Menu
Search
Filters
Close
Menu

10093 Progress in the Prediction of Top of the Line Corrosion and Challenges to Predict Corrosion Rates Measured in Gas Pipeline

Picture for 10093 Progress in the Prediction of Top of the Line Corrosion and Challenges to Predict Corrosion
Available for download
Product Number: 51300-10093-SG
ISBN: 10093 2010 CP
Author: Yves Gunaltun, Matina Thammachart, Marc Singer, Srdjan Nesic, Suchada Punpruk and Ussama Kaewpradap
Publication Date: 2010
$0.00
$20.00
$20.00
Bongkot is an offshore gas field in the Gulf of Thailand in operation since 1992. The sealines have been subjected to top of line corrosion (TLC) since the production start-up. After detection of the first TLC case in this field in 1999, different possibilities were investigated and implemented to reduce the corrosion rate to a reasonable value. Recently few leaks were experienced at cold spots like bare metal surfaces around subsea flanges or anode pads welding. It was clear that stabilisation does not take place at cold spots. TLC prediction for the sealines of different gas fields was necessary for prediction of leaks at such locations. The TOPCORP model was selected for this purpose. As a first step, the capabilities of this model were evaluated using data available from Bongkot field. This paper gives a short review of different prediction models, summarises selected model’s main features, compares the predicted water condensation and corrosion rates to inspection results and discusses the capabilities of the model.

Key words: top of line corrosion, corrosion prediction, CO2 corrosion, modeling
Bongkot is an offshore gas field in the Gulf of Thailand in operation since 1992. The sealines have been subjected to top of line corrosion (TLC) since the production start-up. After detection of the first TLC case in this field in 1999, different possibilities were investigated and implemented to reduce the corrosion rate to a reasonable value. Recently few leaks were experienced at cold spots like bare metal surfaces around subsea flanges or anode pads welding. It was clear that stabilisation does not take place at cold spots. TLC prediction for the sealines of different gas fields was necessary for prediction of leaks at such locations. The TOPCORP model was selected for this purpose. As a first step, the capabilities of this model were evaluated using data available from Bongkot field. This paper gives a short review of different prediction models, summarises selected model’s main features, compares the predicted water condensation and corrosion rates to inspection results and discusses the capabilities of the model.

Key words: top of line corrosion, corrosion prediction, CO2 corrosion, modeling
Product tags
Also Purchased
Picture for 08471 The Use of Inspection Results for the Evaluation of Batch Treatment Efficiency and the Remaini
Available for download

08471 The Use of Inspection Results for the Evaluation of Batch Treatment Efficiency and the Remaining Life of the Pipelines Subjected to Top of Line Corrosion

Product Number: 51300-08471-SG
ISBN: 08471 2008 CP
Author: Matina Thammachart, Yves Gunaltun, and Suchada Punpruk
Publication Date: 2008
$20.00
Picture for 00071 CORRELATION OF CASES OF TOP OF LINE
Available for download

00071 CORRELATION OF CASES OF TOP OF LINE CORROSION WITH CALCULATED WATER CONDENSATION RATES

Product Number: 51300-00071-SG
ISBN: 00071 2000 CP
Author: Y.M. Gunaltun, D. Larrey
$20.00
Picture for 03344 A NEW TECHNIQUE FOR THE CONTROL OF TOP
Available for download

03344 A NEW TECHNIQUE FOR THE CONTROL OF TOP OF THE LINE CORROSION: TLCC-PIG

Product Number: 51300-03344-SG
ISBN: 03344 2003 CP
Author: Yves Gunaltun, Larry Payne
$20.00
Categories
Industry
Recently viewed
Popular tags
View all

Association for Materials Protection and Performance

© AMPP All Rights Reserved.
Membership Terms of Content Use
Contact Customer Support