequestration, Fuel Processing Technology, 86, 1707 – 1743 (2005).
 
9.
A. B. Fuertes, G. Velasco, M. J. Fernandez, T. Alvarez, Analysis of the direct sulfation of calcium carbonate, Thermochim Acta, 242,161-172 (1994).
 
10.
M. J. H. Snow, J. P. Longwell, A. F. Sarofi m, Direct sulfation of calcium carbonate, Ind. Eng. Chem. Res., 27, 268-273 (1988).
 
11.
R. S. Boynton, Chemistry and technology of lime and limestone, 132 – 164, John Wiley and Sons Inc., New York, London, Sydney 1966.
 
12.
J. A. H. Oates, Lime and Limestone: Chemistry and Technology, Production and Uses, 139 – 154, Weinheim: Wiley-VCH, 1998.
 
13.
P. Wyszomirski, M. Niesyt, T. Toboła, R. Gajerski, Surowce dolomitowe przemysłu materiałów ogniotrwałych w świetle badań inkluzji ciekło-gazowych, str. 119, VIII Konferencja Polskiego Towarzystwa Ceramicznego, Zakopane, 22-25. 09. 2011.
 
14.
A. Manecki, M. Muszyński (red.), Przewodnik do petrografi i, 249, 252, 302 – 309, AGH UWND Kraków 2008.
 
15.
P. Wyszomirski, K. Galos, Surowce mineralne i chemiczne przemysłu ceramicznego, 129 – 140, Kraków, UWND AGH 2007.
 
16.
P. Szostak, Wpływ cieplnych warunków kalcynacji na czas dysocjacji termicznej wsadu kamienia wapiennego w piecu szybowym, Praca doktorska, WIMiC, AGH w Krakowie, 20.
 
17.
J. Chojnacki, Krystalografi a chemiczna i fi zyczna, 342 – 343, PWN, Warszawa 1961.
 
18.
K. Kozłowski, W. Łapot, Petrografi a skał osadowych, 189-209, Uniw. Śląski, Katowice 1989.
 
19.
A. Gaweł, P. Wyszomirski, Analiza rentgenografi czna. W: H. Kościówko, R. Wyrwicki (red), Metodyka badań kopalin ilastych, 76 – 80, Wyd. PIG, Warszawa – Wrocław 1996.
 
20.
H. J. Rösler, editor, Lehrbuch der Mineralogie. Deutscher Verlag für Grundstoffi ndustrie, Leipzig 1979.
 
21.
K. S. W. Sing, D. H. Everett, R. A. W. Haul, L. Moscou, R. A. Pierotti, J. Rouquérol, T. Siemieniewska, Reporting physisorption data for gas/solid systems with special reference to the determination of surface area and porosity, Pure & Appl. Chem., 57, 4, 603 – 619 (1985).
 
ISSN:1425-8129
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