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YOUR NAME [email protected] MATRIC NO. | COURSE MECHANICAL ENGINEERING (THERMAL-FLUID) FACULTY OF MECHANICAL ENGINEERING UNIVERSITI TEKNIKAL MALAYSIA MELAKA
DR TEE BOON TUAN [email protected] DEPARTMENT OF THERMAL-FLUID FACULTY OF MECHANICAL ENGINEERING UNIVERSITI TEKNIKAL MALAYSIA MELAKA
Progress Methodology
Literature Review
Introduction
•
INTRODUCTION
•
RESEARCH PROBLEM
•
OBJECTIVES
•
SCOPE
•
SIGNIFICANT IMPACT
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
• Oil and gas industry. Carrying condensate. • Contains abrasive particles such as sand, and wax. • Also contains H2S and CO2 which were corrosive agent. • Flow pattern are multiphase slug flow.
1 INTRODUCTION AND OVERVIEW
2 TASK AND ACTIVITIES
3 ACADEMIC
4 CLOSING
1. What is the corrosion level IF higher condensate flow rate through it? 2. Does the higher condensate flow rate will affect the longevity of the pipeline? 3. What are the optimum flow rate can be apply on pipeline so it would not corrode in a short period?
1 INTRODUCTION AND OVERVIEW
2 TASK AND ACTIVITIES
3 ACADEMIC
4 CLOSING
1. To study the relationship between erosion corrosion and flow rate of condensate in straight run pipeline. 2. To simulate the erosion corrosion rate and flow rate of condensate in straight run pipe-line using Computer Analysis Engineering software.
1 INTRODUCTION AND OVERVIEW
2 TASK AND ACTIVITIES
3 ACADEMIC
4 CLOSING
1. Design and model the pipeline in Computer Aided Design for analysis purpose. 2. Apply 2D (2-Dimension) engineering analysis software to analyse the erosion corrosion rate based on condensate flow rate. 3. Analyse data (from condensate flow rate analysis) of condensate pipeline in corrosion rate prediction software for erosion corrosion rate. 4. Relate findings in analysis with the reliability and integrity of pipeline.
1 INTRODUCTION AND OVERVIEW
2 TASK AND ACTIVITIES
3 ACADEMIC
1.Reliability and Integrity of Pipeline
4 CLOSING
•
SIGNIFICANT FINDINGS
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
1 INTRODUCTION
2 LITERATURE REVIEW
3 ACADEMIC
4 CLOSING
•
SIMULATION
•
ANALYSIS
1 INTRODUCTION
2 LITERATURE REVIEW
1. LOOK OUT DATA FOR PIPELINE DESIGN
3 METHODOLOGY
2. DESIGN & MODELLING THE PIPELINE
4 PROGRESS
3. SIMULATE PIPELINE USING PIPELINE DESIGN DATA
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
1. ANALYSIS DATA FROM SIMULATION
2. KEY IN INTO CORROSION PREDICTION SOFTWARE
3. EROSIONCORROSION RATE
6. PLOT GRAPH OF CORROSION RATE VS PRODUCTION RATE
5. LOOK OUT DATA FOR CURRENT CONDENSATE FLOW RATE
4. PLOT GRAPH OF CORROSION RATE VS CONDENSATE FLOW RATE
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
•
TASK DONE
•
CURRENT TASK
•
UPCOMING TASK
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
1. Journal reading (to date: 43 articles in various journal) 2. Drawing of pipeline 3. Pipeline design data
4. Poster
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
1. Journal reading 2. CFD – Computational Fluid Dynamics Software familiarization.
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
1. CFD – Computational Fluid Dynamics Software simulation and analysis. 2. Corrosion rate analysis using corrosion prediction software.
3. Result analysis.
DR TEE BOON TUAN [email protected] DEPARTMENT OF THERMAL-FLUID FACULTY OF MECHANICAL ENGINEERING UNIVERSITI TEKNIKAL MALAYSIA MELAKA
Progress Methodology
Literature Review
Introduction
•
INTRODUCTION
•
RESEARCH PROBLEM
•
OBJECTIVES
•
SCOPE
•
SIGNIFICANT IMPACT
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
• Oil and gas industry. Carrying condensate. • Contains abrasive particles such as sand, and wax. • Also contains H2S and CO2 which were corrosive agent. • Flow pattern are multiphase slug flow.
1 INTRODUCTION AND OVERVIEW
2 TASK AND ACTIVITIES
3 ACADEMIC
4 CLOSING
1. What is the corrosion level IF higher condensate flow rate through it? 2. Does the higher condensate flow rate will affect the longevity of the pipeline? 3. What are the optimum flow rate can be apply on pipeline so it would not corrode in a short period?
1 INTRODUCTION AND OVERVIEW
2 TASK AND ACTIVITIES
3 ACADEMIC
4 CLOSING
1. To study the relationship between erosion corrosion and flow rate of condensate in straight run pipeline. 2. To simulate the erosion corrosion rate and flow rate of condensate in straight run pipe-line using Computer Analysis Engineering software.
1 INTRODUCTION AND OVERVIEW
2 TASK AND ACTIVITIES
3 ACADEMIC
4 CLOSING
1. Design and model the pipeline in Computer Aided Design for analysis purpose. 2. Apply 2D (2-Dimension) engineering analysis software to analyse the erosion corrosion rate based on condensate flow rate. 3. Analyse data (from condensate flow rate analysis) of condensate pipeline in corrosion rate prediction software for erosion corrosion rate. 4. Relate findings in analysis with the reliability and integrity of pipeline.
1 INTRODUCTION AND OVERVIEW
2 TASK AND ACTIVITIES
3 ACADEMIC
1.Reliability and Integrity of Pipeline
4 CLOSING
•
SIGNIFICANT FINDINGS
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
1 INTRODUCTION
2 LITERATURE REVIEW
3 ACADEMIC
4 CLOSING
•
SIMULATION
•
ANALYSIS
1 INTRODUCTION
2 LITERATURE REVIEW
1. LOOK OUT DATA FOR PIPELINE DESIGN
3 METHODOLOGY
2. DESIGN & MODELLING THE PIPELINE
4 PROGRESS
3. SIMULATE PIPELINE USING PIPELINE DESIGN DATA
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
1. ANALYSIS DATA FROM SIMULATION
2. KEY IN INTO CORROSION PREDICTION SOFTWARE
3. EROSIONCORROSION RATE
6. PLOT GRAPH OF CORROSION RATE VS PRODUCTION RATE
5. LOOK OUT DATA FOR CURRENT CONDENSATE FLOW RATE
4. PLOT GRAPH OF CORROSION RATE VS CONDENSATE FLOW RATE
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
•
TASK DONE
•
CURRENT TASK
•
UPCOMING TASK
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
1. Journal reading (to date: 43 articles in various journal) 2. Drawing of pipeline 3. Pipeline design data
4. Poster
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
1. Journal reading 2. CFD – Computational Fluid Dynamics Software familiarization.
1 INTRODUCTION
2 LITERATURE REVIEW
3 METHODOLOGY
4 PROGRESS
1. CFD – Computational Fluid Dynamics Software simulation and analysis. 2. Corrosion rate analysis using corrosion prediction software.
3. Result analysis.
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