Model for Predictive Analysis of the Quantity of Water Evaporated during the Primary-Stage Processing of Bioceramic Material Sourced from Kaolin

Abstract

Model for predicting the quantity of water evaporated during the primary-stage processing of a bioceramic material sourced from kaolin has been derived. The model; E = Exp[0.3424(LogT)2.439] shows that the quantity of evaporated water during the drying process is dependent on the drying temperature, the evaporating surface being constant. It was found that the validity of the model is rooted on the expression (Logβ x lnE)N= LogT where both sides of the expression are correspondingly approximately equal to 2. The respective deviation of the model-predicted quantity of evaporated water from the corresponding experimental value was found to be less than 19% which is quite within the acceptable deviation range of experimental results, hence depicting the usefulness of the model.

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C. Nwoye, K. Okeke, M. Obi, U. Nwanyanwu, G. Obasi and O. Onyemaobi, "Model for Predictive Analysis of the Quantity of Water Evaporated during the Primary-Stage Processing of Bioceramic Material Sourced from Kaolin," Journal of Minerals and Materials Characterization and Engineering, Vol. 9 No. 2, 2010, pp. 147-155. doi: 10.4236/jmmce.2010.92013.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1] Ijomah, M. N .C., (1992). The Structure and Properties of Engineering Materials, Christon Publishers, Awka, Nigeria, pp.69.
[2] Hill, D., (1998). Design Engineering of Biomaterials for Medical Devices, John Wiley & Sons, Chichester, pp.70.
[3] Biomedical Materials (2001). Material Science and Engineering- UNSW, Teachers Reference
[4] Schlenker, B. R., (1974). Introduction to Material Science, SI Edition, John Wiley & Sons, Milton, pp. 65.
[5] Almath Crucible Ltd.Website: http://www.almath.vispa.co.uk/zirconia.htm
[6] Singer, F. and Singer, S.S., (1963). Industrial Ceramics, University Press Cambridge, pp. 44.
[7] Nwoye, C. I., (2009). Model for Calculating the Quantity of Water Lost by Evaporation during Oven Drying of Clay. Researcher Journal, 1(3): 8-13.
[8] Nwoye, C. I., Okeke, K., Obi, M., Nwanyanwu, U., Ofoegbu, S. (2009). Model for Predictive Analysis of the Quantity of Water Evaporated during the Primary-Stage Processing of Bioceramic Material Sourced from Kaolin. J. Nat. Sc., 7(4): 79-84.
[9] Nwoye, C. I., Nwakwuo, C. C., Obi, M. C., Obasi, G. C., Onyemaobi, O. O., (2009). Model for Quantifying the Extent and Magnitude of Water Evaporated during Time Dependent Drying of Clay. New York J. Sc. 2(3): 55-58.
[10] Nwoye, C. I., (2009). Model for Predicting the Quantity of Water Evaporated during Initial Stage Drying of Wet Clay Designated for Production of Bricks. J. Min., Mat., Characterization & Eng. 8(8):647-658.
[11] Nwoye, C. I., (2006). SynchroWell Research Work Report, DFM Unit, No 2487156, 12-20.

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