Search
Filters
Close

Save 20% on select titles with code HIDDEN24 - Shop The Sale Now

09139 Interpretation of CIS Potential Profile with Respect to ECDA Methodology

Product Number: 51300-09139-SG
ISBN: 09139 2009 CP
Author: Randy Hodge and Steven F. Daily
Publication Date: 2009
$0.00
$20.00
$20.00
Indirect survey techniques for underground pipelines are used to identify and define the severity of coating flaws, other anomalies and areas at which corrosion activity may have occurred or may be occurring. Of the several indirect inspection methods that are commonly used for External Corrosion Direct Assessment (ECDA), close-interval survey (CIS) is considered the most widely accepted and accurate method for determining the probability and severity of external corrosion threats to underground pipelines. For valid interpretation of the CIS inspection results, the pipeline operator must consider the specific conditions along the pipeline right-of-way and the expertise level of personnel analyzing the data. Typical criteria used to assess the severity of the indication include the actual measured potential at the base of the dip, the magnitude of potential change of the dip, the separation distance between ON and OFF potentials, and whether the ON and OFF potentials are above or below cathodic protection criteria. Depending on the experience of the individual analyzing the data, interpretation and classification of the CIS indications can often be inconsistent. This paper provides an analysis of CIS potential profile data based on practical experience using ECDA methodology under various pipeline conditions.

Key Words: External Corrosion Direct Assessment, close interval survey, indirect survey, ON and OFF potentials, cathodic protection, corrosion, data interpretation, severity classification
Indirect survey techniques for underground pipelines are used to identify and define the severity of coating flaws, other anomalies and areas at which corrosion activity may have occurred or may be occurring. Of the several indirect inspection methods that are commonly used for External Corrosion Direct Assessment (ECDA), close-interval survey (CIS) is considered the most widely accepted and accurate method for determining the probability and severity of external corrosion threats to underground pipelines. For valid interpretation of the CIS inspection results, the pipeline operator must consider the specific conditions along the pipeline right-of-way and the expertise level of personnel analyzing the data. Typical criteria used to assess the severity of the indication include the actual measured potential at the base of the dip, the magnitude of potential change of the dip, the separation distance between ON and OFF potentials, and whether the ON and OFF potentials are above or below cathodic protection criteria. Depending on the experience of the individual analyzing the data, interpretation and classification of the CIS indications can often be inconsistent. This paper provides an analysis of CIS potential profile data based on practical experience using ECDA methodology under various pipeline conditions.

Key Words: External Corrosion Direct Assessment, close interval survey, indirect survey, ON and OFF potentials, cathodic protection, corrosion, data interpretation, severity classification
Product tags
Also Purchased
Picture for 08125 CIS Interpretation for ECDA - a Technical Analysis
Available for download

08125 CIS Interpretation for ECDA - a Technical Analysis

Product Number: 51300-08125-SG
ISBN: 08125 2008 CP
Author: Mark Yunovich
Publication Date: 2008
$20.00
Picture for 08118 Analysis & Interpretation of CIS Data
Available for download

08118 Analysis & Interpretation of CIS Data

Product Number: 51300-08118-SG
ISBN: 08118 2008 CP
Author: Robin Leigh Pawson
Publication Date: 2008
$20.00
Picture for 11128 Interpretation of Indirect Inspections Data in the ECDA Process
Available for download

11128 Interpretation of Indirect Inspections Data in the ECDA Process

Product Number: 51300-11128-SG
ISBN: 2011 11128 CP
Author: Sorin M. Segall, R. A. Gummow and John Shore
Publication Date: 2011
$20.00