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The story of the worlds well integrity standard

Business Intelligence for the Offshore Industry

The story of the worlds well integrity standard

Introduction

Norways NORSOK-D010 standard on well integrity was well respected before the 2010

Macondo blowout in the Gulf of Mexico, but the disaster prompted a wide-ranging review in

order to absorb the lessons learned and further advance safety. Terje Lkke-Srensen, well

engineering manager at Add Energy, led the group of 16 experts who compiled the fourth

revision and here he describes how it came about, whats new about it, and why he believes

D-010 is becoming a de facto international standard

Ever felt frustration when youre traveling and your phone charger wont fit the socket? It

prompts us to ask, how can something so basic not be the same in all countries? Isnt it merely

a matter of agreeing to make the change and setting the time? And if an electrical socket cant

be standardized internationally, what hope is there for something as complex as an oil and gas

well?

Not much, you might think. But the latest revision of Norways NORSOK-D010 standard on well

integrity gathered so much international feedback and is generating so much interest around

the world that I believe a common, sensible approach is now closer than ever.

But first, a bit of background.

In 1993 the oil industry in Norway developed an initiative called NORSOK with the aim to

increase Norways competitiveness in delivering field solutions. Out of this initiative a number of

standards were developed to make deliveries and operations more cost ecient through

standardization, under the stewardship of OLF (now Norsk Olje og Gass).

This was also driven by the fact that the NPD (now PSA) had changed their regulations in 1992

from being prescriptive, as in, you must survey the borehole every 100m, to being more

functional and outcome-based, as in you should know where the borehole is at all times. It

gave operators more leeway to establish their own specifications, and at the same time less

room to hide in the letter of the law. The D-010 Drilling and Well operations standard, with its

focus on how to conduct operations and what type of equipment should be used, arose out of

this approach. The requirements were a mixture of functional and prescriptive, and focused

primarily on drilling, completion and abandonment activities.

The NPD regulators were smart they made selective parts of international standards (ACME,

API) and the NORSOK standards as recommended ways of complying with the regulations:

in order to comply with the regulations, the 5.1.2 in NORSKOK D-010 should be used.

Operators did not have to follow D-010 but, if they didnt, the burden of proof fell on them to

demonstrate that their own approach fulfilled the requirements. It gave the industry both the

responsibility to justify their methods in fine detail, and a way of doing it. It also made it more

dicult for the industry to complain about regulations being out of date.

The 2000s: D-010 becomes the well integrity standard

In 2003 revision number three of D-010 (Rev. 3) was released. In this revision D-010 was

significantly changed and expanded to focus on well integrity in planning and execution of all

drilling and operations throughout the lifecycle of the well. Over 50% of the previous revision

was removed, while a lot of new material was added a total of 167 pages. The phrase well

integrity was defined and got its own listing in Wikipedia. The revision was undertaken by

experts from operating companies both Norwegian and international, and the new D-010 was

unique in addressing well integrity in all conventional types of operations: drilling, testing,

completion, wireline/coiled tubing/snubbing, as well as including underbalanced drilling,

production and pumping operations, before terminating the well by plugging and

abandonment.

Also unique about the new D-010 was its extensive use of well barrier schematics (WBS) to

illustrate the well barriers to put in place for a specific operation. Norsk Hydro had been using

this technique since the release of the 1992 drilling regulations, stating that well barriers should

be defined, accepted and monitored. Norsk Hydro generously made their WBS library available

to the editors of Rev. 3, resulting in the inclusion of many drawings. To supplement the WBS, a

library of 50 detailed descriptions of well barrier elements the essential building blocks of an

eective well barrier were developed.

The illustration is a WBS the blue line shows the (primary) well barrier that prevents inflow of

formation fluids (oil/gas/water) into the wellbore. If any element of this should fail, the red line

shows the elements in the secondary barrier. In an ideal world these barriers should be

completely independent in the case below they are not as they share the casing (element no.

2).

Rev. 3 quickly gained recognition among operators and regulators in Norway. It was regarded as

a very useful basis on which operators could develop their own approach to well integrity and it

intensified industry focus on well integrity as both goal and discipline. It helped that it was freely

available on Standard Norges website, like the rest of the NORSOK standards. It also gained

international recognition as global firms exported it to other regions, there being no

comparable standards anywhere else.

Macondo triggers a new revision

The Macondo blow-out in the Gulf of Mexico in 2010 challenged authorities in various

jurisdictions and the industry at large to examine regulations and practices to see what more

could be done to prevent large accidents. Many reports were published worldwide, amongst

them was Norsk Olje og Gasss 2011 Macondo lessons-learned report, which contained some

very specific and useful recommendations for updating the D-010 standard.

Again, with wide voluntary support of the industry a task force was established and work on Rev.

4 began later in 2011. More than 2,300 submissions from 35 companies were received and

processed.

The new revision was finally published in June 2013. Rev. 4 provides more information,

particularly regarding plugging and abandonment. It includes managed pressure drilling, which

was not included in Rev. 3. It has more on relief well plans and requirements for capping

equipment. It identifies nine additional well barrier elements to provide a fuller complement of

barrier management building blocks.

For example, the illustration below shows how permanent well barrier cement could be put in

place by removal of poorly cemented casing by section milling.

Reaction to Rev. 4 has been muted so far, which I believe it can be explained partially by the

fact that the regulations in Norway still refer to Rev. 3, and partially by the fact that the latest

revision resulted from extensive consultation with industry and captures current best practice,

meaning there are few surprises.

However, operators should be ready because Rev. 4 does include more robust safety

enhancements that will require greater thoroughness and will likely drive costs up. For instance,

there is the requirement that you should be able to kill a well by drilling one relief well, not two

or three, which will have an impact on well design.

For those of us involved in drafting the revision it is gratifying to see how Norsok-D010 is

becoming something of an international standard. Major operators like Shell and BP engaged

with the consultation process, oering feedback from their global organizations. We also had

comments from many countries around the world. Australia is particularly keen to use

Norsok-D010. A colleague and I recently gave a two-day course on the standard there, which

was attended by multiple operators.

I was asked recently if I think D-010 is a world-leading standard for well integrity and, while I am

biased, its true to say that I have not found any other standard that covers so much as D-010.

Others around the world tend to cover only parts of a wells lifecycle, whereas D-010 covers the

whole lifecycle.

Its designed to be easy to use and straight to the point. For instance, I use it as a checklist to

scrutinize clients drilling schedules, and I see a lot of operators in Norway take sections of text

straight out D-010 to incorporate into their management systems. I can also see situations

where personnel on the rig fall under time pressure from shore to get the job done and here

the standard supports them in insisting on no shortcuts, which is essential for well integrity.

One may reflect on why it took close to two years to produce Rev. 4, but that discussion best

reserved for another time.

A wise man said: A standard is worth nothing unless it is referred to. This is especially true

for NORSOK D-010.

www.decomworld.com/well-integrity

Business Intelligence for the Offshore Industry

The story of the worlds well integrity standard

Introduction

Norways NORSOK-D010 standard on well integrity was well respected before the 2010

Macondo blowout in the Gulf of Mexico, but the disaster prompted a wide-ranging review in

order to absorb the lessons learned and further advance safety. Terje Lkke-Srensen, well

engineering manager at Add Energy, led the group of 16 experts who compiled the fourth

revision and here he describes how it came about, whats new about it, and why he believes

D-010 is becoming a de facto international standard

Ever felt frustration when youre traveling and your phone charger wont fit the socket? It

prompts us to ask, how can something so basic not be the same in all countries? Isnt it merely

a matter of agreeing to make the change and setting the time? And if an electrical socket cant

be standardized internationally, what hope is there for something as complex as an oil and gas

well?

Not much, you might think. But the latest revision of Norways NORSOK-D010 standard on well

integrity gathered so much international feedback and is generating so much interest around

the world that I believe a common, sensible approach is now closer than ever.

But first, a bit of background.

In 1993 the oil industry in Norway developed an initiative called NORSOK with the aim to

increase Norways competitiveness in delivering field solutions. Out of this initiative a number of

standards were developed to make deliveries and operations more cost ecient through

standardization, under the stewardship of OLF (now Norsk Olje og Gass).

This was also driven by the fact that the NPD (now PSA) had changed their regulations in 1992

from being prescriptive, as in, you must survey the borehole every 100m, to being more

functional and outcome-based, as in you should know where the borehole is at all times. It

gave operators more leeway to establish their own specifications, and at the same time less

room to hide in the letter of the law. The D-010 Drilling and Well operations standard, with its

focus on how to conduct operations and what type of equipment should be used, arose out of

this approach. The requirements were a mixture of functional and prescriptive, and focused

primarily on drilling, completion and abandonment activities.

The NPD regulators were smart they made selective parts of international standards (ACME,

API) and the NORSOK standards as recommended ways of complying with the regulations:

in order to comply with the regulations, the 5.1.2 in NORSKOK D-010 should be used.

Operators did not have to follow D-010 but, if they didnt, the burden of proof fell on them to

demonstrate that their own approach fulfilled the requirements. It gave the industry both the

responsibility to justify their methods in fine detail, and a way of doing it. It also made it more

dicult for the industry to complain about regulations being out of date.

The 2000s: D-010 becomes the well integrity standard

In 2003 revision number three of D-010 (Rev. 3) was released. In this revision D-010 was

significantly changed and expanded to focus on well integrity in planning and execution of all

drilling and operations throughout the lifecycle of the well. Over 50% of the previous revision

was removed, while a lot of new material was added a total of 167 pages. The phrase well

integrity was defined and got its own listing in Wikipedia. The revision was undertaken by

experts from operating companies both Norwegian and international, and the new D-010 was

unique in addressing well integrity in all conventional types of operations: drilling, testing,

completion, wireline/coiled tubing/snubbing, as well as including underbalanced drilling,

production and pumping operations, before terminating the well by plugging and

abandonment.

Also unique about the new D-010 was its extensive use of well barrier schematics (WBS) to

illustrate the well barriers to put in place for a specific operation. Norsk Hydro had been using

this technique since the release of the 1992 drilling regulations, stating that well barriers should

be defined, accepted and monitored. Norsk Hydro generously made their WBS library available

to the editors of Rev. 3, resulting in the inclusion of many drawings. To supplement the WBS, a

library of 50 detailed descriptions of well barrier elements the essential building blocks of an

eective well barrier were developed.

The illustration is a WBS the blue line shows the (primary) well barrier that prevents inflow of

formation fluids (oil/gas/water) into the wellbore. If any element of this should fail, the red line

shows the elements in the secondary barrier. In an ideal world these barriers should be

completely independent in the case below they are not as they share the casing (element no.

2).

Rev. 3 quickly gained recognition among operators and regulators in Norway. It was regarded as

a very useful basis on which operators could develop their own approach to well integrity and it

intensified industry focus on well integrity as both goal and discipline. It helped that it was freely

available on Standard Norges website, like the rest of the NORSOK standards. It also gained

international recognition as global firms exported it to other regions, there being no

comparable standards anywhere else.

Macondo triggers a new revision

The Macondo blow-out in the Gulf of Mexico in 2010 challenged authorities in various

jurisdictions and the industry at large to examine regulations and practices to see what more

could be done to prevent large accidents. Many reports were published worldwide, amongst

them was Norsk Olje og Gasss 2011 Macondo lessons-learned report, which contained some

very specific and useful recommendations for updating the D-010 standard.

Again, with wide voluntary support of the industry a task force was established and work on Rev.

4 began later in 2011. More than 2,300 submissions from 35 companies were received and

processed.

The new revision was finally published in June 2013. Rev. 4 provides more information,

particularly regarding plugging and abandonment. It includes managed pressure drilling, which

was not included in Rev. 3. It has more on relief well plans and requirements for capping

equipment. It identifies nine additional well barrier elements to provide a fuller complement of

barrier management building blocks.

For example, the illustration below shows how permanent well barrier cement could be put in

place by removal of poorly cemented casing by section milling.

Reaction to Rev. 4 has been muted so far, which I believe it can be explained partially by the

fact that the regulations in Norway still refer to Rev. 3, and partially by the fact that the latest

revision resulted from extensive consultation with industry and captures current best practice,

meaning there are few surprises.

However, operators should be ready because Rev. 4 does include more robust safety

enhancements that will require greater thoroughness and will likely drive costs up. For instance,

there is the requirement that you should be able to kill a well by drilling one relief well, not two

or three, which will have an impact on well design.

For those of us involved in drafting the revision it is gratifying to see how Norsok-D010 is

becoming something of an international standard. Major operators like Shell and BP engaged

with the consultation process, oering feedback from their global organizations. We also had

comments from many countries around the world. Australia is particularly keen to use

Norsok-D010. A colleague and I recently gave a two-day course on the standard there, which

was attended by multiple operators.

I was asked recently if I think D-010 is a world-leading standard for well integrity and, while I am

biased, its true to say that I have not found any other standard that covers so much as D-010.

Others around the world tend to cover only parts of a wells lifecycle, whereas D-010 covers the

whole lifecycle.

Its designed to be easy to use and straight to the point. For instance, I use it as a checklist to

scrutinize clients drilling schedules, and I see a lot of operators in Norway take sections of text

straight out D-010 to incorporate into their management systems. I can also see situations

where personnel on the rig fall under time pressure from shore to get the job done and here

the standard supports them in insisting on no shortcuts, which is essential for well integrity.

One may reflect on why it took close to two years to produce Rev. 4, but that discussion best

reserved for another time.

A wise man said: A standard is worth nothing unless it is referred to. This is especially true

for NORSOK D-010.

Operators should be ready because Revision 4 does include more

robust safety enhancements that will require greater thoroughness

and will likely drive costs up.

www.decomworld.com/well-integrity

Business Intelligence for the Offshore Industry

The story of the worlds well integrity standard

Introduction

Norways NORSOK-D010 standard on well integrity was well respected before the 2010

Macondo blowout in the Gulf of Mexico, but the disaster prompted a wide-ranging review in

order to absorb the lessons learned and further advance safety. Terje Lkke-Srensen, well

engineering manager at Add Energy, led the group of 16 experts who compiled the fourth

revision and here he describes how it came about, whats new about it, and why he believes

D-010 is becoming a de facto international standard

Ever felt frustration when youre traveling and your phone charger wont fit the socket? It

prompts us to ask, how can something so basic not be the same in all countries? Isnt it merely

a matter of agreeing to make the change and setting the time? And if an electrical socket cant

be standardized internationally, what hope is there for something as complex as an oil and gas

well?

Not much, you might think. But the latest revision of Norways NORSOK-D010 standard on well

integrity gathered so much international feedback and is generating so much interest around

the world that I believe a common, sensible approach is now closer than ever.

But first, a bit of background.

In 1993 the oil industry in Norway developed an initiative called NORSOK with the aim to

increase Norways competitiveness in delivering field solutions. Out of this initiative a number of

standards were developed to make deliveries and operations more cost ecient through

standardization, under the stewardship of OLF (now Norsk Olje og Gass).

This was also driven by the fact that the NPD (now PSA) had changed their regulations in 1992

from being prescriptive, as in, you must survey the borehole every 100m, to being more

functional and outcome-based, as in you should know where the borehole is at all times. It

gave operators more leeway to establish their own specifications, and at the same time less

room to hide in the letter of the law. The D-010 Drilling and Well operations standard, with its

focus on how to conduct operations and what type of equipment should be used, arose out of

this approach. The requirements were a mixture of functional and prescriptive, and focused

primarily on drilling, completion and abandonment activities.

The NPD regulators were smart they made selective parts of international standards (ACME,

API) and the NORSOK standards as recommended ways of complying with the regulations:

in order to comply with the regulations, the 5.1.2 in NORSKOK D-010 should be used.

Operators did not have to follow D-010 but, if they didnt, the burden of proof fell on them to

demonstrate that their own approach fulfilled the requirements. It gave the industry both the

responsibility to justify their methods in fine detail, and a way of doing it. It also made it more

dicult for the industry to complain about regulations being out of date.

The 2000s: D-010 becomes the well integrity standard

In 2003 revision number three of D-010 (Rev. 3) was released. In this revision D-010 was

significantly changed and expanded to focus on well integrity in planning and execution of all

drilling and operations throughout the lifecycle of the well. Over 50% of the previous revision

was removed, while a lot of new material was added a total of 167 pages. The phrase well

integrity was defined and got its own listing in Wikipedia. The revision was undertaken by

experts from operating companies both Norwegian and international, and the new D-010 was

unique in addressing well integrity in all conventional types of operations: drilling, testing,

completion, wireline/coiled tubing/snubbing, as well as including underbalanced drilling,

production and pumping operations, before terminating the well by plugging and

abandonment.

Also unique about the new D-010 was its extensive use of well barrier schematics (WBS) to

illustrate the well barriers to put in place for a specific operation. Norsk Hydro had been using

this technique since the release of the 1992 drilling regulations, stating that well barriers should

be defined, accepted and monitored. Norsk Hydro generously made their WBS library available

to the editors of Rev. 3, resulting in the inclusion of many drawings. To supplement the WBS, a

library of 50 detailed descriptions of well barrier elements the essential building blocks of an

eective well barrier were developed.

The illustration is a WBS the blue line shows the (primary) well barrier that prevents inflow of

formation fluids (oil/gas/water) into the wellbore. If any element of this should fail, the red line

shows the elements in the secondary barrier. In an ideal world these barriers should be

completely independent in the case below they are not as they share the casing (element no.

2).

Rev. 3 quickly gained recognition among operators and regulators in Norway. It was regarded as

a very useful basis on which operators could develop their own approach to well integrity and it

intensified industry focus on well integrity as both goal and discipline. It helped that it was freely

available on Standard Norges website, like the rest of the NORSOK standards. It also gained

international recognition as global firms exported it to other regions, there being no

comparable standards anywhere else.

Macondo triggers a new revision

The Macondo blow-out in the Gulf of Mexico in 2010 challenged authorities in various

jurisdictions and the industry at large to examine regulations and practices to see what more

could be done to prevent large accidents. Many reports were published worldwide, amongst

them was Norsk Olje og Gasss 2011 Macondo lessons-learned report, which contained some

very specific and useful recommendations for updating the D-010 standard.

Again, with wide voluntary support of the industry a task force was established and work on Rev.

4 began later in 2011. More than 2,300 submissions from 35 companies were received and

processed.

The new revision was finally published in June 2013. Rev. 4 provides more information,

particularly regarding plugging and abandonment. It includes managed pressure drilling, which

was not included in Rev. 3. It has more on relief well plans and requirements for capping

equipment. It identifies nine additional well barrier elements to provide a fuller complement of

barrier management building blocks.

For example, the illustration below shows how permanent well barrier cement could be put in

place by removal of poorly cemented casing by section milling.

Reaction to Rev. 4 has been muted so far, which I believe it can be explained partially by the

fact that the regulations in Norway still refer to Rev. 3, and partially by the fact that the latest

revision resulted from extensive consultation with industry and captures current best practice,

meaning there are few surprises.

However, operators should be ready because Rev. 4 does include more robust safety

enhancements that will require greater thoroughness and will likely drive costs up. For instance,

there is the requirement that you should be able to kill a well by drilling one relief well, not two

or three, which will have an impact on well design.

For those of us involved in drafting the revision it is gratifying to see how Norsok-D010 is

becoming something of an international standard. Major operators like Shell and BP engaged

with the consultation process, oering feedback from their global organizations. We also had

comments from many countries around the world. Australia is particularly keen to use

Norsok-D010. A colleague and I recently gave a two-day course on the standard there, which

was attended by multiple operators.

I was asked recently if I think D-010 is a world-leading standard for well integrity and, while I am

biased, its true to say that I have not found any other standard that covers so much as D-010.

Others around the world tend to cover only parts of a wells lifecycle, whereas D-010 covers the

whole lifecycle.

Its designed to be easy to use and straight to the point. For instance, I use it as a checklist to

scrutinize clients drilling schedules, and I see a lot of operators in Norway take sections of text

straight out D-010 to incorporate into their management systems. I can also see situations

where personnel on the rig fall under time pressure from shore to get the job done and here

the standard supports them in insisting on no shortcuts, which is essential for well integrity.

One may reflect on why it took close to two years to produce Rev. 4, but that discussion best

reserved for another time.

A wise man said: A standard is worth nothing unless it is referred to. This is especially true

for NORSOK D-010.

www.decomworld.com/well-integrity

Business Intelligence for the Offshore Industry

The story of the worlds well integrity standard

Introduction

Norways NORSOK-D010 standard on well integrity was well respected before the 2010

Macondo blowout in the Gulf of Mexico, but the disaster prompted a wide-ranging review in

order to absorb the lessons learned and further advance safety. Terje Lkke-Srensen, well

engineering manager at Add Energy, led the group of 16 experts who compiled the fourth

revision and here he describes how it came about, whats new about it, and why he believes

D-010 is becoming a de facto international standard

Ever felt frustration when youre traveling and your phone charger wont fit the socket? It

prompts us to ask, how can something so basic not be the same in all countries? Isnt it merely

a matter of agreeing to make the change and setting the time? And if an electrical socket cant

be standardized internationally, what hope is there for something as complex as an oil and gas

well?

Not much, you might think. But the latest revision of Norways NORSOK-D010 standard on well

integrity gathered so much international feedback and is generating so much interest around

the world that I believe a common, sensible approach is now closer than ever.

But first, a bit of background.

In 1993 the oil industry in Norway developed an initiative called NORSOK with the aim to

increase Norways competitiveness in delivering field solutions. Out of this initiative a number of

standards were developed to make deliveries and operations more cost ecient through

standardization, under the stewardship of OLF (now Norsk Olje og Gass).

This was also driven by the fact that the NPD (now PSA) had changed their regulations in 1992

from being prescriptive, as in, you must survey the borehole every 100m, to being more

functional and outcome-based, as in you should know where the borehole is at all times. It

gave operators more leeway to establish their own specifications, and at the same time less

room to hide in the letter of the law. The D-010 Drilling and Well operations standard, with its

focus on how to conduct operations and what type of equipment should be used, arose out of

this approach. The requirements were a mixture of functional and prescriptive, and focused

primarily on drilling, completion and abandonment activities.

The NPD regulators were smart they made selective parts of international standards (ACME,

API) and the NORSOK standards as recommended ways of complying with the regulations:

in order to comply with the regulations, the 5.1.2 in NORSKOK D-010 should be used.

Operators did not have to follow D-010 but, if they didnt, the burden of proof fell on them to

demonstrate that their own approach fulfilled the requirements. It gave the industry both the

responsibility to justify their methods in fine detail, and a way of doing it. It also made it more

dicult for the industry to complain about regulations being out of date.

The 2000s: D-010 becomes the well integrity standard

In 2003 revision number three of D-010 (Rev. 3) was released. In this revision D-010 was

significantly changed and expanded to focus on well integrity in planning and execution of all

drilling and operations throughout the lifecycle of the well. Over 50% of the previous revision

was removed, while a lot of new material was added a total of 167 pages. The phrase well

integrity was defined and got its own listing in Wikipedia. The revision was undertaken by

experts from operating companies both Norwegian and international, and the new D-010 was

unique in addressing well integrity in all conventional types of operations: drilling, testing,

completion, wireline/coiled tubing/snubbing, as well as including underbalanced drilling,

production and pumping operations, before terminating the well by plugging and

abandonment.

Also unique about the new D-010 was its extensive use of well barrier schematics (WBS) to

illustrate the well barriers to put in place for a specific operation. Norsk Hydro had been using

this technique since the release of the 1992 drilling regulations, stating that well barriers should

be defined, accepted and monitored. Norsk Hydro generously made their WBS library available

to the editors of Rev. 3, resulting in the inclusion of many drawings. To supplement the WBS, a

library of 50 detailed descriptions of well barrier elements the essential building blocks of an

eective well barrier were developed.

The illustration is a WBS the blue line shows the (primary) well barrier that prevents inflow of

formation fluids (oil/gas/water) into the wellbore. If any element of this should fail, the red line

shows the elements in the secondary barrier. In an ideal world these barriers should be

completely independent in the case below they are not as they share the casing (element no.

2).

Rev. 3 quickly gained recognition among operators and regulators in Norway. It was regarded as

a very useful basis on which operators could develop their own approach to well integrity and it

intensified industry focus on well integrity as both goal and discipline. It helped that it was freely

available on Standard Norges website, like the rest of the NORSOK standards. It also gained

international recognition as global firms exported it to other regions, there being no

comparable standards anywhere else.

Macondo triggers a new revision

The Macondo blow-out in the Gulf of Mexico in 2010 challenged authorities in various

jurisdictions and the industry at large to examine regulations and practices to see what more

could be done to prevent large accidents. Many reports were published worldwide, amongst

them was Norsk Olje og Gasss 2011 Macondo lessons-learned report, which contained some

very specific and useful recommendations for updating the D-010 standard.

Again, with wide voluntary support of the industry a task force was established and work on Rev.

4 began later in 2011. More than 2,300 submissions from 35 companies were received and

processed.

The new revision was finally published in June 2013. Rev. 4 provides more information,

particularly regarding plugging and abandonment. It includes managed pressure drilling, which

was not included in Rev. 3. It has more on relief well plans and requirements for capping

equipment. It identifies nine additional well barrier elements to provide a fuller complement of

barrier management building blocks.

For example, the illustration below shows how permanent well barrier cement could be put in

place by removal of poorly cemented casing by section milling.

Reaction to Rev. 4 has been muted so far, which I believe it can be explained partially by the

fact that the regulations in Norway still refer to Rev. 3, and partially by the fact that the latest

revision resulted from extensive consultation with industry and captures current best practice,

meaning there are few surprises.

However, operators should be ready because Rev. 4 does include more robust safety

enhancements that will require greater thoroughness and will likely drive costs up. For instance,

there is the requirement that you should be able to kill a well by drilling one relief well, not two

or three, which will have an impact on well design.

For those of us involved in drafting the revision it is gratifying to see how Norsok-D010 is

becoming something of an international standard. Major operators like Shell and BP engaged

with the consultation process, oering feedback from their global organizations. We also had

comments from many countries around the world. Australia is particularly keen to use

Norsok-D010. A colleague and I recently gave a two-day course on the standard there, which

was attended by multiple operators.

I was asked recently if I think D-010 is a world-leading standard for well integrity and, while I am

biased, its true to say that I have not found any other standard that covers so much as D-010.

Others around the world tend to cover only parts of a wells lifecycle, whereas D-010 covers the

whole lifecycle.

Its designed to be easy to use and straight to the point. For instance, I use it as a checklist to

scrutinize clients drilling schedules, and I see a lot of operators in Norway take sections of text

straight out D-010 to incorporate into their management systems. I can also see situations

where personnel on the rig fall under time pressure from shore to get the job done and here

the standard supports them in insisting on no shortcuts, which is essential for well integrity.

One may reflect on why it took close to two years to produce Rev. 4, but that discussion best

reserved for another time.

A wise man said: A standard is worth nothing unless it is referred to. This is especially true

for NORSOK D-010.

www.decomworld.com/well-integrity

Business Intelligence for the Offshore Industry

The story of the worlds well integrity standard

Introduction

Norways NORSOK-D010 standard on well integrity was well respected before the 2010

Macondo blowout in the Gulf of Mexico, but the disaster prompted a wide-ranging review in

order to absorb the lessons learned and further advance safety. Terje Lkke-Srensen, well

engineering manager at Add Energy, led the group of 16 experts who compiled the fourth

revision and here he describes how it came about, whats new about it, and why he believes

D-010 is becoming a de facto international standard

Ever felt frustration when youre traveling and your phone charger wont fit the socket? It

prompts us to ask, how can something so basic not be the same in all countries? Isnt it merely

a matter of agreeing to make the change and setting the time? And if an electrical socket cant

be standardized internationally, what hope is there for something as complex as an oil and gas

well?

Not much, you might think. But the latest revision of Norways NORSOK-D010 standard on well

integrity gathered so much international feedback and is generating so much interest around

the world that I believe a common, sensible approach is now closer than ever.

But first, a bit of background.

In 1993 the oil industry in Norway developed an initiative called NORSOK with the aim to

increase Norways competitiveness in delivering field solutions. Out of this initiative a number of

standards were developed to make deliveries and operations more cost ecient through

standardization, under the stewardship of OLF (now Norsk Olje og Gass).

This was also driven by the fact that the NPD (now PSA) had changed their regulations in 1992

from being prescriptive, as in, you must survey the borehole every 100m, to being more

functional and outcome-based, as in you should know where the borehole is at all times. It

gave operators more leeway to establish their own specifications, and at the same time less

room to hide in the letter of the law. The D-010 Drilling and Well operations standard, with its

focus on how to conduct operations and what type of equipment should be used, arose out of

this approach. The requirements were a mixture of functional and prescriptive, and focused

primarily on drilling, completion and abandonment activities.

The NPD regulators were smart they made selective parts of international standards (ACME,

API) and the NORSOK standards as recommended ways of complying with the regulations:

in order to comply with the regulations, the 5.1.2 in NORSKOK D-010 should be used.

Operators did not have to follow D-010 but, if they didnt, the burden of proof fell on them to

demonstrate that their own approach fulfilled the requirements. It gave the industry both the

responsibility to justify their methods in fine detail, and a way of doing it. It also made it more

dicult for the industry to complain about regulations being out of date.

The 2000s: D-010 becomes the well integrity standard

In 2003 revision number three of D-010 (Rev. 3) was released. In this revision D-010 was

significantly changed and expanded to focus on well integrity in planning and execution of all

drilling and operations throughout the lifecycle of the well. Over 50% of the previous revision

was removed, while a lot of new material was added a total of 167 pages. The phrase well

integrity was defined and got its own listing in Wikipedia. The revision was undertaken by

experts from operating companies both Norwegian and international, and the new D-010 was

unique in addressing well integrity in all conventional types of operations: drilling, testing,

completion, wireline/coiled tubing/snubbing, as well as including underbalanced drilling,

production and pumping operations, before terminating the well by plugging and

abandonment.

Also unique about the new D-010 was its extensive use of well barrier schematics (WBS) to

illustrate the well barriers to put in place for a specific operation. Norsk Hydro had been using

this technique since the release of the 1992 drilling regulations, stating that well barriers should

be defined, accepted and monitored. Norsk Hydro generously made their WBS library available

to the editors of Rev. 3, resulting in the inclusion of many drawings. To supplement the WBS, a

library of 50 detailed descriptions of well barrier elements the essential building blocks of an

eective well barrier were developed.

The illustration is a WBS the blue line shows the (primary) well barrier that prevents inflow of

formation fluids (oil/gas/water) into the wellbore. If any element of this should fail, the red line

shows the elements in the secondary barrier. In an ideal world these barriers should be

completely independent in the case below they are not as they share the casing (element no.

2).

Rev. 3 quickly gained recognition among operators and regulators in Norway. It was regarded as

a very useful basis on which operators could develop their own approach to well integrity and it

intensified industry focus on well integrity as both goal and discipline. It helped that it was freely

available on Standard Norges website, like the rest of the NORSOK standards. It also gained

international recognition as global firms exported it to other regions, there being no

comparable standards anywhere else.

Macondo triggers a new revision

The Macondo blow-out in the Gulf of Mexico in 2010 challenged authorities in various

jurisdictions and the industry at large to examine regulations and practices to see what more

could be done to prevent large accidents. Many reports were published worldwide, amongst

them was Norsk Olje og Gasss 2011 Macondo lessons-learned report, which contained some

very specific and useful recommendations for updating the D-010 standard.

Again, with wide voluntary support of the industry a task force was established and work on Rev.

4 began later in 2011. More than 2,300 submissions from 35 companies were received and

processed.

The new revision was finally published in June 2013. Rev. 4 provides more information,

particularly regarding plugging and abandonment. It includes managed pressure drilling, which

was not included in Rev. 3. It has more on relief well plans and requirements for capping

equipment. It identifies nine additional well barrier elements to provide a fuller complement of

barrier management building blocks.

For example, the illustration below shows how permanent well barrier cement could be put in

place by removal of poorly cemented casing by section milling.

Reaction to Rev. 4 has been muted so far, which I believe it can be explained partially by the

fact that the regulations in Norway still refer to Rev. 3, and partially by the fact that the latest

revision resulted from extensive consultation with industry and captures current best practice,

meaning there are few surprises.

However, operators should be ready because Rev. 4 does include more robust safety

enhancements that will require greater thoroughness and will likely drive costs up. For instance,

there is the requirement that you should be able to kill a well by drilling one relief well, not two

or three, which will have an impact on well design.

For those of us involved in drafting the revision it is gratifying to see how Norsok-D010 is

becoming something of an international standard. Major operators like Shell and BP engaged

with the consultation process, oering feedback from their global organizations. We also had

comments from many countries around the world. Australia is particularly keen to use

Norsok-D010. A colleague and I recently gave a two-day course on the standard there, which

was attended by multiple operators.

I was asked recently if I think D-010 is a world-leading standard for well integrity and, while I am

biased, its true to say that I have not found any other standard that covers so much as D-010.

Others around the world tend to cover only parts of a wells lifecycle, whereas D-010 covers the

whole lifecycle.

Its designed to be easy to use and straight to the point. For instance, I use it as a checklist to

scrutinize clients drilling schedules, and I see a lot of operators in Norway take sections of text

straight out D-010 to incorporate into their management systems. I can also see situations

where personnel on the rig fall under time pressure from shore to get the job done and here

the standard supports them in insisting on no shortcuts, which is essential for well integrity.

One may reflect on why it took close to two years to produce Rev. 4, but that discussion best

reserved for another time.

A wise man said: A standard is worth nothing unless it is referred to. This is especially true

for NORSOK D-010.

www.decomworld.com/well-integrity

Business Intelligence for the Offshore Industry

The story of the worlds well integrity standard

Introduction

Norways NORSOK-D010 standard on well integrity was well respected before the 2010

Macondo blowout in the Gulf of Mexico, but the disaster prompted a wide-ranging review in

order to absorb the lessons learned and further advance safety. Terje Lkke-Srensen, well

engineering manager at Add Energy, led the group of 16 experts who compiled the fourth

revision and here he describes how it came about, whats new about it, and why he believes

D-010 is becoming a de facto international standard

Ever felt frustration when youre traveling and your phone charger wont fit the socket? It

prompts us to ask, how can something so basic not be the same in all countries? Isnt it merely

a matter of agreeing to make the change and setting the time? And if an electrical socket cant

be standardized internationally, what hope is there for something as complex as an oil and gas

well?

Not much, you might think. But the latest revision of Norways NORSOK-D010 standard on well

integrity gathered so much international feedback and is generating so much interest around

the world that I believe a common, sensible approach is now closer than ever.

But first, a bit of background.

In 1993 the oil industry in Norway developed an initiative called NORSOK with the aim to

increase Norways competitiveness in delivering field solutions. Out of this initiative a number of

standards were developed to make deliveries and operations more cost ecient through

standardization, under the stewardship of OLF (now Norsk Olje og Gass).

This was also driven by the fact that the NPD (now PSA) had changed their regulations in 1992

from being prescriptive, as in, you must survey the borehole every 100m, to being more

functional and outcome-based, as in you should know where the borehole is at all times. It

gave operators more leeway to establish their own specifications, and at the same time less

room to hide in the letter of the law. The D-010 Drilling and Well operations standard, with its

focus on how to conduct operations and what type of equipment should be used, arose out of

this approach. The requirements were a mixture of functional and prescriptive, and focused

primarily on drilling, completion and abandonment activities.

The NPD regulators were smart they made selective parts of international standards (ACME,

API) and the NORSOK standards as recommended ways of complying with the regulations:

in order to comply with the regulations, the 5.1.2 in NORSKOK D-010 should be used.

Operators did not have to follow D-010 but, if they didnt, the burden of proof fell on them to

demonstrate that their own approach fulfilled the requirements. It gave the industry both the

responsibility to justify their methods in fine detail, and a way of doing it. It also made it more

dicult for the industry to complain about regulations being out of date.

The 2000s: D-010 becomes the well integrity standard

In 2003 revision number three of D-010 (Rev. 3) was released. In this revision D-010 was

significantly changed and expanded to focus on well integrity in planning and execution of all

drilling and operations throughout the lifecycle of the well. Over 50% of the previous revision

was removed, while a lot of new material was added a total of 167 pages. The phrase well

integrity was defined and got its own listing in Wikipedia. The revision was undertaken by

experts from operating companies both Norwegian and international, and the new D-010 was

unique in addressing well integrity in all conventional types of operations: drilling, testing,

completion, wireline/coiled tubing/snubbing, as well as including underbalanced drilling,

production and pumping operations, before terminating the well by plugging and

abandonment.

Also unique about the new D-010 was its extensive use of well barrier schematics (WBS) to

illustrate the well barriers to put in place for a specific operation. Norsk Hydro had been using

this technique since the release of the 1992 drilling regulations, stating that well barriers should

be defined, accepted and monitored. Norsk Hydro generously made their WBS library available

to the editors of Rev. 3, resulting in the inclusion of many drawings. To supplement the WBS, a

library of 50 detailed descriptions of well barrier elements the essential building blocks of an

eective well barrier were developed.

The illustration is a WBS the blue line shows the (primary) well barrier that prevents inflow of

formation fluids (oil/gas/water) into the wellbore. If any element of this should fail, the red line

shows the elements in the secondary barrier. In an ideal world these barriers should be

completely independent in the case below they are not as they share the casing (element no.

2).

Rev. 3 quickly gained recognition among operators and regulators in Norway. It was regarded as

a very useful basis on which operators could develop their own approach to well integrity and it

intensified industry focus on well integrity as both goal and discipline. It helped that it was freely

available on Standard Norges website, like the rest of the NORSOK standards. It also gained

international recognition as global firms exported it to other regions, there being no

comparable standards anywhere else.

Macondo triggers a new revision

The Macondo blow-out in the Gulf of Mexico in 2010 challenged authorities in various

jurisdictions and the industry at large to examine regulations and practices to see what more

could be done to prevent large accidents. Many reports were published worldwide, amongst

them was Norsk Olje og Gasss 2011 Macondo lessons-learned report, which contained some

very specific and useful recommendations for updating the D-010 standard.

Again, with wide voluntary support of the industry a task force was established and work on Rev.

4 began later in 2011. More than 2,300 submissions from 35 companies were received and

processed.

The new revision was finally published in June 2013. Rev. 4 provides more information,

particularly regarding plugging and abandonment. It includes managed pressure drilling, which

was not included in Rev. 3. It has more on relief well plans and requirements for capping

equipment. It identifies nine additional well barrier elements to provide a fuller complement of

barrier management building blocks.

For example, the illustration below shows how permanent well barrier cement could be put in

place by removal of poorly cemented casing by section milling.

Reaction to Rev. 4 has been muted so far, which I believe it can be explained partially by the

fact that the regulations in Norway still refer to Rev. 3, and partially by the fact that the latest

revision resulted from extensive consultation with industry and captures current best practice,

meaning there are few surprises.

However, operators should be ready because Rev. 4 does include more robust safety

enhancements that will require greater thoroughness and will likely drive costs up. For instance,

there is the requirement that you should be able to kill a well by drilling one relief well, not two

or three, which will have an impact on well design.

For those of us involved in drafting the revision it is gratifying to see how Norsok-D010 is

becoming something of an international standard. Major operators like Shell and BP engaged

with the consultation process, oering feedback from their global organizations. We also had

comments from many countries around the world. Australia is particularly keen to use

Norsok-D010. A colleague and I recently gave a two-day course on the standard there, which

was attended by multiple operators.

I was asked recently if I think D-010 is a world-leading standard for well integrity and, while I am

biased, its true to say that I have not found any other standard that covers so much as D-010.

Others around the world tend to cover only parts of a wells lifecycle, whereas D-010 covers the

whole lifecycle.

Its designed to be easy to use and straight to the point. For instance, I use it as a checklist to

scrutinize clients drilling schedules, and I see a lot of operators in Norway take sections of text

straight out D-010 to incorporate into their management systems. I can also see situations

where personnel on the rig fall under time pressure from shore to get the job done and here

the standard supports them in insisting on no shortcuts, which is essential for well integrity.

One may reflect on why it took close to two years to produce Rev. 4, but that discussion best

reserved for another time.

A wise man said: A standard is worth nothing unless it is referred to. This is especially true

for NORSOK D-010.

I can see situations where personnel on the rig fall under time

pressure from shore to get the job done and here the standard

supports them in insisting on no shortcuts.

www.decomworld.com/well-integrity

Business Intelligence for the Offshore Industry

Well Integrity and abandonment discussions will be taking place at the2nd Annual Well Integrity & Abandonment Conference in Aberdeen at the Ardoe House Hotel and Spa, June 3-4 2014. The ground-breaking event brings together over 200 of the leading operators, contractors and regulators in the heart of the North Sea Oil & Gas industry. Hear exclusive Operator Case Studies from EnQuest and Tullow Oil outlining current and future challenges in well integrity and abandonment Get the latest cost-eective strategies for well abandonment projects for maximum eciency Evaluate dierent approaches to managing the integrity of wells to enhance safety and prevent shut-ins Exclusive insight into emerging technologies for cementing, data management, and integrity monitoring EXPERT SPEAKERS:

To find out how you can be part of this pivotal event in 2014 simply download the brochure online at www.decomworld.com/wi and you will receive a full up-to-date speaker line-up, event agenda and host of new features this year. Event contact: Adam Minkley, Conference Director, DecomWorld.

aminkley@decomworld.com

www.decomworld.com/well-integrity