STUDI PARAMETRIK PROSES PENYEMPROTAN BAHAN BAKAR DAN PEMBAKARAN PADA MOTOR DIESEL DENGAN SIMULASI 3-D

STUDI PARAMETRIK PROSES PENYEMPROTAN BAHAN BAKAR DAN PEMBAKARAN PADA MOTOR DIESEL DENGAN SIMULASI 3-D

<b>Abstract :</b><p align=\"justify\"> <br /> Parametric study offuel spray and combustion process on diesel engine has been carried out using FIRE CFD code. The model incorporates a k- ? turbulence model, a `wave\' breakup spray model, the Shell ignition mode...

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Main Author: Budi Santoso (NIM : 23197007), Widodo
Format: Theses
Language:Indonesia
Subjects:
Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
Online Access:https://digilib.itb.ac.id/gdl/view/5014
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:5014
spelling id-itb.:50142006-06-29T12:10:19ZSTUDI PARAMETRIK PROSES PENYEMPROTAN BAHAN BAKAR DAN PEMBAKARAN PADA MOTOR DIESEL DENGAN SIMULASI 3-D Budi Santoso (NIM : 23197007), Widodo Teknik (Rekayasa, enjinering dan kegiatan berkaitan) Indonesia Theses Parametric, Turbulence, Consentration, Temperatures INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/5014 <b>Abstract :</b><p align=\"justify\"> <br /> Parametric study offuel spray and combustion process on diesel engine has been carried out using FIRE CFD code. The model incorporates a k- ? turbulence model, a `wave\' breakup spray model, the Shell ignition model, the Magnussen turbulent combustion model, and a spray/wall impingement model that includes rebounding and breaking-up drops. NOx formation was modeled using extended Zeldovich mechanism, whilst soot modeling includes nucleation, surface growth and oxidation process. The study was carried out by varying swirl ratio, injection time, breakup time constant, piston wall temperature, computation initial condition and diesel operating condition. Cylinder temperature and pressure, fuel vapour concentration, NOx formation, soot and unburned hydrocarbon were observed. Simulation showed that NOx formation was strongly influenced by fuel vapour concentration and temperature. The maximum NOx concentration was found in the slightly lean mixture (equivalence ratio around 0.9) with high temperature. Soot occurred under high temperature and fuel rich conditions. The models used were able to predict exhaust gas changes due to swirl ratio, start of injection, breakup time constant, and load changes. Unburned hydrocarbon concentration change due to wall temperature change was not predicted properly by these models. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
topic Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
spellingShingle Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
Budi Santoso (NIM : 23197007), Widodo
STUDI PARAMETRIK PROSES PENYEMPROTAN BAHAN BAKAR DAN PEMBAKARAN PADA MOTOR DIESEL DENGAN SIMULASI 3-D
description <b>Abstract :</b><p align=\"justify\"> <br /> Parametric study offuel spray and combustion process on diesel engine has been carried out using FIRE CFD code. The model incorporates a k- ? turbulence model, a `wave\' breakup spray model, the Shell ignition model, the Magnussen turbulent combustion model, and a spray/wall impingement model that includes rebounding and breaking-up drops. NOx formation was modeled using extended Zeldovich mechanism, whilst soot modeling includes nucleation, surface growth and oxidation process. The study was carried out by varying swirl ratio, injection time, breakup time constant, piston wall temperature, computation initial condition and diesel operating condition. Cylinder temperature and pressure, fuel vapour concentration, NOx formation, soot and unburned hydrocarbon were observed. Simulation showed that NOx formation was strongly influenced by fuel vapour concentration and temperature. The maximum NOx concentration was found in the slightly lean mixture (equivalence ratio around 0.9) with high temperature. Soot occurred under high temperature and fuel rich conditions. The models used were able to predict exhaust gas changes due to swirl ratio, start of injection, breakup time constant, and load changes. Unburned hydrocarbon concentration change due to wall temperature change was not predicted properly by these models.
format Theses
author Budi Santoso (NIM : 23197007), Widodo
author_facet Budi Santoso (NIM : 23197007), Widodo
author_sort Budi Santoso (NIM : 23197007), Widodo
title STUDI PARAMETRIK PROSES PENYEMPROTAN BAHAN BAKAR DAN PEMBAKARAN PADA MOTOR DIESEL DENGAN SIMULASI 3-D
title_short STUDI PARAMETRIK PROSES PENYEMPROTAN BAHAN BAKAR DAN PEMBAKARAN PADA MOTOR DIESEL DENGAN SIMULASI 3-D
title_full STUDI PARAMETRIK PROSES PENYEMPROTAN BAHAN BAKAR DAN PEMBAKARAN PADA MOTOR DIESEL DENGAN SIMULASI 3-D
title_fullStr STUDI PARAMETRIK PROSES PENYEMPROTAN BAHAN BAKAR DAN PEMBAKARAN PADA MOTOR DIESEL DENGAN SIMULASI 3-D
title_full_unstemmed STUDI PARAMETRIK PROSES PENYEMPROTAN BAHAN BAKAR DAN PEMBAKARAN PADA MOTOR DIESEL DENGAN SIMULASI 3-D
title_sort studi parametrik proses penyemprotan bahan bakar dan pembakaran pada motor diesel dengan simulasi 3-d
url https://digilib.itb.ac.id/gdl/view/5014
_version_ 1820663561962127360

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