Computational analysis of heat transfer in three types of motorcycle exhaust materials

Tulus, .; Marpaung, J.L.; Marpaung, T. J.; Suriati,

doi:10.1088/1742-6596/1542/1/012034

Cited by 4 publications

(4 citation statements)

References 2 publications

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“…In the conclusion of the research on shallow water, waves will be several steps of solution that are to be discretization of the wave equation of water in general then made the determination of the initial value and the limit conditions of the model of the wavelength equation, the next step is to modify the waves equation with the addition of the variable wave breaker that aims to give a negative value of the acceleration of seawater wave 𝑢 𝑡𝑡 the negative value is assumed as the excellent retention of sea wave should be opposed from the direction of the wind wave so that will reduce the value of wavelength (𝜆) and wave speed (𝑣) as well as the momentum of the 𝑝 𝑥 wave (𝑡). Once the wave equation with the ocean wave breaker has been modified, the next step is to perform a simulation using COMSOL Multiphysics 5.6 based on elements up to which it is combined with the finite element against the domain of the wavelength breaker model to obtain a representation of the distribution of amplitude, speed, and energy with several variations of wave freeze simulation (Tulus et al, 2020;. The stages in the solution carried out in this study are: 1.…”

Section: Methodsmentioning

confidence: 99%

A Mathematical Approach to Dampening Sea Waves Using Submerged Permeable Breakwater

Marpaung

Tulus

Gultom

2023

SinkrOn

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A wave is an energy that can propagate with a medium; the propagation of a wave moves with respect to time by carrying energy that moves with velocity per unit of time. Sea waves are one of the propagating wave problems that are broken down to produce wave propagation with a relatively inhomogeneous minimum amplitude and speed of sea waves, which have their own difficulties in solving them numerically. This study aims to analyze the stability of wave propagation on submerged breakwaters. This research will approximate the finite discretization of the breakwater domain and then combine it with the Finite Element Method to determine the moving elements of the velocity of fluid flow through a porous submerged breakwater. The research has explained the equation of the inflated wave and the simulated representation displayed on the wave breakdown process, the point that becomes the center of the waves breakdown will give a focused red color indicator meaning there is a change in momentum and potential energy that occurs and then changes the colour of the post-flattering of the sea wave so that the sinking wave breaker is a method to obtain the minimum speed and amplitude values that can be used for coastal engineering.

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Section: Methodsmentioning

confidence: 99%

A Mathematical Approach to Dampening Sea Waves Using Submerged Permeable Breakwater

Marpaung

Tulus

Gultom

2023

SinkrOn

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“…COMSOL Multiphysics is a program that uses the concept of finite element method to solve a physical problem and shows simulation of the problem solving. Which basically simulates whatever it wants: simulates heat transfer through complex structures, nanoscale photonic crystals, bending mechanical beams, fluid flow, electrochemical processes, plasma physics and more [5]. Parameters used in this research can be seen in Table 1 below.…”

Section: Finite Element Methods Solutionmentioning

confidence: 99%

“…For observing the fundamental orthogonality relation and . Taken equation from Ritz-Galerkin Approximation and weak formula implies, ( − , ) = 0, ∀ (5) this equation and its variation we get from Ritz-Galerkin method. Now define,…”

Section: Error Estimatesmentioning

confidence: 99%

Heat transfer problem analysis in three dimension tromol brake system problem

et al. 2018

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One of the physical problems that can be found in heat transfer is heat transfer to a vehicle brake. In this study a focused vehicle is a motorcycle. Where the heat transfer of the brake system on the motorcycle in this study was completed finite element method. The purpose of this study is to analyse one of the problems of displacement in the three dimensions of the motorcycle brake. So, the results obtained in the form of the best time in the braking for motorcycles. The settlement method is to use one of the partial differential equations for heat transfer. One of them is the Elemenisation model is the braking system. As is known braking system is a system used to slow and stop the vehicle. During the braking phase, the vehicle's kinetic energy will be converted into heat energy due to the friction action of the brake system. The heat flux produced by effects to the brake lining is ideally dissipated into the environment to avoid brake friction pad emissions. The heat produced has a tendency to evaporate the brake fluid and the disc brake surfaces will become hot. Based on the results obtained, when the braking system is in operation, the most significant heat transfer in t = 3.8s. This time is the best time to avoid excessive brake fluid evaporation and the rapid breakdown of the brake surface due to excessive heat.

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“…Therefore, this study aims to analyze the fatigue of the dam structure in order to produce optimum resistance results. The initial equation used is the Navier-Stokes equation based on Newton's laws [6]. The result to be achieved is a mathematical model that connects the elevation angle, water velocity, time, and the force obtained from the kinetic energy of the water flow.…”

Section: Introductionmentioning

confidence: 99%

Computational Analysis for Dam Stability Against Water Flow Pressure

Tulus

Marpaung

2023

J. Phys.: Conf. Ser.

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Fatigue analysis of an object’s structure is very important because it can provide a numerical value that can be used as a reference before acting. The finite element method is a numerical method that can calculate the value of the fatigue and stability of a structure by calculating the reynold value and the pressure given. This study aims to conduct a structural fatigue analysis of the dam that focuses on the Reynold value in order to provide an analysis and representation of the dam structure. The result to be achieved is a mathematical model that analyzes the fatigue of the dam structure by connecting the elevation angle, water velocity, time, and the force obtained from the kinetic energy in the water flow.

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Computational analysis of heat transfer in three types of motorcycle exhaust materials

Cited by 4 publications

References 2 publications

A Mathematical Approach to Dampening Sea Waves Using Submerged Permeable Breakwater

A Mathematical Approach to Dampening Sea Waves Using Submerged Permeable Breakwater

Heat transfer problem analysis in three dimension tromol brake system problem

Computational Analysis for Dam Stability Against Water Flow Pressure

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