Achieving Maximum Crack Remediation Effect from Optimized Hydrotesting

Fast Facts
Financial and Status Data
Research Entity:	University of Alberta Department of Chemical and Materials Engineering University of Alberta 92nd Avenue and 116th Street Edmonton, AB T6G 2G6
COTR:	James Merritt, james.merritt @ dot.gov, (303)638-4758
Contract #:	DTPH56-08-T-000008
Project #:	251
Contact Info:	Dr. Weixing Chen Tel: 1-780-492-7706 Fax: 1-780-492-2881 Email: Weixing.Chen @ ualberta.ca
Partners:	Mr. Robert Sutherby TransCanada Pipelines Limited, Tel: 1-403-920-6031, email: robert_sutherby @ transcanada.com Mr. Rysard Kania TransCanada Pipelines Limited, Tel: 1-403-920-6032, email: richard_kania @ transcanada.com Dr. Jenny Been Alberta Research Council,Tel:1-780-450-5460, email: jenny.been @ arc.ab.ca Dr. Reg Eadie University of Alberta, Tel: 1-780-492-2825, email: reg.eadie @ ualberta.ca Ms.Theresa Anderson Natural Sciene and Engineering Council of Canada, Tel: 1-613-943-7830, email: Theresa.Anderson @ nserc.ca
Peer Review	Very Effective (PHP-4-2009, Apr 1-15, 2009)
Project Status:	Active
Start Fiscal Year:	2008 (07/01/2008)
End Fiscal Year:	2011 (06/30/2011)
PHMSA $$ Budgeted:	$151,000.00
$$ Co-Funded:	$364,000.00
Total Project Cost:	$515,000.00

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Main Objective

The project will develop a working model to allow industry to predict the overall benefits of hydrotests. Such a prediction will be made with a consideration of various characteristics of a pipeline including the type of operation, stage of cracking, environmental susceptibility, steel metallurgy, and operation history. When hydrotesting is necessary, the model will help operators select the best parameters that would generate the most effective crack remediation.

Public Abstract

Hydrotesting is one of the key techniques widely adopted for pipeline integrity management. A dilemma is created when hydrotesting is performed on pipelines experiencing stress corrosion cracking: hydrotesting eliminates defects of critical size and conditions sub-critical cracks to achieve a post-test period without operating failure; adversely it shortens remaining life because of crack growth during hydrotesting even for small SCC cracks according to the latest research findings. This research is to determine how effective hydrotesting is toward crack remediation. Specifically, efforts will be made to establish a working model that will allow the industry to predict the overall benefits of hydrotesting. When hydrotesting is necessary, the model will help pipeline operators select the hydrotesting parameters that would generate the most effective crack remediation. University of Alberta is supported in this project by TransCanada Pipelines Limited, Alberta Research Council, and Natural Science and Engineering Council of Canada. It is estimated that the optimized hydrotesting procedures may save the pipeline companies Millions per year through reduced maintenance costs and accident avoidance costs.

Other Files

Transgranular crack growth in the pipeline steels exposed to near-neutral pH soil aqueous solutions: The role of hydrogen

Transgranular.pdf (2,592,032 bytes) [View] [Download/Save...]

Quarterly Status Reports

1st Quarterly Status Report - Public Page

QuarterlyReport1public.pdf (26,547 bytes) [View] [Download/Save...]

2nd Quarterly Status Report - Public Page

QuarterlyReport2public.pdf (27,247 bytes) [View] [Download/Save...]

3rd Quarterly Status Report - Public Page

QuarterlyReport3public.pdf (27,393 bytes) [View] [Download/Save...]

4th Quarterly Status Report - Public Page

QuarterlyReport4public.pdf (27,729 bytes) [View] [Download/Save...]

5th Quarterly Status Report - Public Page

QuarterlyReport5public.pdf (32,953 bytes) [View] [Download/Save...]

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