THERMAL SCIENCE
International Scientific Journal
NEW FRACTIONAL DERIVATIVES WITH NONLOCAL AND NON-SINGULAR KERNEL: THEORY AND APPLICATION TO HEAT TRANSFER MODEL
ABSTRACT
In this manuscript we proposed a new fractional derivative with non-local and no-singular kernel. We presented some useful properties of the new derivative and applied it to solve the fractional heat transfer model.
KEYWORDS
PAPER SUBMITTED: 2016-01-11
PAPER REVISED: 2016-01-17
PAPER ACCEPTED: 2016-01-19
PUBLISHED ONLINE: 2016-01-30
THERMAL SCIENCE YEAR
2016, VOLUME
20, ISSUE
Issue 2, PAGES [763 - 769]
- Caputo, M., Fabrizio M., A New Definition of Fractional Derivative Without Singular Kernel, Progress in Fractional Differentiation and Applications, 1(2015),2, pp. 73-85
- Losada, J., Nieto, J.J., Properties of a new fractional derivative without singular Kernel, Progress in Fractional Differentiation and Applications 1(2015)2, pp. 87-92
- Atangana, A., On the new fractional derivative and application to nonlinear Fisher's reaction-diffusion equation, Applied Mathematics and Computation, 273(2016), pp. 948-956
- Atangana, A., Nieto, J. J., Numerical Solution For The Model Of RLC Circuit Via the Fractional Derivative Without Singular Kernel, Advances in Mechanical Engineering, 7(2015) 10, pp. 1-7.
- Caputo, M., Fabrizio, M., Applications Of New Time And Spatial Fractional Derivatives with Exponential Kernels, Progress in Fractional Differentiation and Applications, 2(2016) 1 , pp. 1-11
- Doungmo Goufo, E.M., Application of the Caputo-Fabrizio fractional Derivative without Singular Kernel to Korteweg-de Vries-Bergers Equation, Mathematical Modelling and Analysis, 2015, in press
- Benson, D., Wheatcraft, S., Meerschaert, M., Application Of A Fractional Advection-Dispersion Equation, Water Resources Research, 36 (2000), pp. 1403-1412
- Caputo, M., Linear Model of Dissipation Whose Q Is Almost Frequency Independent-II. Geophysical Journal Royal Astronomical Society 13(1967), pp. 529-539
- Wheatcraft, S., Meerschaert, M., Fractional Conservation Of Mass, Advances in Water Resources, 31(2008), pp. 1377-1381
- Näsholm, S. P., Holm, S., Linking Multiple Relaxation, Power-Law Attenuation, And Fractional Wave Equations, Journal of the Acoustical Society of America, 130(2011)(5), pp. 3038-3045
- Hristov, J., Double Integral-Balance Method To The Fractional Subdiffusion Equation: Approximate Solutions, Optimization Problems To Be Resolved And Numerical Simulations, Journal of Vibration and Control, DOI: 10.1177/1077546315622773.
- Pedro, H. T. C., Kobayashi, M. H., Pereira, J. M. C., Coimbra, C. F. M., Variable Order Modeling Of Diffusive-Convective Effects On The Oscillatory Flow Past A Sphere, Journal of Vibration and Control, 14(2008) 9-10, pp. 1659-1672
- Wu, G. C., Baleanu, D., Jacobian Matrix Algorithm for Lyapunov Exponents Of The Discrete Fractional Maps, Communications in Nonlinear Science and Numerical Simulation, 22(2015) 1-3, pp. 95-100
- Kilbas, A.A., Srivastava, H.M., Trujillo,J.J., Theory And Applications Of Fractional Differential Equations, Elsevier, Amsterdam, 2006
- Hristov J., Diffusion Models with Weakly Singular Kernels in the Fading Memories: How the Integral-Balance Method can be Applied?, Thermal Science, 19(2015)3, pp. 947-957
- Hristov J., Approximate Solutions To Time-Fractional Models By Integral Balance Approach, Chapter 5, In: Fractional Dynamics , C. Cattani, H.M. Srivastava, X.J. Yang, (eds), De Gruyter Open, 2015 , pp.78-109
- Liu, F.J., et al. He's Fractional Derivative for Heat Conduction in a Fractal Medium Arising In Silkworm Cocoon Hierarchy, Thermal Science, 19(2015)4, pp. 1155-1159
- He, J. H., A New Fractal Derivation, Thermal Science, 15(2011), pp. S145-S147
