Environmental Engineering Reference
In-Depth Information
10. X. Qua, C.F. Je-Wub, “One-factor-at-a-time designs of resolution V,”
Journal
of Statistical Planning and Inference
, Vol. 131, pp. 407-416, 2005.
11. S.L. Rettig, J.W. Marinenko, H.N. Khoury, B.F. Jones, “Comparison of rapid
methods for chemical analysis of milligram samples of ultrai ne clays,”
Clays
and Clay Minerals
, Vol. 31, pp. 440-446, 1983.
12. N. Koukouzas, C. Ketikidis, G. Itskos, X. Spiliotis, V. Karayannis, G.
Papapolymerou, “Synthesis of CFB-coal l y ash clay bricks and their charac-
terization,”
Waste and Biomass Valorization
, Vol. 2, pp. 87-94, 2011.
13. L. Pezo, M. Arsenović, Z. Radojević, “ANN model of brick properties using
LPNORM calculation of mineral content”, Ceramics International, DOI
10.1016/j.ceramint.2014.02.044.
14. S. Grieua, O. Faugeroux, A. Traoré, B. Claudet, J.-L. Bodnar, “Artii cial intel-
ligence tools and inverse methods for estimating the thermal dif usivity of
building materials,”
Energy and Buildings
, Vol. 43, pp. 543-554, 2011.
15. I.C. Trelea, A.L. Raoult-Wack, G. Trystram, “Note: Application of neural
network modeling for the control of dewatering and impregnation soaking
process (osmotic dehydration),” Food Sci. Technol. Int., Vol. 3, pp. 459-465,
1997.
16. L.L. Pezo, B.Lj. Ćurčić, V.S. Filipović, M.R. Nićetin, G.B. Koprivica,
N.M. Mišljenović, Lj.B. Lević, “Artii cial neural network model of pork
meat cubes osmotic dehydratation,”
Hemijska industrija
, DOI:10.2298/
HEMIND120529082P, 2013.
17. T. Kollo, D. von Rosen,
Advanced Multivariate Statistics with Matrices,
Mathematics and its Applications
, Vol. 579, Springer, Netherlands, http://
dx.doi.org/10.1007/1-4020-3419-9, 2005.
18. L.A. Basheer, M. Hajmeer, “Artii cial neural networks: Fundamentals, com-
puting, design and application,”
J. Microbiol. Meth.
, Vol. 43, p. 3-31, 2000.
19. G.E.P. Box, D.W. Behnken, “Some new three level designs for the study of
quantitative variables,”
Technometrics
, Vol. 2, pp. 455-475, 1960.
20. S.S. Sablani, A. Kacimov, J. Pret, A.S. Mujumdar, A. Campo, “Noniterative
estimation of heat transfer coei cients using artii cial neural network mod-
els,”
International Journal of Heat and Mass Transfer
, Vol. 48, pp. 665-679,
2005.
21. M. Dondi, G. Guarini, M. Raimondo, C. Zanelli, D.D. Fabbriche, A. Agostini,
“Recycling the insoluble residue from titania slag dissolution (tionite) in clay
bricks,”
Ceramics International
, Vol. 36, pp. 2461-2467, 2010.
22. E. Furlani, G. Tonello, E. Aneggi, S. Maschio, “Preparation and characteriza-
tion of sintered ceramics made with spent foundry olivine sand and clay,”
Ceramics International
, Vol. 38, pp. 2619-2625, 2012.
23. L.C.S. Herek, C.E. Hori, M.H.M. Reis, N.D. Mora, C.R.G. Tavares, R.
Bergamasco, “Characterization of ceramic bricks incorporated with textile
laundry sludge,”
Ceramics International
, Vol. 38, pp. 951-959, 2012.
24.
D.L. Fuks, A.E. Kiv, Correlation between the composition and the rate of
ionic transport in perovskites,
Advanced Materials Letters
, Vol. 4 (5), p. 328-
331, 2013.
Search WWH ::
Custom Search