Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
An Analysis of The Material and Design of an Exhaust Manifold for A Single-Cylinder Internal Combustion Engine
View through CrossRef
This study aims to find the best material for the manifold and improve airflow in the UniMAP Automotive Racing Team (uniART) exhaust manifold. The exhaust manifold is a part of the exhaust system that collects and delivers exhaust gases from the cylinder head to the exhaust outlet. The exhaust manifold’s design is significant to the engine performance. The current design and new designs of the exhaust manifold were modelled using SOLIDWORKS software. Stainless steel, cast iron and mild steel were chosen as materials for manifold and were studied by conducting the Steady-State Thermal analysis. The flow of the air in the manifold is analysed and evaluated in terms of pressure and velocity. The fluid flow and thermal analysis are simulated in Computational Fluid Dynamics analysis software known as ANSYS. Results of thermal analysis prove that Stainless steel is better than other materials since it has a high temperature difference and low heat flux. The results of fluid flow analysis were compared between the current design and new designs of the exhaust manifold. The outcome indicated that validated Design 2 has a higher velocity value at the outlet and lower pressure at inlets which improves the airflow in the exhaust manifold.
Title: An Analysis of The Material and Design of an Exhaust Manifold for A Single-Cylinder Internal Combustion Engine
Description:
This study aims to find the best material for the manifold and improve airflow in the UniMAP Automotive Racing Team (uniART) exhaust manifold.
The exhaust manifold is a part of the exhaust system that collects and delivers exhaust gases from the cylinder head to the exhaust outlet.
The exhaust manifold’s design is significant to the engine performance.
The current design and new designs of the exhaust manifold were modelled using SOLIDWORKS software.
Stainless steel, cast iron and mild steel were chosen as materials for manifold and were studied by conducting the Steady-State Thermal analysis.
The flow of the air in the manifold is analysed and evaluated in terms of pressure and velocity.
The fluid flow and thermal analysis are simulated in Computational Fluid Dynamics analysis software known as ANSYS.
Results of thermal analysis prove that Stainless steel is better than other materials since it has a high temperature difference and low heat flux.
The results of fluid flow analysis were compared between the current design and new designs of the exhaust manifold.
The outcome indicated that validated Design 2 has a higher velocity value at the outlet and lower pressure at inlets which improves the airflow in the exhaust manifold.
Related Results
Elucidating Optimal Exhaust Manifold Divergence and Temperature Distribution in Improving Low-End Engine Speed Performance
Elucidating Optimal Exhaust Manifold Divergence and Temperature Distribution in Improving Low-End Engine Speed Performance
The exhaust manifold plays a crucial role in optimizing the performance of Spark-Ignition (SI) engines by effectively expelling combustion products. This study focuses on the optim...
Power Recovery From In-Situ Combustion Exhaust Gases
Power Recovery From In-Situ Combustion Exhaust Gases
A field evaluation of the use of a small gas-combustion turbine generator set to recover power from in-situ combustion exhaust gases was conducted. With suitable modifications to t...
Experimental Study on Characteristics of Conical Spray and Combustion for Medium Speed D.I. Diesel Engine
Experimental Study on Characteristics of Conical Spray and Combustion for Medium Speed D.I. Diesel Engine
<div class="htmlview paragraph">This paper inverstigates a new way of conical spray for medium speed D. I. diesel engine, with which three different construction injectors we...
Development of the Tour Split-Cycle Internal Combustion Engine
Development of the Tour Split-Cycle Internal Combustion Engine
<div class="section abstract"><div class="htmlview paragraph">The Tour engine is a novel split-cycle internal combustion engine (ICE) that divides the four-stroke Otto ...
An Investigation with Mechanical Supercharging as Boosting Solution on Less than 0.5 Liter Single Cylinder Diesel Engine towards Bharat Stage VI Emission Development
An Investigation with Mechanical Supercharging as Boosting Solution on Less than 0.5 Liter Single Cylinder Diesel Engine towards Bharat Stage VI Emission Development
<div class="section abstract"><div class="htmlview paragraph">Small single & two cylinder diesel engines, still have primitive technical design features and ext...
Additional Cooling of Engine Exhaust Gas
Additional Cooling of Engine Exhaust Gas
BACKGROUND Nowadays with the demanding regulation of exhaust gas emissions comes a requirement on the operation of SI-combustion engine entirely with the stoichiometric fuel-air mi...
Ignition of poor fuel-air mixtures in gasoline-driven ICEs - problems, solutions
Ignition of poor fuel-air mixtures in gasoline-driven ICEs - problems, solutions
The article deals with the development of technologies in the field of improving the organization of the combustion process in internal combustion engines in order to solve the pro...
CFD Analysis and Experimental Investigation of a Heavy Duty D.I. Diesel Engine Exhaust System
CFD Analysis and Experimental Investigation of a Heavy Duty D.I. Diesel Engine Exhaust System
Exhaust manifold is one of the most critical components of an internal combustion engines and overall engine performance can be obtained from the proper optimized design of engine ...