EFFECT OF POSITION AND DIAMETER SIZE OF BURNER NOZZLE TIP ON COMBUSTION PHENOMENON AT PRIMARY REFORMER USING COMPUTATIONAL FLUID DYNAMICS SIMULATION (CFD)

EFFECT OF POSITION AND DIAMETER SIZE OF BURNER NOZZLE TIP ON COMBUSTION PHENOMENON AT PRIMARY REFORMER USING COMPUTATIONAL FLUID DYNAMICS SIMULATION (CFD)

Primary reformer has a very vital role in the production process of ammonia and urea plants. Uneven heat distribution phenomenon often occurs on the catalyst tube in the top-fired primary reformer unit. Catalyst tube leaks often occur in systems that have experienced excess heat due to uneven heat d...

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Main Author: Arind Pradibta, Tatang
Format: Theses
Language:Indonesia
Subjects:
Teknik kimia
Online Access:https://digilib.itb.ac.id/gdl/view/63181
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:63181
spelling id-itb.:631812022-01-26T12:12:00ZEFFECT OF POSITION AND DIAMETER SIZE OF BURNER NOZZLE TIP ON COMBUSTION PHENOMENON AT PRIMARY REFORMER USING COMPUTATIONAL FLUID DYNAMICS SIMULATION (CFD) Arind Pradibta, Tatang Teknik kimia Indonesia Theses Primary reformer, nozzle tip, heat distribution, CFD INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/63181 Primary reformer has a very vital role in the production process of ammonia and urea plants. Uneven heat distribution phenomenon often occurs on the catalyst tube in the top-fired primary reformer unit. Catalyst tube leaks often occur in systems that have experienced excess heat due to uneven heat distribution, causing the ammonia and urea plants to be completely shut down and incurring economic losses. Many factors can trigger the occurrence of uneven heat distribution. The most dominant is the shape of the flame. The slanted shape of the flame causes the tip of the flame to touch the catalyst tube or so-called flame impingement. The shape of the flame itself is greatly influenced by the configuration of burner nozzle tip. This study aims to analyze the effect of position and diameter size of burner nozzle tip on the combustion phenomenon in primary reformer unit PT Pupuk Kujang 1B. Effects of position and size of diameter of the burner nozzle tip are analyzed by simulating the mass balance and heat balance simultaneously using Computational Fluid Dynamics (CFD) simulation method. The evaluation show that fuel gas flowing in the existing burner nozzle tip has very high linear velocity up to >300 m/s and causes poor internal circulation and uneven heat distribution. Therefore, it is necessary to modify the burner by improving configuration and increasing the size of the burner nozzle tip. The burner configuration proposed in this study is a burner which all nozzle tips are symmetrically positioned in the center area and each nozzle tip has size of 12 mm. The proposed burner produces a straight hot gas flow pattern and good heat distribution based on the simulation. 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 kimia
spellingShingle Teknik kimia
Arind Pradibta, Tatang
EFFECT OF POSITION AND DIAMETER SIZE OF BURNER NOZZLE TIP ON COMBUSTION PHENOMENON AT PRIMARY REFORMER USING COMPUTATIONAL FLUID DYNAMICS SIMULATION (CFD)
description Primary reformer has a very vital role in the production process of ammonia and urea plants. Uneven heat distribution phenomenon often occurs on the catalyst tube in the top-fired primary reformer unit. Catalyst tube leaks often occur in systems that have experienced excess heat due to uneven heat distribution, causing the ammonia and urea plants to be completely shut down and incurring economic losses. Many factors can trigger the occurrence of uneven heat distribution. The most dominant is the shape of the flame. The slanted shape of the flame causes the tip of the flame to touch the catalyst tube or so-called flame impingement. The shape of the flame itself is greatly influenced by the configuration of burner nozzle tip. This study aims to analyze the effect of position and diameter size of burner nozzle tip on the combustion phenomenon in primary reformer unit PT Pupuk Kujang 1B. Effects of position and size of diameter of the burner nozzle tip are analyzed by simulating the mass balance and heat balance simultaneously using Computational Fluid Dynamics (CFD) simulation method. The evaluation show that fuel gas flowing in the existing burner nozzle tip has very high linear velocity up to >300 m/s and causes poor internal circulation and uneven heat distribution. Therefore, it is necessary to modify the burner by improving configuration and increasing the size of the burner nozzle tip. The burner configuration proposed in this study is a burner which all nozzle tips are symmetrically positioned in the center area and each nozzle tip has size of 12 mm. The proposed burner produces a straight hot gas flow pattern and good heat distribution based on the simulation.
format Theses
author Arind Pradibta, Tatang
author_facet Arind Pradibta, Tatang
author_sort Arind Pradibta, Tatang
title EFFECT OF POSITION AND DIAMETER SIZE OF BURNER NOZZLE TIP ON COMBUSTION PHENOMENON AT PRIMARY REFORMER USING COMPUTATIONAL FLUID DYNAMICS SIMULATION (CFD)
title_short EFFECT OF POSITION AND DIAMETER SIZE OF BURNER NOZZLE TIP ON COMBUSTION PHENOMENON AT PRIMARY REFORMER USING COMPUTATIONAL FLUID DYNAMICS SIMULATION (CFD)
title_full EFFECT OF POSITION AND DIAMETER SIZE OF BURNER NOZZLE TIP ON COMBUSTION PHENOMENON AT PRIMARY REFORMER USING COMPUTATIONAL FLUID DYNAMICS SIMULATION (CFD)
title_fullStr EFFECT OF POSITION AND DIAMETER SIZE OF BURNER NOZZLE TIP ON COMBUSTION PHENOMENON AT PRIMARY REFORMER USING COMPUTATIONAL FLUID DYNAMICS SIMULATION (CFD)
title_full_unstemmed EFFECT OF POSITION AND DIAMETER SIZE OF BURNER NOZZLE TIP ON COMBUSTION PHENOMENON AT PRIMARY REFORMER USING COMPUTATIONAL FLUID DYNAMICS SIMULATION (CFD)
title_sort effect of position and diameter size of burner nozzle tip on combustion phenomenon at primary reformer using computational fluid dynamics simulation (cfd)
url https://digilib.itb.ac.id/gdl/view/63181
_version_ 1822932109719764992

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