Simulation of Fluid Flow in a Furnace Top Model of an Ethane Cracker

Induction fan failure on one of the furnaces at Ethylene Polyethylene Malaysia Sendarian Berhad (EPEMSB) in Terangganu was suspected to have been caused by vibration that resulted from a turbulent flow of the flue gas at the furnace exit. The damper flap at the stack inlet was believed to have had f...

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Main Author: Makalo Koos Khojane, Makalo
Format: Final Year Project
Published: Universiti Teknologi Petronas 2009
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Online Access:http://utpedia.utp.edu.my/692/
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spelling my-utp-utpedia.6922017-01-19T15:48:33Z http://utpedia.utp.edu.my/692/ Simulation of Fluid Flow in a Furnace Top Model of an Ethane Cracker Makalo Koos Khojane, Makalo TJ Mechanical engineering and machinery Induction fan failure on one of the furnaces at Ethylene Polyethylene Malaysia Sendarian Berhad (EPEMSB) in Terangganu was suspected to have been caused by vibration that resulted from a turbulent flow of the flue gas at the furnace exit. The damper flap at the stack inlet was believed to have had free and uncontrolled rotation due to the broken cotter pin, this was postulated to have led to the turbulence. The simulation of the flow was carried out to investigate this flow. The flapping angles of 900, 600, 300, and 00 were categorized in to four cases and simulated. The simulation results showed that when all the flaps were at 90 degrees, the characteristics of the flow was not adversely changed, hence the flow at this flapping angle was laminar. At the flapping angle of 600, the change in characteristic of the flow was observed, the fluid velocity was seen to be increasing at the edges of the damper flap, the flow was visualised to be losing the laminar characteristic and gaining turbulent characteristic. At 300 flapping angle, the flow was visualised to be having a more turbulent characteristic. The fluid velocity was significantly increased at the edges of the flap at 300 and the flow characteristic was seen to be turbulent. The fluid flow was seen to be more turbulent at 00 due to larger area of separation of the flow. The sharp edged at ends of the flap were seen to be increasing the fluid velocity adversely. Universiti Teknologi Petronas 2009 Final Year Project NonPeerReviewed Makalo Koos Khojane, Makalo (2009) Simulation of Fluid Flow in a Furnace Top Model of an Ethane Cracker. Universiti Teknologi Petronas, Sri Iskandar,Tronoh,Perak. (Unpublished)
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Electronic and Digitized Intellectual Asset
url_provider http://utpedia.utp.edu.my/
topic TJ Mechanical engineering and machinery
spellingShingle TJ Mechanical engineering and machinery
Makalo Koos Khojane, Makalo
Simulation of Fluid Flow in a Furnace Top Model of an Ethane Cracker
description Induction fan failure on one of the furnaces at Ethylene Polyethylene Malaysia Sendarian Berhad (EPEMSB) in Terangganu was suspected to have been caused by vibration that resulted from a turbulent flow of the flue gas at the furnace exit. The damper flap at the stack inlet was believed to have had free and uncontrolled rotation due to the broken cotter pin, this was postulated to have led to the turbulence. The simulation of the flow was carried out to investigate this flow. The flapping angles of 900, 600, 300, and 00 were categorized in to four cases and simulated. The simulation results showed that when all the flaps were at 90 degrees, the characteristics of the flow was not adversely changed, hence the flow at this flapping angle was laminar. At the flapping angle of 600, the change in characteristic of the flow was observed, the fluid velocity was seen to be increasing at the edges of the damper flap, the flow was visualised to be losing the laminar characteristic and gaining turbulent characteristic. At 300 flapping angle, the flow was visualised to be having a more turbulent characteristic. The fluid velocity was significantly increased at the edges of the flap at 300 and the flow characteristic was seen to be turbulent. The fluid flow was seen to be more turbulent at 00 due to larger area of separation of the flow. The sharp edged at ends of the flap were seen to be increasing the fluid velocity adversely.
format Final Year Project
author Makalo Koos Khojane, Makalo
author_facet Makalo Koos Khojane, Makalo
author_sort Makalo Koos Khojane, Makalo
title Simulation of Fluid Flow in a Furnace Top Model of an Ethane Cracker
title_short Simulation of Fluid Flow in a Furnace Top Model of an Ethane Cracker
title_full Simulation of Fluid Flow in a Furnace Top Model of an Ethane Cracker
title_fullStr Simulation of Fluid Flow in a Furnace Top Model of an Ethane Cracker
title_full_unstemmed Simulation of Fluid Flow in a Furnace Top Model of an Ethane Cracker
title_sort simulation of fluid flow in a furnace top model of an ethane cracker
publisher Universiti Teknologi Petronas
publishDate 2009
url http://utpedia.utp.edu.my/692/
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score 13.211869