Your search keyword '"Hardik S. Patel"' showing total 15 results

1. Tsunami wave propagation model: A fractional approach

Author

Priti Tandel, Hardik S. Patel, and Trushit Patel

Subjects

Differential transform method, Environmental Engineering, Tsunami wave, Partial differential equation, Mathematical analysis, Ocean Engineering, Oceanography, Adomian decomposition method, Physics::Atmospheric and Oceanic Physics, Geology, Physics::Geophysics

Abstract

This paper presents a fractional approach to study the mathematical model of tsunami wave propagation along a coastline of an ocean. Fractional Reduced Differential Transform Method (FRDTM) is used to analyze this model. The present model has been studied on the shallow-water assumption. It is represented by a time-fractional coupled system of non-linear partial differential equations. Solutions to the proposed model for different coastal slopes and ocean depths have been obtained. Effects of coast slope and sea depth variations on tsunami wave velocity and wave amplification have been demonstrated at different time levels and different orders α . The obtained results are compared with Elzaki Adomian Decomposition Method (EADM) to validate the proposed method for an order α = 1 .

Published

2022

2. Applications of Fractional Reduced Differential Transform Method for Solving the Generalized Fractional-order Fitzhugh–Nagumo Equation

Author

Hardik S. Patel and Trushit Patel

Subjects

Computational Mathematics, Nonlinear system, Current (mathematics), Integer, Differential equation, Applied Mathematics, Order (group theory), Applied mathematics, Context (language use), Derivative, Fractional calculus, Mathematics

Abstract

In the current study, we establish a fractional reduced differential transform method, which is successfully applied to obtain the analytical approximate solutions of the nonlinear generalized fractional-order Fitzhugh–Nagumo equation. Also, we considered three different cases of generalized fractional-order Fitzhugh–Nagumo equation for different values of $$\alpha $$ . The fractional derivative is considered in the context of the Caputo derivative. The obtained results show that the proposed technique is efficient, and convenient to implement fractional-order differential equations. We compared the approximate solutions and the exact solutions of the partial fractional differential equations for integer order. The approximate solutions are rapidly convergences of the exact solutions and also, this method reduced numerical calculation.

Published

2021

3. Effect of Heterogeneity on Imbibition Phenomena in Fluid Flow through Porous Media with Different Porous Materials

Author

Hardik S. Patel and Ramakanta Meher

Subjects

Materials science, Computer Networks and Communications, 74R10, General Chemical Engineering, General Engineering, 02 engineering and technology, 01 natural sciences, Heterogeneous Porous Media, 010305 fluids & plasmas, Counter – Current Imbibition, 020303 mechanical engineering & transports, 0203 mechanical engineering, lcsh:TA1-2040, Modeling and Simulation, Brooks – Corey model, 0103 physical sciences, Fluid flow through porous media, Adomian decomposition method, Imbibition, Composite material, lcsh:Engineering (General). Civil engineering (General), Porous medium, 76S05

Abstract

In this paper, the counter – current imbibition phenomena in a heterogeneous porous media is studied with the consideration of two types of porous materials like volcanic and fine sand and Adomian decomposition method is applied to find the saturation of wetting phase and the recovery rate of the reservoir. A simulation result is developed here to study the effect of heterogeneity, capillarity and relative permeability on saturation rate and to obtain an optimum recovery rate of the reservoir with the choices of some interesting parametric value.

Published

2019

4. Fractional Reduced Differential Transform Method for the Water Transport in Unsaturated Porous Media

Author

Priti Tandel and Hardik S. Patel

Subjects

Work (thermodynamics), Water transport, Applied Mathematics, 010102 general mathematics, Fractional model, Derivative, 01 natural sciences, 010101 applied mathematics, Differential transform method, Computational Mathematics, Alpha (programming language), Applied mathematics, Order (group theory), 0101 mathematics, Porous medium, Mathematics

Abstract

The concept of calculus to fractional order is widely used to analyze the complex non-linear phenomena depend on the time. In the study of unsaturated ow in soils, Brook-Corey’s model (BCM) is the most applicable model. In the present work, we considere Richards’ equation employed by BCM. We propose a fractional model involving Caputo’s sense derivative. Fractional order Richards’ equation is analyzed using FRDTM. For the validity of the method, the obtained solutions are compared with exact solutions for order $$\alpha = 1$$ . Also the comparison between errors obtained by exact solutions and FRDTM solutions and errors obtained by exact solutions and q - HATM solutions shows that the proposed method is very effective.

Published

2021

5. Analytical Investigation of Jeffery–Hamel Flow by Modified Adomian Decomposition Method

Author

Ramakanta Meher and Hardik S. Patel

Subjects

Modified Adomian Decomposition Method (MADM), 020209 energy, Mathematical analysis, General Engineering, Reynolds number, 02 engineering and technology, Grid, Engineering (General). Civil engineering (General), symbols.namesake, Flow (mathematics), 0202 electrical engineering, electronic engineering, information engineering, symbols, Magnetohydrodynamics, Homotopy perturbation method, TA1-2040, Nonlinear differential equation, Adomian decomposition method, Convergent series, Jeffery–Hamel flow, Reproducing kernel Hilbert space, Mathematics

Abstract

The objective of this paper is to present a reliable approach to compute an approximate analytical solution of magneto-hydrodynamic (MHD) Jeffery–Hamel flow by using a new modification of Adomian decomposition method. The approximate solution of this problem is calculated here in the form of a rapidly convergent series at one and both grid points. Results for velocity profiles in divergent and convergent channels are presented for different values of Hartmann and Reynolds numbers. The validity and applicability of this new technique are illustrated through a comparison between reproducing Kernel Hilbert Space Method (RKHSM) (Inc et al., 2013), Modified Homotopy Perturbation Method (MHPM) (Singh, 2014) and numerical solutions. Keywords: Jeffery–Hamel flow, Modified Adomian Decomposition Method (MADM), Nonlinear differential equation

Published

2018

6. Simulation of counter-current imbibition phenomenon in a double phase flow through fracture porous medium with capillary pressure

Author

Hardik S. Patel and Ramakanta Meher

Subjects

Capillary pressure, Materials science, 020209 energy, General Engineering, 02 engineering and technology, Mechanics, Engineering (General). Civil engineering (General), Petroleum reservoir, 020401 chemical engineering, 0202 electrical engineering, electronic engineering, information engineering, Imbibition, Geotechnical engineering, Wetting, TA1-2040, 0204 chemical engineering, Porous medium, Porosity, Saturation (chemistry), Adomian decomposition method

Abstract

In this paper, the counter-current imbibition phenomenon in a fracture porous media is studied and Adomian decomposition method is applied to find the saturation of wetting phase and the recovery rate of the reservoir. A simulation result is developed for the saturation of wetting phase in fracture matrix and in porous matrix for some interesting choices of parametric value to study the recovery rate of the oil reservoir with dimensionless time. This problem has a great importance in the oil recovery process. Keywords: Counter-current imbibition, Fracture porous media, Adomian decomposition method

Published

2018

7. Simulation of Imbibition Phenomena in Fluid Flow through Fractured Heterogeneous Porous Media with Different Porous Materials

Author

Hardik S. Patel and Ramakanta Meher

Subjects

Materials science, Mechanical Engineering, 02 engineering and technology, Condensed Matter Physics, 01 natural sciences, 010305 fluids & plasmas, 020303 mechanical engineering & transports, 0203 mechanical engineering, Mechanics of Materials, 0103 physical sciences, Fluid dynamics, Imbibition, Composite material, Porous medium

Published

2017

8. Simulation of Counter-Current Imbibition Phenomenon with Corey’s Model in Double Phase Flow Through Heterogeneous Porous Medium with Capillary Pressure

Author

Ramakanta Meher and Hardik S. Patel

Subjects

Capillary pressure, Materials science, Applied Mathematics, Thermodynamics, 020101 civil engineering, 02 engineering and technology, Petroleum reservoir, 0201 civil engineering, Computational Mathematics, 020303 mechanical engineering & transports, 0203 mechanical engineering, Imbibition, Wetting, Saturation (chemistry), Porous medium, Adomian decomposition method, Dimensionless quantity

Abstract

In this paper, the counter-current imbibition phenomena with gravity, inclination effect and with Corey’s model in heterogeneous porous media is discussed and Adomian decomposition method is applied to find the saturation rate of wetting phase and the recovery rate for both medium. Finally a simulation result is developed to study the saturation and recovery rate of the oil reservoir with dimensionless time for some interesting choices of parametric data with gravity and inclination effect. This problem has a great importance in oil recovery process.

Published

2017

9. Modelling of imbibition phenomena in two-phase fluid flow through fractured porous media

Author

Hardik S. Patel and Ramakanta Meher

Subjects

Capillary pressure, Materials science, Computer Networks and Communications, 020209 energy, General Chemical Engineering, 74r10, General Engineering, 02 engineering and technology, Mechanics, fracture porous media, Engineering (General). Civil engineering (General), counter–current imbibition, 020303 mechanical engineering & transports, 0203 mechanical engineering, Two phase fluid, Flow (mathematics), Modeling and Simulation, 0202 electrical engineering, electronic engineering, information engineering, Imbibition, adomian decomposition method, TA1-2040, Porous medium, Adomian decomposition method, capillary pressure, 76s05

Abstract

In this paper, the counter-current imbibition phenomenon in two phase fluid through fracture porous media is discussed and Adomian decomposition method is applied to find the saturation of wetting phase and the recovery rate of the reservoir. A simulation result is developed for the saturation of wetting phase in fracture matrix and in porous matrix for some interesting choices of parametric value to study the recovery rate of the oil reservoir with dimensionless time. This problem has a great importance in the oil recovery process.

Published

2017

10. Simulation of Fingering Phenomena in Fluid Flow through Fracture Porous Media with Inclination and Gravitational Effect

Author

Hardik S. Patel and Ramakanta Meher

Subjects

Materials science, Mechanical Engineering, 02 engineering and technology, Mechanics, Condensed Matter Physics, 01 natural sciences, 010305 fluids & plasmas, 020303 mechanical engineering & transports, 0203 mechanical engineering, Mechanics of Materials, 0103 physical sciences, Gravitational effect, Fracture (geology), Fluid dynamics, Porous medium

Published

2016

11. A Study on Recovery Rate for Counter - Current Imbibition Phenomenon with Corey’s Model Arising during Oil Recovery Process

Author

Ramakanta Meher and Hardik S. Patel

Subjects

Numerical Analysis, Capillary pressure, Materials science, Applied Mathematics, Counter current, Thermodynamics, 02 engineering and technology, 021001 nanoscience & nanotechnology, Computer Science Applications, 020303 mechanical engineering & transports, 0203 mechanical engineering, Computational Theory and Mathematics, Recovery rate, Scientific method, Imbibition, 0210 nano-technology, Adomian decomposition method, Analysis

Published

2016

12. Approximate analytical study of counter-current imbibition phenomenon in a heterogeneous porous media

Author

Hardik S. Patel and Ramakanata Meher

Subjects

Materials science, 020209 energy, Applied Mathematics, 0202 electrical engineering, electronic engineering, information engineering, Counter current, Imbibition, 02 engineering and technology, Mechanics, Porous medium

Published

2016

13. Application of Laplace Adomian Decomposition Method for the soliton solutions of Boussinesq-Burger equations

Author

Hardik S. Patel and Ramakanta Meher

Subjects

lcsh:Mathematics, lcsh:Descriptive and experimental mechanics, lcsh:QA1-939, lcsh:QC120-168.85

Published

2015

14. Modified Adomian Decomposition Method for Solving Eleventh-order Initial and Boundary Value Problems

Author

Ramakanta Meher and Hardik S. Patel

Subjects

Order (business), Mathematical analysis, General Earth and Planetary Sciences, Boundary value problem, Adomian decomposition method, General Environmental Science, Mathematics

Published

2015

15. Modelling of Imbibition Phenomena in Fluid Flow through Heterogeneous Inclined Porous Media with different porous materials

Author

Hardik S. Patel and Ramakanta Meher

Subjects

Materials science, Computer Networks and Communications, 74r10, General Chemical Engineering, General Engineering, 02 engineering and technology, counter - current imbibition, heterogeneous porous media, Engineering (General). Civil engineering (General), 01 natural sciences, brooks corey model adomian decomposition method, 010305 fluids & plasmas, 020303 mechanical engineering & transports, 0203 mechanical engineering, Modeling and Simulation, 0103 physical sciences, Fluid dynamics, Imbibition, TA1-2040, Composite material, Porous medium, 76s05

Abstract

In this paper, the counter - current imbibition phenomenon is discussed in an inclined heterogeneous porous media with the consideration of two types of porous materials like volcanic sand and fine sand. Adomian decomposition method is applied to find the saturation of wetting phase and the recovery rate of the reservoir. Finally, a simulation result is developed to study the saturation of wetting phase and the optimum recovery rate of reservoir with the choices of some interesting parametric values. This problem has a great importance in the field of oil recovery process.

Published

2017