barringer process reliability (bpr) tool -...

Barringer Process Reliability (BPR) Tool

Raul Valdez

Safety Topic

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Describe a stop sign – Hint

Did you remember the white border?

Describe a “curves ahead” sign-hint

Did you feel the words “curves ahead” was

included?

Describe a yield sign - Hint

Did you feel the words “yield right of way”

should be on the sign?

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In 1971 yield signs were standardized to

the red sign that exists today

“Normalization of Deviation”

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These are the words of John Carlin, Vice President at the

Ginna Nuclear Plant, referring to a situation in the past

where chronic water leakages from the reactor refueling pit

were tolerated by the plant’s former owners.

BPR- A modified Weibull

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Many companies keep track of very noticeable losses e.g.

Failure of asset to perform function

Loss of main power

Loss due to weather related issues, etc.

Very few companies track and quantify subtle losses.

Often the subtle losses become “accepted” as normal-

”Normalized Deviation”.

The BPR tools can be used to identify and quantify losses

that are not normally realized.

The tool is a combination qualitative and quantitative tool.

Background of BPR

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Developed by Paul Barringer, Barringer and Associates, in

the 90’s.

A few consulting firms e.g. ABB and Allied started

recommending the tool to clients.

The use/acceptance of the tool is growing.

Significant firms have used the tool.

Example of BPR Plot

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Creation of a graph

Annual Production Data – Plotted in “Rain Cloud Chart” Da

ily O

utput

Day of Year

Annual Production Data – Plotted in “Rain Cloud Chart” Da

ily O

utput

Day of Year

All production rates below a “target” production rate identified by most record keeping systems -Normally equipment failures or TAR related

Annual Production Data-Plotted in BPR Plot

Annual Production Data – Plotted in “Rain Cloud Chart” Da

ily O

utput

Day of Year

“Bandwidth” of lower and upper daily production rate when unit was “under control”

Bandwidth Shown on BPR

Bandwidth of our competitors, for this process, is 250

Annual Production Data – Plotted in “Rain Cloud Chart” Da

ily O

utput

Day of Year

What is daily average production that can be counted on in the future? Hint, the average daily production rate is 37 Widgets

Daily Average Production Rate Shown on BPR

Daily production rate shown where production line crosses “Eta” or dotted line

Annual Production Data – Plotted in “Rain Cloud Chart” Da

ily O

utput

Day of Year

What percentage of time was unit operated within this bandwidth?

Bandwidth Shown on BPR

Point at which raw data is not located on production line is percent of time unit operated within bandwidth – Shown as reliability %. Our competitors at 80% on this process

What are our competitors doing, or what is nameplate?

Us

Our Competitors

What are our losses due to “crash and burn issues”?

Losses are area under “raw data” and “production line”. In this case 1,839 Widgets/Year

What are our losses due to the way we operate and manage this unit?

Losses are area under “production line” and “nameplate line”. In this case 720 Widgets/Year

Very few total losses are due to mechanical failures – Items normally identified in EChoke

Data points are mechanical failures or TAR related. In this examples losses are 41 units/year or amount normally captured in Echoke. Most losses do not fall in this area of curve.

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Any Questions