Bibliografia


  • Bhushan B., Jung Y.C., “Natural and biomimetic artificial surfaces for superhydrophobicity, self-cleaning, low adhesion, and drag reduction”. Progress in Materials Science 56, 1−108, 2011.
  • Caliskan; F., Aykan, R., and Hajiyev, C., 2008, “Aircraft Icing Detection, Identification, and Reconfigurable Control Based on Kalman Filtering and Neural Networks”, J. of Aerospace Engineering, v. 21, no. 2, pp.51−60.
  • Cao L., Jones A. K., Sikka V. K., Wu J., and Gao D., “Anti-Icing Superhydrophobic Coatings”. Langmuir, 25(21), 12444−12448, 2009.
  • Cassie A., Baxter S., “Wettability of porous surfaces”. Trans. Faraday Soc., 40, 546−551,1944. Cotta, R.M. , 1993, “Integral Transforms in Computational Heat and Fluid Flow”, CRC Press, Boca Raton.
  • Cotta, R.M. and Mikhailov, M.D., 1997, “Heat Conduction: Lumped Analysis, Integral Transforms, Symbolic Computation”, Wiley-Interscience, Chichester, UK.
  • Cotta, R.M., 1998, “The Integral Transform Method in Thermal and Fluids Sciences and Engineering”, Begell House, New York.
  • Cotta, R.M. e Mikhailov, M.D., 2006, “Hybrid methods and symbolic computations”, in: Handbook of Numerical Heat Transfer, 2nd edition, Chapter 16, Eds. W.J. Minkowycz, E.M. Sparrow, and J.Y. Murthy, John Wiley, New York.
  • Cotta, R. M., Quaresma, J. N. N., Sphaier, L. A., Naveira Cotta, C. P., 2010, “Unified Integral Transform Approach in the Hybrid Solution of Multidimensional Nonlinear Convection-Diffusion Problems”, 14th Int. Heat Transfer Conf., Washington, DC, USA, August.
  • Fortin, G., Laforte, J.L., and Ilinca, A., 2006, “Heat and Mass Transfer during Ice Accretion on Aircraft Wings with an Improved Roughness Model”, Int. J. Thermal Sciences, v.45, pp.595−606.
  • Gent, R. W., Dart, N. P., and Cansdale, J. T., 2000, “Aircraft Icing”, Phil. Trans. R. Soc. Lond. A, v. 358, pp.2873−2911.
  • Kulinich S. A., Farhadi S., Nose K., Du X. W., “Superhydrophobic Surfaces: Are They Really Ice-Repellent?”. Langmuir, 27(1), 25−29, 2011.
  • Lee J. P., Choi S., Park S., “Extremely Superhydrophobic Surfaces with Micro- and Nanostructures Fabricated by Copper Catalytic Etching”, Langmuir , 27(2), 809−814, 2011.
  • Marins, L.P.M., Duarte, D.G., Loureiro, J.B.R., Moraes, C.A.C., Silva Freire, A.P. , 2009, “LDA and PIV Characterization of the Flow in a Hydrocyclone without an Air−core”, Journal of Petroleum Science & Engineering, pp. 168−176.
  • Myers, T.G., Charpin, J.P.F., and Thompson, C.P., 2002, “Slowly Accreting Ice due to Supercooled Water Impacting on a Cold Surface”, Physics of Fluids, v.14, no.1, pp.240−256.
  • Sherif, S.A., Pasumarthi, N., and Bartlett, C.S., 1997, “A Semi-empirical Model for Heat Transfer and Ice Accretion on Aircraft Wings in Supercooled Clouds", Cold Regions Science and Technology, v.25, pp.165−179.
  • Silva, G. A. L., Silvares, O. M., and Zerbini, E. J. G. J., 2007a, “Numerical Simulation of Airfoil Thermal Anti-ice Operation. Part 1: Mathematical Modeling”, Journal of Aircraft, v. 44, no. 2, pp. 627−633.
  • Silva, G. A. L., Silvares, O. M., and Zerbini, E. J. G. J., 2007b, “Numerical Simulation of Airfoil Thermal Anti-ice Operation. Part 2: Implementation and Results”, Journal of Aircraft, v. 44, no. 2, pp. 634−641.
  • Sparrow, E.M., Abraham, J.P., Tong, J.C.K., 2004, “Archival Correlations for Average Heat Transfer Coefficients for Non-circular and Circular Cylinders and for Spheres in Cross-flow”, Int. J. Heat & Mass Transfer, v.47, pp.5285−5296.
  • Sphaier, L. A., Naveira Cotta, C. P., Cotta, R. M., Quaresma, J. N. N., 2009, “The UNIT (Unified Integral Transforms) Symbolic− Numerical Computational Platform for Benchmarks in Convection-Diffusion Problems”, Proceedings of the 30th CILAMCE Congresso Ibero Latino Americano de Métodos Computacionais em Engenharia (CILAMCE), 2009, Buzios, RJ, Brazil.
  • Stefanini, L. M., Silvares, O. M., Silva, G. A. L., and Zerbini, E. J. G. J., 2008, “Boundary-Layers Integral Analysis - Airfoil Icing”, AIAA Paper 2008−0474, Aerospace Sciences Meeting and Exhibit, 46th, 2008, Reno, American Institute of Aeronautics and Astronautics, Reston, Janeiro 2008.
  • Tong, Z.M., and Hu, Y.H., 2009, “Convective Heat Transfer and Flow Resistance Characteristics of Various Types of Elliptical Tubes”, Proc. of the Int. Conf. on Energy and Environment Technology, IEEE, 2009.
  • Wolfram, S., 2005, “The Mathematica Book”, Cambridge-Wolfram Media. Wang F., Li C., Lv Y., Du Y., “Reducing Ice Accumulation on Aluminum Conductor by Applying Superhydrophobic Coating”. IEEE, 978−1−4244−4368−0 ⁄ 09, 2009.
  • Wang F., Li C., Zhang Q. Lv Y., “Ice formation on different hydrophobic aluminum conductor surface”. IEEE, 978−1−4244−6301−5 ⁄ 10 , 2010.
  • Wenzel R. N., “Resistance of solid surfaces to wetting by water”. Indust. Eng. Chem., 28,988−994, 1936.