Glycol Dehydration - Advanced
Builds upon the content covered in the TEG Beginner course and goes into detail about how to calculate water content in natural gas streams, typical operating conditions, alarms in a TEG unit, troubleshooting, and TEG analysis.
Course Price
500
Content
Tartan Academy Instructions
1.1 Dehydration Plant Optimization and Troubleshooting
1.2 Foaming Identification and Troubleshooting
1.3 Hydrocarbon Contamination
1.4 Salt and Chloride Contamination
1.5 Suspended Solids Contamination
1.6 Corrosion Contamination
1.7 Dewpoint Control and TEG Circulation Issues
1.8 Glycol Loss Issues
1.9 Glycol Loss Issues 2
2.1 The Importance of Glycol Lab Analysis
2.2 Water Content Analysis
2.3 Fluid Composition Analysis
2.4 Hydrocarbon Content Analysis
2.5 Foaming Tendency Analysis
2.6 Chloride Content Analysis
2.7 pH Analysis
2.8 Suspended Solids Analysis
2.9 Summary part 1
3.1 TEG Dehydration System Sample Calculations 1
3.2 TEG Dehydration System Sample Calculations 2
3.3 TEG Circulation Rate Calculations
3.4 TEG Sales Gas Dewpoint Calculation
3.5 Stripping Gas Calculation 1
3.6 Stripping Gas Calculation 2
4.1 Dehydration Case Study #1 - Sales Gas Dewpoint Issue 1
4.2 Dehydration Case Study #1 - Sales Gas Dewpoint Issue 2
5.1 Dehydration Case Study #2 - Severe Glycol Losses 1
5.2 Dehydration Case Study #2 - Severe Glycol Losses 2
6.1 Dehydration Case Study #3 - Glycol Regeneration Issue 1
6.2 Dehydration Case Study #3 - Glycol Regeneration Issue 2
7.1 Dehydration Case Study #4 - Glycol Analysis 1-1
7.2 Dehydration Case Study #4 - Glycol Analysis 1-2
7.3 Dehydration Case Study #4 - Glycol Analysis 1-3
8.1 Dehydration Case Study #5 - Glycol Analysis 2-1
9.1 Dehydration Case Study #6 - Glycol Analysis 3-1
9.2 Dehydration Case Study #6 - Glycol Analysis 3-2
10.1 Dehydration Case Study #7 - Glycol Analysis Part 1
10.2 Dehydration Case Study #7 - Glycol Analysis Part 2
11.1 Summary part 2
Sample Lesson Preview
Suspended Solids Contamination
1.5 Suspended Solids Contamination
Duration: 01:21