Corrosion Loop

About the Risk Based Inspection (RBI) Corrosion Loop Data Loader

GE Digital APM, through the Risk Based Inspection module, provides the functionality to carry out a Semi-Quantitative Analysis (RBI Criticality Analysis) on Corrosion Loops, which are comprised of various types of linked RBI Ccomponents. Using the Risk Based Inspection (RBI) Corrosion Loop Data Loader, you can generate all Corrosion Loops for a Process Unit along with the related RBI Components and Reference Documents.

Using the Risk Based Inspection (RBI) Corrosion Loop Data Loader, you can create or update Corrosion Loops, link RBI Components, and Reference Documents.

About the Risk Based Inspection (RBI) Corrosion Loop Data Loader Requirements

This documentation assumes that your organization has completed fully the deployment of the Risk Based Inspection module. The Risk Based Inspection (RBI) Corrosion Loop Data Loader should only be used after the Risk Based Inspection module has been implemented.

The data loader can be used to set up an RBI program during implementation. Because the RBI Components must exist prior to the Corrosion Loop data load, the Risk Based Inspection (RBI) 580 Data Loader should be used before the Risk Based Inspection (RBI) Corrosion Loop Data Loader.

When you create or update a Corrosion Loop, it is linked to a Functional Location, which must already exist, and then linked to Criticality RBI Components and Reference Documents that you specify.

The following data must be defined prior to loading Corrosion Loop data:

  • Site References
  • Equipment Taxonomies

  • Functional Location Families

Security Settings

The Security User performing the data load operation must be associated with either the MI Data Loader User or MI Data Loader Admin Security Role, and must also be associated with the MI RBI Analyst Security Group or a Security Role that is associated with this Security Group.

About the Risk Based Inspection (RBI) Corrosion Loop Data Loader Data Model

This topic has been intentionally excluded from the GE Digital APM product documentation website. This topic is available to you via the product documentation that is provided within the GE Digital APM system.

About the Risk Based Inspection (RBI) Corrosion Loop Data Loader General Loading Strategy

Best Practices

When importing data using the Risk Based Inspection (RBI) Corrosion Loop Data Loader, you must use the following best practices:

  • ID fields (Row 2 of each worksheet) must not include special characters or spaces.
  • The data loader workbook contains sample data in each column. It is only for your reference. You must remove this data before using the data loader workbook.
  • Columns (including columns representing custom fields) in the worksheets should be formatted as Text.

  • Import a maximum of 500 records in each data load.

  • For Oracle databases, valid cell values are case-sensitive.

  • For a Corrosion Loop to have associated RBI Components, the RBI Components that will be linked to the Corrosion Loop must already exist in the GE Digital APM system.

  • If RBI Components do not exist, the Corrosion Loop Data Loader will create or update Corrosion Loop data, but it will not have any associated RBI Components.

Load Sequence

The RBI Corrosion Loop data load is performed in a specific sequence to create all necessary relationships between records:

Note: Prior to deploying the Risk Based Inspection (RBI) Corrosion Loop Data Loader, the Risk Based Inspection (RBI) 580 Data Loader must be implemented. The Corrosion Loop Data Loader uses the values in the Functional Location field, the Corrosion Loop field, the Equipment field, and the Component field to look up the associated component record and to link said RBI Component to a Corrosion Loop. . For RBI Components to be linked to a Corrosion Loop, the RBI Components must already exist and be present in the Components worksheet. If RBI Components do not exist, the Corrosion Loop Data Loader will create or update Corrosion Loop data, but it will not have any associated RBI Components.

  1. The Corrosion Loops worksheet is processed. An existing Functional Location will be looked up based on the Functional Location (MI_EQUIP000_EQUIP_ID_C) and the RBI Corrosion Loop ID (MI_RBI_SYSTEM_RBI_SYS_ID_C).

    If a Corrosion Loop specified on the worksheets exists, it will be updated. If a Corrosion Loop cannot be found, then a new Corrosion Loop will be created.

  2. The RBI Components worksheet is processed. An existing RBI Component is looked up based on the Equipment ID (MI_EQUIP000_EQUIP_ID_C), the Equipment Technical Number (MI_EQUIP000_EQUIP_TECH_NBR_C), the Component (MI_RBICOMPO_COMPO_C) and the Component Type (MI_RBICOMPO_COMPO_TYPE_C). If found, that RBI Component will be linked to the specified Corrosion Loop (MI_RBI_SYSTEM_RBI_SYS_ID_C). If no RBI Components exist, this worksheet is skipped.

    If the RBI Component is specified in the worksheet, but that RBI Component cannot be looked up, an error is added to the log.

  3. The Reference Document worksheet is processed. The Corrosion Loop will be looked up by the Functional Location (MI_FNCLOC00_FNC_LOC_C), the RBI Corrosion Loop (MI_RBI_SYSTEM_RBI_SYS_ID_C), and the Reference Document ID (CTIT_ID).

    If a Reference Document specified on the worksheet exists, it will be updated. If a Reference Document cannot be found, than a new Reference Document will be created.

Data that you specify in the field on each worksheet will be included in the new records.

About the Risk Based Inspection (RBI) Corrosion Loop Data Loader Workbook Layout and Use

In order to import data using the Risk Based Inspection (RBI) Corrosion Loop Data Loader, GE Digital APM provides an Excel workbook, Risk Based Inspection (RBI) Corrosion Loop.xlsx, which supports baseline Risk Based Inspection in GE Digital APM. This workbook must be used to perform the data load. You can modify the Excel workbook to include custom fields used by your organization.

Note: The Excel workbook is referred to throughout this documentation as the data loader workbook.

The following table lists the worksheets that are included in the data loader workbook.

WorksheetDescription
Corrosion_LoopsThis worksheet is used to specify which Corrosion Loops the user wants to link to Functional Locations.
ComponentsThis worksheet is used only to lookup fields for unique, existing RBI Components to link to Corrosion Loops.
Reference_DocumentThis worksheet is used to specify the Functional Location key fields as well as the Corrosion Loop key fields.

Color Coding

Certain columns on the worksheets have different functions and requirements. To illustrate this, certain columns are color-coded. The following table lists the colors and what they represent.

Color

Description

Comments

 

Required Key Fields

Indicates columns that contain values that are used by the Risk Based Inspection (RBI) Corrosion Loop Data Loader to look up and create records. If these columns are removed from the worksheets, the data load will fail. While the worksheets require that these columns be present, values are not necessarily required in these columns.

 

Fields Required for Saving Records

Indicates columns that contain values that are required to save the record.

 

Recommended Fields

Indicates columns that, according to GE Digital APM Best Practice for Inspection Management, should contain values.

 

Custom Fields

Indicates columns in which you can specify custom fields.

Limitations

The Risk Based Inspection (RBI) Corrosion Loop Data Loader has the following limitations:

  • The values that you enter in the data loader workbook are case-sensitive.

  • If you reimport data, the records that have been created by the Data Loader will be updated. Therefore, while reimporting data, if you remove the data for a field in the data loader workbooks, the value for the corresponding field in GE Digital APM will be either a default value or blank.

Corrosion_Loops Worksheet

On the Corrosion_Loops worksheet, you will specify which Corrosion Loops the user wants to link to Functional Locations.

Field Caption

Field ID

Data Type (Length)

Comments

Functional Location

MI_FNCLOC00_FNC_LOC_C

Character (255)

The value in this column is used to break the data into smaller data loads.

CMMS System

MI_FNCLOC00_SAP_SYSTEM_C

Character (255)

A value is required for each row.

RBI Corrosion Loop ID

MI_RBI_SYSTEM_RBI_SYS_ID_C

Character (255)

If this column is populated, the Corrosion Loop referenced in this column will be identified by a combination of the Functional Locations and CMMS System.

RBI Corrosion Loop Description

MI_RBI_SYSTEM_RBI_SYS_DESC_C

Character (2000)

This column is not required for calculations; however, providing a value for this column is considered Best Practice.

RBI Corrosion Loop From

MI_RBI_SYSTEM_RBI_SYS_FROM_C

Character (255)

This column is not required for calculations; however, providing a value for this column is considered Best Practice.

RBI Corrosion Loop To

MI_RBI_SYSTEM_RBI_SYS_TO_C

Character (255)

This column is not required for calculations; however, providing a value for this column is considered Best Practice.

Components Worksheet

On the Components worksheet, you will use lookup fields to find unique, existing RBI Components to link to Corrosion Loops.

Field Caption

Field ID

Data Type (Length)

Comments

Functional Location

MI_FNCLOC00_FNC_LOC_C

Character (50)

Values in this column must match values entered on the Corrosion_Loop worksheet, if they exist.

CMMS System

MI_FNCLOC00_SAP_SYSTEM_C

Character (255)

Values in this column must match values entered on the Corrosion_Loop worksheet, if they exist.

RBI Corrosion Loop ID

MI_RBI_SYSTEM_RBI_SYS_ID_C

Character (255)

Values in this column must match values entered on the Corrosion_Loop worksheet, if they exist.

Equipment ID

MI_EQUIP000_EQUIP_ID_C

Character (255)

A value is required for each row.

Equipment Technical Number

MI_EQUIP000_EQUIP_TECH_NBR_C

Character (255)

A value is required for each row.

Component

MI_RBICOMPO_COMPO_C

Character (250)

A value is required for each row.

Component Type

MI_RBICOMPO_COMPO_TYPE_C

Character (60)

A value is required for each row.

This cell may only contain a value that exists in the list in the Component Type field for Criticality RBI Component records.

Reference_Document Worksheet

On the Reference_Document worksheet, you will specify the Functional Location key fields as well as the Corrosion Loop key fields.

Field Caption

Field ID

Data Type (Length)

Comments

Functional Location

MI_FNCLOC00_FNC_LOC_C

Character (255)

Values in this column must match values entered on the Corrosion_Loop worksheet, if they exist.

CMMS System

MI_FNCLOC00_SAP_SYSTEM_C

Character (255)

Values in this column must match values entered on the Corrosion_Loop worksheet, if they exist.

RBI Corrosion Loop ID

MI_RBI_SYSTEM_RBI_SYS_ID_C

Character (255)

Values in this column must match values entered on the Corrosion_Loop worksheet, if they exist.

Reference Document ID

CTIT_ID

Character (255)

A value is required for each row.

Description

CTIT_DESC_TX

Character (255)

This column is not required for calculations; however, providing a value for this column is considered Best Practice.

Document Path

MIRD_DOC_PATH_CHR

Character (1023)

This column is not required for calculations; however, providing a value for this column is considered Best Practice.

About the Risk Based Inspection (RBI) Corrosion Loop Data Loader Load Verification

About this task

Following a data load, you should perform the following steps in GE Digital APM to confirm the integrity and accuracy of the data imported from the data loader workbook.

Procedure

  1. Access the details of the import job. These details will indicate if any errors, minor or otherwise, were encountered during the import job. The log may help account for any records that are unexpectedly absent after the data load.
  2. In Risk Based Inspection or Record Manager, access the Corrosion Loops specified in the data loader workbook, and then verify that the expected components are present or updated, and that any associated records that you expected to be created are also present in the database.

    You can enter the following query in the SQL workspace of the Query page to review a list of components created after a specified date:

    SELECT [MI_RBiSYS00].LAST_UPDT_DT "LAST_UPDT_DT", [MI_RBiSYS00].[MI_RBI_SYSTEM_RBI_SYS_ID_C] "RBI Corrosion Loop ID", [MI_RBiSYS00].[MI_RBI_SYSTEM_RBI_SYS_DESC_C] "RBI Corrosion Loop Description", [MI_RBiSYS00].[MI_RBI_SYSTEM_RBI_SYS_TO_C] "RBI Corrosion Loop To", [MI_RBiSYS00].[MI_RBI_SYSTEM_RBI_SYS_FROM_C] "RBI Corrosion Loop From", [MI_RBICOMPO].[MI_RBICOMPO_COMPO_C] "RBI Component ID", [MI_RBICOMPO].[MI_RBICOMPO_COMPO_TYPE_C] "Component Type" FROM [MI_RBiSYS00] LEFT JOIN {MIR_HSRBICMP} JOIN [MI_RBICOMPO] ON {MIR_HSRBICMP}.SUCC_ENTY_KEY = [MI_RBICOMPO].ENTY_KEY ON [MI_RBiSYS00].ENTY_KEY = {MIR_HSRBICMP}.PRED_ENTY_KEY WHERE [MI_RBiSYS00].LAST_UPDT_DT >= CONVERT(VARCHAR(255), (? :d :caption='Enter a Date'), 110)