API Standard 53. 4th Edition. November 2012

December 19, 2018 | Author: Sergio Fabian Vasicek | Category: Pipe (Fluid Conveyance), Mechanical Engineering, Nature
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API Standard 53. 4th Edition. November 2012...

Description

API Std 53 - Blowout Prevention Equipment Systems for Drilling Wells Standard

53

Edition

4th Edition, Nov. 2012

Section

4.3.6

Inquiry #

Question

53-10-17

The cost of NDE/NDT inspection of some fasteners outweigh the cost to replace with new. Since this is the case, many equipment owners and OEMs elect to replace many types of fasteners based on visual inspection or time in service instead of paying to inspect them. In the majority of cases, the OEM does not describe acceptance criteria for used fasteners.

Reply

Does it meet the intent of 4.3.6 if the type of bolt NDE identified by an equipment owner’s Yes PM program is visual and bolts are replaced based on visual appearance, torque checks and/or time in service?

Question 1: In reference to API Standard 53 requirement 4.4.3, are pressure-energized pressure-energized ring gaskets required for Surface BOP Choke Manifolds? 53

4th Edition, Nov. 2012

4.4.3

Reply 1: Yes. It has been noted that there are requirements within the standard (4.4.3 & 6.2.2.2) that are not requirements within the equipment design specifications.

53-01-16

Question 2: Is API 6A, 16A and 16C considering change to the design requirements requirements Reply 2: This question falls outside the scope of S53 and does not based on the exclusion of non-pressure energized ring gaskets in API Standard 53 4.4.3? meet the requirements for submitting a technical inquiry. inquiry. You may consider submitting your question directly to each of the task groups for the documents you reference in the question.

53

53

4th Edition, Nov. 2012

4th Edition, Nov. 2012

6.1.2.12

6.2

53-03-15

53-05-15

Referring to Section 6.1.2.12, can a surface BOP stack arrangement with one annular, one blind shear ram, and two pipe rams, with the fifth device being optional, be considered a Class 5 stack arrangement?

No; a Class 5 surface BOP stack arrangement must contain five devices at a minimum. The stack must contain one annular, one blind shear ram, two pipe rams, and the fifth device can be an annular or pipe ram.

With regards to API STD 53, I am seeking further clarification as to whether a by-pass line is required on a surface BOP choke and kill manifold. Section 6.2 which refers to the general scope of a choke and kill does not mention a by-pass line. The sizing is mentioned in considerations considerations and the by-pass lines are also indicated on the examples. But I interpret examples and considerations considerations as not mandatory. Is this correct?

 Yes, the bleed line line (line that by-passes by-passes the chokes) chokes) is optional.

53

4th Edition, Nov. 2012

6.2

53-06-15

Is this bleed line (that bypasses the chokes) a mandatory line to have on a surface choke No, the bleed line (line that by-passes the chokes) is optional. and kill manifold??? manifold???

53

4th Edition, Nov. 2012

6.2

53-07-15

Can you please please advise if a by-pass by-pass line is require require on surface choke choke and kill manifolds. manifolds.

No, the bleed line line (line that by-passes by-passes the chokes) chokes) is optional.

Minimum nominal inside diameter (ID) for lines downstream of the chokes shall be equal to or greater than the nominal connection connection size of the choke inlet and outlet.

53

4th Edition, Nov. 2012

6.2.2.4

53-02-16

Question 1: The way this is written; it is conceivable that you could could have a 4-1/16” line entering the choke & kill manifold; reducing to 3-1/16” at choke bore inlet and then maintain 3-1/16” downstream of chokes. Do you concur?

Reply 1: Yes

Reply 2: Unfortunately, Unfortunately, the question you have asked is not in a format that is acceptable for developing a response. Specifically, API only Question 2: Why is it API concern if an operator operator wants to have a 2-1/16” outlet after the addresses questions phrased in the form such that the answer is “yes” buffer tank to go to strip tank, etc? or “no”. Please review the guidance for submitting questions questions to API at: http://mycommittees.api.org/stan http://mycommittees.api.org/standards/techinterp dards/techinterp/transpipe/d /transpipe/default.asp efault.asp x

53

53

4th Edition, Nov. 2012

4th Edition, Nov. 2012

6.2.2.4

6.2.2.5

53-11-16

53-02-17

Regarding para 6.2.2.4 This paragraph states “Minimum nominal inside diameter (ID) for The lines downstream of the chokes utilized to flow well fluids during lines downstream of the chokes shall be equal to or greater than the nominal connection well control operations shall maintain the minimum nominal ID until it size of the choke inlet and outlet.” This paragraph does not state how far downstream enters the next system (mud gas separator, overboard line, etc.). the piping needs to comply with this.

Internal discussions have been held in regards to the intent of the statement "direct the flow path and to isolate a failure or malfunction of the buffer tank" with 2 different interpretations of the requirement: 1) This demands that it be a 'split buffer tank' to isolate and redirect the flow, or 2) The flow path can be redirected via an overboard, line into the MGS, split buffer tank, etc. It is not limited to just the split buffer tank option. Is the requirement a line that redirects to overboard, or the MGS (as examples) meeting  Yes. There is no requirement for a split buffer tank. the intent of the requirement, and not just requiring a split buffer chamber?

Background: A drilling contractor has a well control system with BOPs, choke and kill manifolds rated at 10,000 psi. The equipment is being used on a 5000 psi well head. The choke manifold has one remote operated drilling choke. 53

4th Edition, Nov. 2012

6.2.2.8 6.2.2.9

53-14-14

Question 1: Referencing 6.2.2.8 and 6.2.2.9, is it correct that the equipment is technically Reply 1: API 53 does not address de-rating. For the specific well de rated to 5000 psi for the wellhead? mentioned in this question, the equipment can only be tested to 5000 psi (see 6.5.3.2.6). Question 2: Is only one remote operated choke is required?

53

4th Edition, Nov. 2012

6 .2 .3. 2. 2

53 -0 2- 14

Referring to Section 6.2.3.2.2, can you please clarify further the meaning of the size range shown and your interpretation of nominal diameter?

Reply 2: Yes The intent is that the pipe ID be as close as practical to the ID of the valves.

Background: When a piece of equipment is built to an API equipment specification it complies with the specification at the time it was built. If it is repaired or remanufactured, it may be brought up to the latest edition of the equipment specification if possible. Therefore, in service equipment on a rig may not comply with all of the requirements of the latest edition of the relevant equipment specification.

53

4th Edition, Nov. 2012

6.3.1.1 7.3.1.1 7.4.1.1

53-01-13

This intepretation has been rendered invalid as a result of publication of API S53, 4th Edition, Addendum 1 in July API 53, Section 2 (Normative References), states “For undated references (no date 2016. Therefore this interpretation is included in the listing), the latest edition of the referenced document applies”. Sections withdrawn as a result of these new 6.3.1.1, 7.3.1.1, and 7.4.1.1 state “Control systems for subsea BOP stacks shall be designed, manufactured, and installed in accordance with API 16D”. API 53 also states technical changes. in various sections that you shall meet API 16D, Method A, B, or C for precharge calculations, which is calling out a specific requirement of API 16D.

The intent is that compliance with the normative references applies at Question: Do Sections 6.3.1.1, 7.3.1.1, and 7.4.1.1 require in-service control systems to the time the rig is built and/or the BOP system or components are installed. This can also be affected by a contractual agreement or always be 100% in compliance with the latest API 16D, or are these sections referring regulatoryrequirements. only to specific requirements of 16D like the precharge?

53

4th Edition, Nov. 2012

6.2.3

53-12-14

Referencing 6.2.3, there are some cases where we can't have a straight exit lines after buffer chamber at choke manifold because of the position or space to flare pits on the See 6.4.11 for vent line recommendations. rig's location. Following the recommendations that we have for choke and kill bends, can we use that for the choke manifold exit lines before buffer chamber?

53

53

4th Edition, Nov. 2012

4th Edition, Nov. 2012

6 .2 .3. 2. 2

6 .2 .3 .2 .2 .b

53 -0 9- 13

5 3- 08 -1 6

Section 6.2.3.2.2 a) advises what the minimum nominal I.D. for choke lines by pressure No; 4-inch up to, but not including 7 1/16-inch. bore equipment, is not rating only. For pressure rated systems 10K and above, is a 3 in. nominal I.D. choke line addressed in API 53 or API 16A. required for 4-inch. and 7-inch. through-bore BOP equipment? Section 7.2.2.11 states "The bleed line (if installed, the line that bypasses the chokes) shall be..." Section 6.2.3.2.2.b states "The bleed line (the line that bypasses the chokes) shall be...". It does not contain the "if installed" language, but it is sub-headed under No, the bleed line (line that by-passes the chokes) is optional (reference 6.2.3.2 Other Considerations for Choke Lines. previous interpretations 53-05-15, 53-06-15 and 53-07-15). Is a bleed line to bypass the choke lines REQUIRED on choke manifold assemblies on surface BOP installations?

53

53

53

4th Edition, Nov. 2012

4th Edition, Nov. 2012

4th Edition, Nov. 2012

6.3.5

6.3.6.1

6.3.11.2.5 7.3.13.2.5 7.4.8.2.5 7.3.13.2.5

53-12-13

53-28-16

 Yes; the intent of 6.3.5.4 and 6.3.5.5 is to conduct the test at preIs API 53, Sections 6.3.5.4 and 6.3.5.5 saying that the pumps need to be checked on the deployment, initial latch-up, and not-to-exceed six months. Any other initial test and the subsequent tests, only on the initial test, or only when the equipment testing is at the discretion of the equipment owner or other applicable owner’s PM program requires it? requirements that fall outside of API 53. e n en w as a s p a c e ou s e o e r oor . e e re nc e 3.1.25 Clarification on the wording for "rig substructure" in 6.3.6.1 and 7.3.5.14. drill floor substructure Please provide clarification in regards to the meaning of "rig substructure" when talking The foundation structure(s) on which the derrick, rotary table, about where to put the hydraulic control unit. drawworks, and other drilling equipment are supported.

This intepretation has been rendered invalid as a result of publication of API A drilling contractor has a new rig with a subsea MUX stack and subsea conventional S53, 4th Edition, Addendum 1 in July stack (for weight on older wellheads). They have stated that the drape hose are below the moonpool and that the shielding is more for wave motion than fire rating. The moon 2016. Therefore this interpretation is pool conduit lines are hard pipe. withdrawn as a result of these new Sections 6.3.11.2.5, 7.3.13.2.5, 7.4.8.2.5, and 7.3.13.2.5 are ambiguous with respect to the technical changes. requirement of fire retardant hoses. It is our understanding that the requirement in 7.3.13.2.5 takes precedence and hence the hoses should not be fire retardant. 53-03-13

The note in Std 53 indicates that the API requirement assumes that a fire in the moonpool would burn out the conduit hoses and hence trigger the deadman system if the electrical signals are also lost. For our deepwater semis however, it is not likely that the hoses are affected by a fire in the moonpool as the hoses are hanging below bottom box of the rig. There is no requirement in the API of how short time the hose should sustain a fire, and hence the design will not be a proper form of weak link design. Can you clarify if a fire retarded hose for the conduit line and hot line will fulfil the requirements in Std 53?

Keep in mind that API 16D is the specification for control systems; do not confuse the requirements of API 16D with those of API 16C (choke and kill systems). Additionally, Section 6.3.11.2.5 applies only to surface BOP’s. The intent in API 53 is to provide a weak link between the control system and the BOP because the fire retardant properties would be counter to the intended purpose of the emergency system. Since there are many vessel designs in operation it is not practical to have a different option for each. Sections 7.3.18 and 7.3.19 require floating rigs to have an autoshear and deadman respectively, therefore should be interpreted as: “Rigid conduit and hot line supply hoses between the control system and the BOP shall NOT be fire retardant”.

A drilling contractor has a new rig with a subsea MUX stack and subsea conventional stack (for weight on older wellheads). They have stated that the drape hose are below the moonpool and that the shielding is more for wave motion than fire rating. The moon pool conduit lines are hard pipe.

53

53

4th Edition, Nov. 2012

4th Edition, Nov. 2012

6.3.11.2.5 7.3.13.2.5 7.4.8.2.5 7.3.13.2.5

6.3.8

53-03-13

53-16-14

Section 6.3.11.2.5 applies only to surface BOP’s. Sections 6.3.11.2.5, 7.3.13.2.5, 7.4.8.2.5, and 7.3.13.2.5 are ambiguous with respect to the requirement of fire retardant hoses. It is our understanding that the requirement in API 53 is making the fire retardant requirement of API 16D not required 7.3.13.2.5 takes precedence and hence the hoses should not be fire retardant. for the control lines and hot line supply between the control system and BOP. The intent is to provide a weak link between the control The note in Std 53 indicates that the API requirement assumes that a fire in the system and the BOP because the fire retardant properties would be moonpool would burn out the conduit hoses and hence trigger the deadman system if counter to the intended purpose of the emergency system. Since there the electrical signals are also lost. For our deepwater semis however, it is not likely that are many vessel designs in operation it is not practical to have a the hoses are affected by a fire in the moonpool as the hoses are hanging below bottom different option for each. box of the rig. There is no requirement in the API of how short time the hose should sustain a fire, and hence the design will not be a proper form of weak link design. Can you clarify if a fire retarded hose for the conduit line and hot line will fulfil the requirements in Std 53?

This intepretation has been rendered invalid as a result of publication of API S53, 4th Edition, Addendum 1 in July In reference to 6.3.8 on response time and 7.6.5.1.1 on function tests, if a system includes a high pressure shear circuit (used for emergencies) and a regulated shear 2016. Therefore this interpretation is circuit, which circuit should be used to determine if closing times are met, the high pressure shear circuit that would be used in a well control event, or, the regulated circuit withdrawn as a result of these new with lower pressure? technical changes. Response times shall be met by at least one of the surface/subsea power circuits. See 6.3.8.4, 7.3.10.4, and 7.4.6.5.4.

53

53

4th Edition, Nov. 2012

4th Edition, Nov. 2012

6.3.8

6 .5 .2. 2. 1

53-16-14

53 -0 3- 16

In reference to 6.3.8 on response time and 7.6.5.1.1 on function tests, if a system includes a high pressure shear circuit (used for emergencies) and a regulated shear Response times shall be met by at least one of the surface/subsea fluid circuit, which circuit should be used to determine if closing times are met, the high supplies. See 6.3.8.4, 7.3.10.4, and 7.4.6.5.4. pressure shear circuit that would be used in a well control event, or, the regulated circuit with lower pressure? On page 33 of the standard under 6.5.2.2.1 is stated "Inspection practices and procedures vary and are outside the scope of this document." Question 1: Does API have a document that states the frequency of inspections performed?

Reply 1: Yes, API Standard 53 discusses frequency of inspections, but not the practices and procedures. For surface BOP systems see Section 6.5.7.

Question 2: Or a document that goes in depth as to what level of service is required for Reply 2: No. Onshore BOPs?

53

4th Edition, Nov. 2012

6.5.3

53-01-14

Referring to Table 2 and Table 3 in 6.5.3, do the terms "upstream and downstream" mean Section 6.5.3.2.13 requires valves that are required to seal against flow that the pressure test must be carried out in both directions (bi-direction) on all the from both directions be tested from both directions. valves?

53

4th Edition, Nov. 2012

6.5.3.2

53-14-16

BOPE should be pressure tested with low pressure and then high pressure. API 53 doesn't clarify if it low pressure must be bled off before we conduct high pressure test.  Yes, it is allowable to increase to the high pressure test immediately following the low pressure test (250 psi to 350 psi) without bleeding the Can we, without bleeding off low pressure, increase the pressure from 200 psi to high test pressure off. pressure value and conduct the test in this way?

All blow out prevention components than can be exposed to well pressure shall be tested first to a low pressure between 250psi to 350 psi and then to a high pressure. 53

4th Edition, Nov. 2012

6.5.3.2

53-03-17

Question 1: Should the high pressure test be conducted immediately after the low pressure test?

Reply 1: Yes, it should be tested in a reasonable time frame following a successful low pressure test.

Question 2: Can the pressure be bled off to zero after the low pressure test before proceeding to the high pressure test?

Reply 2: Yes, provided the component being tested is not cycled after the low pressure test.

53

4th Edition, Nov. 2012

6.5.3.4

53-07-16

Do the ram preventers and Annular preventer require Pressure Testing each time before the equipment is put into operational service on the wellhead if it has not exceeded  Yes. intervals of 21 days.

53

4th Edition, Nov. 2012

6 .5 .3. 4. 1

53 -0 5- 13

We are seeking a clarification of Section 6.5.3.4.1. Our drilling rig is skidding about every six to seven days and our operator is asking us to only do a connection test on our BOP No; all of the items listed in 6.5.3.4.1 shall be followed to be in stack every time we nipple up to start drilling the new well, but we won’t be exceeding compliance with API 53. the 21 day maximum required to test the BOP stack. Is this acceptable?

53

4th Edition, Nov. 2012

6 .5 .3. 4. 1

53 -0 5- 16

If a lease/pad contained 5 wells ready for a completion rig to conduct work, would it be a requirement to perform a full BOP test on each Well (Broken connections, Hardlines,  Yes. Pipe Rams, Blind Rams, Annular) upon installation of the BOP to each Wellhead, if the previous BOP test was still within 21 days.

53

4th Edition, Nov. 2012

6 .5 .3. 4. 1

53 -0 6- 16

The operator has asked for reduction in Pressure Testing Operations. Section 3.1.59 The periodic application of pressure to a piece of equipment or a system to verify the pressure containment capability for the equipment of system.

 Yes, 6.5.3.4.1 provides the frequency for pressure testing.

Does this mean all ram preventers and Annular preventer must be pressure tested every time the BOP is installed on a wellhead? Question 1: Do we need a gage with our digital recorder (12” circular) for testing purposes? 53

4th Edition, Nov. 2012

6.5.3.6

53-19-16

Reply 1: Yes, this gauge may be analog or digital. If a data acquisition system is utilized, a gauge would not be required (6.5.3.6.1). Reply 2: No.

Question 2: Or do need just the digital recorder? Reply 3: Yes. Question 3: If the answer to Question 1 is “yes”, do we need to calibrate both of them?

53

4th Edition, Nov. 2012

6 .5 .3. 6. 2

53 -0 8- 13

Background: Section 6.5.3.6.2 states analog pressure measurements shall be made at not less than 25% and not more than 75% of the full pressure span of the gauge. We currently have chart recorder with a range of 30,000 psi and would like to perform pressure test of 3,000 psi, which represent 10% of the maximum range of our chart recorder. These tests are to perform integrity test of our operating chambers of various  Yes, only if the chart recorder is electronic (e.g. uses a pressure equipment’s. Our customer refers to Section 6.5.3.6.2 regarding the pressure test and transducer), and the test pressures are within the manufacturer’s does not want to pursue the test and require replacement of the chart recorder. specified range, it conforms to API 53. Question: If I refer to section 6.5.3.6.3 which states electronic pressure gauges and chart recorder or data acquisition systems shall be used within the manufacturer’s specified range, am I still operating within range?

53

4th Edition, Nov. 2012

Table 3 Table 10

For some annular BOPs, the OEM recommended working pressure for the packing element varies according to the pipe/mandrel size. For example, an 18 3/4" annular BOP with a 10K RWP, may have an element with a working pressure of 10K on 6 5/8" pipe, 7.5K on a 5 1/2" pipe, and 5K on a 5" pipe. With the annular having a RWP of 10K, 70% of RWP is 7K. This could be used for the 6 5/8" pipe and the 5 1/2" pipe, but, cannot be used on 5" pipe that has a maximum working pressure of 5K. 53-01-17

Reply 1: With the configuration of the annular element and pipe Question 1: If an annular BOP has a RWP of 10K and has a packing element with a installed, the annular should be tested to a minumum of 70% of 7,500 working pressure of 7500 psi for 5 1/2" pipe is being tested prior to drilling a hole section psi (5,250 psi) or MAWHP for the hole section. using a 5 1/2" pipe, should it be pressure tested to 7000 psi (70% of 10K)? Reply 2: With the configuration of the annular element and pipe Question 2: If the same annular BOP has the same element with a 5000 psi rating on 5" installed, the annular should be tested to a minumum of 70% of 5,000 pipe, should it be tested at 5000 psi on a 5" pipe? psi (3,500 psi) or MAWHP for the hole section.

53

4th Edition, Nov. 2012

6 .5 .3. 8. 8

53 -1 6- 16

Question: At what frequency shall the electrical power to the UPS and the rig air be isolated: • Each function test? • Or prior to operations?

A frequency for this test is not defined. This will be clarified in the next edition of Standard 53.

53

4th Edition, Nov. 2012

6.5.4

53-02-15

In reference to API Standard 53 requirements in 6.5.4.3 and 6.5.4.5, is the smallest OD pipe to include tubulars that are considered part of the bottom hole assembly?

No; see 6.1.2.2 a).

53

4th Edition, Nov. 2012

6.5.8.2.6 7.6.9.5.6

53-23-16

After the initial pressure test is completed, all bolts shall then be rechecked for proper torque. 7.6.9.5.6 and 6.5.8.2.6 were intended to be completed on newly made up Request clarification on all bolts. Currently, common practice is to re-check torque only connections. on the disassembled component(s) after the initial pressure test. Torque is not rechecked on components that were not disassembled. This section refers to assemblies. Question 1: Are the requirements intended for individual parts as well?

53

4th Edition, Nov. 2012

6.5.8.3

53-13-16

Reply 1: This section provides requirements for assemblies.

Question 2: If yes, that makes sense. If it only means assemblies, that leads to two follow up questions. a) what constitutes an assembly? Reply 2a: Assemblies are defined by the equipment manufacturer. (ie: if I sell you a ram block by itself that’s a part, but If I ship it with the seals installed is that an assembly??) Reply 2b: See 6.1.4.4 and 7.1.4.4. b) What requirements exist around single replacement parts? I don’t see them mentioned separately elsewhere.

53

4th Edition, Nov. 2012

53

4th Edition, Nov. 2012

6.3.6.1

7.1.4.4

53-28-16

The hydraulic control unit should be placed outside of the drill floor Clarification on the wording for "rig substructure" in 6.3.6.1 and 7.3.5.14. Please provide (refer to definition 3.1.25 drill floor substructure clarification in regards to the meaning of "rig substructure" when talking about where to The foundation structure(s) on which the derrick, rotary table, put the hydraulic control unit. drawworks, and other drilling equipment are supported.)

53-13-17

API has flange specifications that allow end connections from different manufactures to be bolted together. The loose equipment that makes up an API flanged connection then  Yes, use of equipment from an API licensed manufacturer is not may be supplied by either manufacture or neither in some cases ( studs, nuts, and mandatory for conformance to the standard. gaskets). Note that 6A 3rd Ed 7.5.2 does not require the manufacturers to retain records for studs, nuts, or gaskets. Background: Section 7.2.2.18 states, “The choke control station shall include all instruments necessary to furnish an overview of the well control operations. This includes the ability to monitor and control such items as standpipe pressure, casing pressure, and monitor pump strokes, etc.”

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53

4th Edition, Nov. 2012

4th Edition, Nov. 2012

7.2.2.18

7 .2 .3. 1. 1

53-04-14

53 -1 1- 13

The choke control station in this section (and 6.2.2.18 as well) is intended to be the same as a drilling choke control console system as defined in API 16C, Section 10.9, i.e. the function of the remote hydraulic choke control system is to provide reliable control of the Question: Does 7.2.2.18 require the stations where the manual chokes will be controlled drilling choke from one or more remote locations with the sensitivity (i.e. at the choke manifold) to have the instruments necessary for carrying out the well and resolution required to perform all well control procedures that the control operations such as the drill pipe pressure gauge, casing pressure, and pump choke valve is designed to provide. It is not the intent to require pump stroke counter? stroke counters on a manual choke.

Background: Section 7.2.3.1.1 states "... flow targets or fluid cushions shall be used at short radius bends, on block ells, and tees." Section 7.2.3.1.2 states "Short radius pipe bends (R/d < 10) shall be targeted or have fluid cushions installed in the direction of expected flow or in both directions if bidirectional flow is expected,..." For subsea BOP Stacks, it is common practice to use short radius bends (or kickouts) at the riser termination adapter and directly above the choke/kill test (or Isolation) Valves on the LMRP. These kickouts would be connected to the choke/kill flexible hoses or flex loops. Due to space restrictions on the stack, these kickouts do not have a fluid cushion/target located directly "at" the bend. Instead, the cushion/target is generally located at the end of the choke or kill line when the flow changes direction at the lowermost well control valves. The choke/kill pipework from the kickout to the lowest valve is made as straight as possible for this run.

This intepretation has been rendered invalid as a result of publication of API S53, 4th Edition, Addendum 1 in July 2016. Therefore this interpretation is withdrawn as a result of these new technical changes. Reply1: Yes.

Question 1: Does a fluid cushion flange installed at the lowest well control valve (leading into the wellbore below the lowest choke or kill ram) meet the requirement of 7.2.3.1.1 for "shall be used at short radius bends"? Reply 2: Yes. Question 2: Is it required to have a cushion/target directly at a short radius bend? Question 3: Can the cushion/target be further down the choke/kill piping, if no 90° Reply 3: No. changes in direction are made between the short radius bend and the cushion/target (as stated in 7.2.3.1.2)?

53

4th Edition, Nov. 2012

7 .2 .3. 1. 1

53 -1 1- 13

Question 1: Does a fluid cushion flange installed at the lowest well control valve (leading into the wellbore below the lowest choke or kill ram) meet the requirement of 7.2.3.1.1 for "shall be used at short radius bends"? Question 2: Is it required to have a cushion/target directly at a short radius bend?

Reply1: Yes.

Reply 2: No, but if R/D 10 is not possible, the equipment owner’s PM radius bends or targeted ells? Typically on many BOPs, the first bend in the flex loop, as program shall include an inspection for erosion at the pipe bends at you come out of the riser adapter and begin spiraling down the flex loop, is a bend that least every two years. has a radius less than 10 times the ID of the choke or kill pipe. Also the riser adapter is typically supplied with short radius bend kick-outs.

Item 7.2.3.1.2 states that short radius bends on choke and kill lines must be targeted or have fluid cushion to minimize erosion Question 1: Is there any requirement for the length of the cushion zone? 53

4th Edition, Nov. 2012

7.2.3.1.2

53-21-16

Question 2: Would be acceptable a length of 4 inches, or equal to pipe internal diameter, whichever is higher?

Question 3: Is it acceptable to use fluid cushion made of pipes welded perpendicularly instead of a block?

53

4th Edition, Nov. 2012

7 .2 .3. 2. 9

53 -1 0- 13

Reply 1: No, there are no design requirements for the fluid cushion. Reply 2: As there is no choke or kill fluid cushion design requirements within Std 53, this committee cannot answer this question.

Reply 3: As there is no choke or kill fluid cushion design requirements within Std 53, this committee cannot answer this question.

Background: Regarding Section 7.2.3.2.9, I would like to address the issue of the 12 inch spools between the choke and kill valve bodies and the BOP body. The spool pieces were originally added by the manufacturer to extend the position of the choke and kill bodies away from the BOP. This added length prevented damage to the valves and BOP bonnet doors during maintenance. Without the spool pieces the doors could not be opened fully, thus adding the potential to damage the door face during ram block installation and removal. Since the original design of the BOP the manufacturer has manufactured an extended neck valve body design. But, it must be noted there are problems with this design. With the addition of a welded spool to the valve body alignment becomes critical. If the welded extension is not square to the flange and to the valve body, proper alignment can never be achieved. This also adds the probability that the valves are no longer interchangeable within the system. Example; if the lower inner and outer choke body is prepared and fitted in place; potentially it could not be moved to a different valve position without remanufacturing the associated choke and kill pipework. If the valve in fact is moved to a different position and the original pipework is API does not grant deviations to the requirements stated in its utilized, it could allow the associated flanges to be out of position and over stressed standard; we can only issue interpretations in response to questions after installation. We believe the use of the short spools is the better solution, and concerning the meaning of the requirements. Your comments have reduces the exposure to leak via a ring gasket, due to possible over stress of the flange been forwarded to the task group responsible for API 53 for connections, if a valve is replaced. consideration as a future revision to the standard.

This intepretation has been rendered invalid as a result of publication of API S53, 4th Edition, Addendum 1 in July 2016. Therefore this interpretation is withdrawn as a result of these new technical changes.

Question: We request an interpretation of API 53 to allow the use of spools between the BOP and choke and kill valves.

4th Edition, Nov. 2012

53

7 .2 .3. 2. 9

53 -1 4- 13

This intepretation has been rendered invalid as a result of publication of API S53, 4th Edition, Addendum 1 in July Is the intent of Clause 7.2.3.2.9 to prohibit a properly designed spacer spool between the 2016. Therefore this interpretation is BOP outlet on the body and the failsafe valves and spacer spools for the drill-through and all of the choke and kill lines on the stack are spools)? withdrawn as a result of these new technical changes.  Yes; API 53 does not allow for use of spools between the BOP outlet and the choke and kill valves.

53

4th Edition, Nov. 2012

7.3.10

53-02-13

Background: A particular rig with casing shear rams has response time of 51 seconds. When asked about the required closing time in API 53 for subsea casing shear rams, I stated “45 seconds, the same as pipe rams.” Rig personnel believed that the requirements in 7.2.10 do not apply to casing shear rams because they do not seal and thus are not considered a BOP. Question: Are casing shear rams required to comply with the closing times stated in 7.3.10?

This intepretation has been rendered invalid as a result of publication of API S53, 4th Edition, Addendum 1 in July 2016. Therefore this interpretation is withdrawn as a result of these new technical changes.  Yes; Tables 6 and 7 require the well to be secured in 90 seconds or less. If a casing shear ram is part of that sequence then it shall be within that same timeline to achieve a secure well.

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4th Edition, Nov. 2012

4th Edition, Nov. 2012

7.3.12.8

7.4.6.4.2

53-20-16

53-22-16

For functions with varying pressure ranges it is impossible to comply with the 25%-75% gauge rule. The Overshot Packer and the Flowline Seals (just an example but it applies to more functions) can sometimes be run down to as low as 200 psi and as high as 1,500 psi. To meet the API Standard 53 requirement on 7.3.12.8, you would need to operate The intent is not to require two gauges for normal operations; the with a gauge with a high end of 2,000 psi which would make your low end 500 psi (25% of intent is for two gauges required for testing only. However, two gauges 2000), which is above our low range for the function (200 psi). would be required to meet the requirement with a span that exceeds the 25%-75%. To meet the API Standard 53 requirement on 7.3.12.8, you would need to operate with a gauge with a high end of 2,000 psi which would make your low end 500 psi (25% of 2000), which is above our low range for the function (200 psi). Use two different gauges?

The API 53 has contraditory procedures to do the drawdown test. In section 7.4.6.4.2 says that you should close and open the largest volume annular plus four smallest operation volume ram-type BOP, excluding test ram. However, the section 7.6.8.2.2 d) request the largest annular plus the four smallest volume PIPE ram preventers. Which one should I use for the BOP from background?

For drawdown testing, 7.6.8.2.2 shall be followed.

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4th Edition, Nov. 2012

7.4.6.6.3

53-26-16

If the main accumulator system drawdown test meets the requirement of precharge verification for the main system as described in 7.6.8.2.1 and 7.3.7.1 and Table 9, is the  Yes. intention of 7.4.6.6.3 to require only the subsea (stack mounted) accumulator bottles precharge to be checked and adjusted for depth every predeployment?

7.4.6.6.2 The precharge pressure on each accumulator bottle shall be measured in accordance with equipment owner's PM program and adjusted, if necessary. 7.4.6.6.3 The precharge pressure shall be measured prior to BOP stack deployment and adjusted in accordance with the manufacturer-specified API 16D method (A, B, or C). These paragraphs relate to measurement and adjustment of precharge, however, they do not specify if the requirements are for Main Accumulators, Stack Mounted Accumulators, or both. 53

4th Edition, Nov. 2012

7.4.6.6.2 7.4.6.6.3

53-29-16

We conclude that 7.4.6.6.2 is meant to relate to the Main Accumulators on surface as the pressure measurements can be scheduled at appropriate time intervals. Also, we conclude that 7.4.6.6.3 relates to stack mounted accumulators as they must be measured and adjusted prior to BOP stack deployment. 1. Was the intent of 7.4.6.6.2 to relate to the Main Accumulators on surface and was this 1. Yes measurement intended to be checked at time interval determined by the equipment owner? 2. Was the intent of 7.4.6.6.3 to relate to the accumulators that are stack mounted?

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4th Edition, Nov. 2012

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7 .4 .6. 6. 3

53 -0 6- 17

2. Yes

There has been some confusion within our organization as to whether or not Section 7.4.6.6.3 pertains to both the surface and subsea accumulator bottles. Since the verbiage from Section 6.3.9, referring strictly to surface accumulator bottles is exactly the same as that for subsea, it has been our interpretation that this section was meant for ALL accumulator bottles of the BOP system. Furthermore, this section also refers to API 16D methods (A, B, or C), of which includes the method for surface accumulator precharge. No, the subsea accumulator precharge shall be checked prior to BOP stack deployment. Is Section 7.4.6.6.3 applicable to both the surface and subsea mounted accumulator bottles of a subsea BOP system? The surface accumulator precharge shall be checked per equipment owner's PM progam. Standard 53 does not define "system" or "control unit " in section 7.4 nor in section 3. Section 7.4.9 is entitled Control Stations. Section 7.4.9.9 discusses the main control unit.

7.4.9.10

53-07-17

Is it correct that "the control unit" referred to in 7.4.9.10 is the "main control unit"?

No.

Question 1: In reference to the requirement of 7.4.9.11, is it permissible for the system to Reply 1: No, unless displaying the previous status could result in an display no previous status upon restoration of power? incorrect indication (API 16D 5.2.5.4 & 5.4.5).

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4th Edition, Nov. 2012

7.4.9.10 7.4.9.11

53-04-15

Question 2: In reference to the requirement of 7.4.9.11, is it permissible for the system to change the state of a BOP operator upon restoration of power, and display the changed Reply 2: No. position? Example – unlocking a locked pipe ram? Question 3: In reference to the requirement of 7.4.9.11, API 16D requires not displaying the last position when an electrical power loss in the surface panel(s) could result in an incorrect indication (5.2.5.4). Please confirm the API 16D requirement takes precedence Reply 3: See response to question 1. and either include the requirement in API S53 or delete the design requirement in API S53.

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4th Edition, Nov. 2012

7.4.9.11

53-08-17

In section 7.4.9.11 is it correct to assume “ the system” referred to is the 16D edition 2, definition of a BOP CONTROL SYSTEM (3.14) and includes all of the control and display  Yes. panels used to operate the BOP? When there is more than an interruption to power, rather a complete loss for several hours, some MUX systems only retain the last know state at the CCU or in the function logger.

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4th Edition, Nov. 2012

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53

4th Edition, Nov. 2012

7.4.9.11

53-09-17

Does it meet the intent of S53 if, after a complete loss of power, the location of the  Yes. information concerning the status of the BOP control system at the time of loss of power is displayed at the CCU, or recorded in the function logger , and only at the CCU or function logger as described in 16D 5.4.5 “..displayed/and or recorded in some form” . Question 1: With respect to an EDS being completed, will the time stop when the command has been sent to the LMRP connector to unlatch?

7.4.13

Reply 1: No, the time stops when the well is secured (see Table 6 and Table 7 Note C).

53-05-17

Question 2: Will the time stop when the LMRP connector has reached its fully unlatched Reply 2: No, the time stops when the well is secured (see Table 6 and position? Table 7 Note C).

7.4.16.1

53-01-15

Question 1: If a stack-mounted accumulator system (sized per API 16D, Method C, for Reply 1: API 53 does not address this issue. closing of shear ram(s) only) is utilized to meet the ROV closing time requirement, and is shared with a deadman and autoshear system, shall it include a ROV recharging function to comply with 7.4.16.1.2? Reply 2: The source of hydraulic fluid shall have necessary pressure and flow rate to operate these functions”, as stated in 7.4.16.1.2, and Question 2: Shall the stack-mounted accumulator option include a regulated circuit to “All critical functions shall meet the closing time requirements in actuate critical functions listed in 7.4.16.1.1 if they have a rated working pressure below 7.4.6.5.4”, as stated in 7.4.16.1.6. the accumulator’s charged pressure? Question 3: A failure of the deadman or autoshear may be the reason for needing to Reply 3: API 53 does not address this issue. conduct BOP ROV intervention. If a shared system fails, shall the BOP ROV intervention system include functions to isolate these systems so recharging of the accumulator system is possible? It is not clear in 7.4.16.1.1 whether shear ram ‘OPEN’, pipe ram ‘OPEN’, and ram locks ‘UNLOCK’ are considered critical functions as they are not included in Table 6. Question 1: Are shear ram ‘OPEN’, pipe ram ‘OPEN’, and ram locks ‘UNLOCK’ considered critical functions?

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4th Edition, Nov. 2012

7 .4 .1 6. 1. 1

5 3- 18 -1 6

Question 2: Are the items on the list below inclusive of API Standard 53 critical functions? • Each Shear Ram ‘CLOSE’ • Blind Shear Ram Locks ‘LOCK’ • One Pipe Ram ‘CLOSE’ and 'LOCK' • LMRP Connector ‘UNLATCH’

Reply 1: No.

Reply 2: Yes.

Background: I have a four-ram stack (one blind shear and three pipe rams). I have an acoustic pod that closes the blind shear rams, closes a hang-off ram, and disconnects the LMRP. The acoustic pod is capable of operating critical functions, just not all of them. 53

4th Edition, Nov. 2012

7 .4 .1 6. 2. 2

5 3- 04 -1 3

Section 7.4.16.2.2 states “the acoustic control system should be capable of operating critical functions”, with the term “critical functions” being defined in 7.4.16.1.1 as each shear ram, one pipe ram, ram locks, and unlatching of the LMRP connector.

No; this provision is implemented with a “should” and therefore is a recommendation.

Question: Is the intent of 7.4.16.2 to require the acoustic pod to operate all critical functions, specifically every shear ram?

53

4th Edition, Nov. 2012

Table 7

53-07-13

Table 7 is a function test requirement without pipe in the stack. 7.6.6.5 states BSRs and/or CSRs shall not be tested when pipe is in the Question: Are the blind shear ram closing times stated in Table 7 to mean if pipe is in stack. the BOP it must shear and seal in 45 seconds, and if drill pipe is not in the BOP, the ram 7.4.16.1.2 states the source of hydraulic fluid shall have necessary must close in 45 seconds with sufficient pressure that could have sheared the drill pipe pressure and flow rate to operate these functions. had it been in the BOP? The intent is to secure the wellbore in 45 seconds or less with or without pipe in the stack, but the test with pipe in the stack is not a requirement of Standard 53.

53

4th Edition, Nov. 2012

7.6.5.1

53-09-14

Referencing 7.6.5.1, for BOP functioning/intervention via a ROV, does the 45 second requirement in Table 6 and Table 7 apply to an open bore or for a BOP with pipe in it?

53

Testing referred to in Table 6 and Table 7 is intended to be conducted with an open hole for shear rams (see 7.6.6.5) and with pipe in the stack for pipe rams.

4th Edition, Nov. 2012

7 .6 .5. 2. 6

53 -2 4- 16

 Yes, per 7.6.5.4.3 A function test of the BOP control system shall be performed following the disconnection or repair, limited to the affected When you release the interface between LMRP and Lower stack, you break the seal on component. Release or latching type components are only required per the POD stabs, When you reland the LMRP, you need to test the LMRP Connector and 7.6.5.1.7. Choke and Kill connections. When you release the interface between LMRP and Lower stack, you break the seal on the POD stabs, When you reland the LMRP, you need to test 7.6.5.1.7 Release or latching type components of subsea well control the LMRP Connector and Choke and Kill connections. Do you need to do a function test systems (choke, kill, riser, wellhead connectors, etc.) and emergency after relanding the LMRP onto the lower stack? or secondary systems shall be function tested prior to deployment or as defined in equipment owner’s PM program.

4th Edition, Nov. 2012

7.6.5.2.6 Table 10

53-25-16

Is it the intent that the portion of the manifold that is downstream of the chokes be pressure tested to the RWP of the chokes outlet valves, lines or the same as the ram preventers, whichever is lower even if the lowest RWP is higher than the MAWHP?

No, the intent was not to require a higher test pressure for downstream of the chokes as compared to the upstream of the chokes.

Question 1: Does each of the valves in the C&K manifold (about 35 valve) need to be pressure tested in both directions?

Reply 1: No. Valves that are required to seal against flow from both directions, shall be pressure tested from both directions.

4th Edition, Nov. 2012

7.6.5.2.13 Table 10

Question 2: Or does each of the valves in the C&K manifold need to be pressure tested Reply 2: No, see above. from wellbore direction only? 53-08-15

Reply 3: Shell testing of choke manifold equipment is a manufacturing Question 3: Or does each of the valves in the C&K manifold need just 1 each shell test in requirement. See API Specification 16C second edition 7.5.12. 15k & 10k side? We heard same test need to be done each 21days during operation

See API Standard 53 7.6.5.4.2.d & Table 10.

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4th Edition, Nov. 2012

7.6.5.3

53-07-14

Question 1: Are all “pre-deployment” and “prior to deployment” requirements of API 53 Reply 1: No; a function test of the BOP control system shall be to be completed after a LMRP or BOP retrieval for repair before re-deploying to the same performed following the disconnection or repair, limited to the affected well for continued operation. component, as stated in 7.6.5.4.3. Question 2: Alternatively, does “pre-deployment” and “prior to deployment” refer to deployment following between-well-maintenance and prior to new operations?”

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4th Edition, Nov. 2012

7 .6 .5 .4 .1 a

5 3- 04 -1 7

Reply 2: Yes.

7.6.5.4.1 a), Table 9, and Table 10 state Pressure tests on the well control equipment shall be conducted predeployment of the BOP and upon landing the BOP. We test predeployment; we land the BOP on wellhead & conduct a complete test. At end of well 1 we unlatch pull 2 joints of riser, move the drill ship (short distance), land and latch the BOP on wellhead 2, complete the program on site 2, then unlatch and repeat the "BOP Hop" multiple times (4-7 well sites, some wells only 2 weeks long, between moves) over the course of months before pulling the BOP back to surface to complete between well maintenance and pre-deployment testing. 7.6.5.4.1 d) states 'not to exceed intervals of 21 days, excluding BSRs. Question 1: If we do not pull the BOP to surface do we have to complete a full BOP test Reply 1: Refer to 7.6.5.9 of Standard 53 for subsea well hopping on each initial landing? requirements. Question 2: As we are not pulling the BOP to surface between wells, and many of our Reply 2: Refer to 7.6.5.9 of Standard 53 for subsea well hopping wells are not 21 days long: (if we complete the weekly function tests) & If we conduct a requirements. complete pressure test every 21 days and a -pressure test / shell test against the shear rams and wellhead connector/gasket with each new site BOP landing... does meeting the 21 day pressure test interval full-fill the consideration and intention of Standard 53?

53

4th Edition, Nov. 2012

7.6.6.3

53-17-16

I do not understand the intent to pressure test annular(s) and VBR(s) on the largest and smallest OD drill pipe to be used in well drilling program on surface. No, 7.6.6.3 shall be followed for the pre-deployment test. The intent is to verify the full range of variable BOP sealing elements Should be enough to test only with the smallest OD drill pipe as stated in 7.6.6.4 on prior to deployment. subsea test?

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4th Edition, Nov. 2012

7.6.6.9

53-13-14

The use of ram locks is not required for subsequent testing. Section In section 7.6.6.9 it requires testing on the ram locks only during pre-deployment testing. 7.6.6.10 states “The BSR(s) and the hang-off ram BOP shall be What about the 21 day testing regimen? pressure tested with locks in the locked position and closing and locking pressure vented, during the initial subsea test only.”

53

4th Edition, Nov. 2012

7.6.6.17

53-04-16

Question 1: In reference to 7.6.6.17, is totally impractical to suggest that a surge bottle Reply 1: This is a question based on an opinion and does not meet the can be installed adjacent to the annular preventer if contingency well control procedures requirements for technical interpretation. Note that a surge bottle is include stripping operations as this implies that a bottle may be used on some wells and not required per this standard, as the statement utilizes the word “can” not on others. Would it not be better to simply state that an annular surge bottle is which allows the possibility without inferring it is a requirement. optional for subsea use? Depending on system configuration and plumbing, a surge bottle may improve stripping capability. Use of other equipment may accomplish the same result as a surge bottle. Question 2: Per the Standard, would it be better to state that the surge bottle is optional Reply 2: See response above. However your comment will be than simply deleting 7.6.6.17? Stating that it is optional is clear. Deleting the statement considered during the next revision of the document. could be interpreted as an error.

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4th Edition, Nov. 2012

Table 9

Question 1: Is it acceptable to pressure test a riser connector to 70% as like an SBOP after breaking this connection, if the wellhead RWP is 15 000psi and the anticipated wellhead pressure is just over 10 000psi?

Reply 1: No.

Question 2: Is it acceptable to complete function test and drawdown test then split the LMRP off the BOP and change riser connector, choke and kill gaskets then deploy? Confirmation required please.

Reply 2: No.

53-10-16

, relates to table 10 (subsea testing) and the interpretation of “initial pressure test, upon landing the BOP”

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4th Edition, Nov. 2012

Table 9

53-12-16

Reply 1: The testing listed in Table 10 shall be conducted after initial Question 1: Shall this be understood in the most conservative way, that one shall first do latch-up. a full pre-deployment test, run BOP, and then repeat all testing again after landing on a wellhead? Question 2: Or could the pre-deployment test (as long as BOP is run within reasonable time, say a week) be considered as the initial pressure test (with WH connector pressure test and full function test after landing)?

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4th Edition, Nov. 2012

4th Edition, Nov. 2012

Question 1: The drawdown test requirement outlined in section 7.6.8.2 for drawdown testing, after the completion of the drawdown test, do we require to perform a pump up test for the system to confirm the pumps capability, or we are only required to perform the drawdown test and confirm the minimum pressure? 7.6.8.2

Reply 1: No, 7.6.8.2 does not require a pump capability test.

53-15-16

Question 2: The pump capability test is required to be done based on table 9 for predeployment testing, does the system need to be bled down to precharge pressure prior to performing the test or only the pressure after the drawdown test which is as a minimum should be 200 psi over precharge pressure?

7 .6 .8. 2. 2

Reply 2: No.

53 -1 4- 17

Reply 2: Yes, the pressure is required to be bled down to precharge pressure.

To accomplish a drawdown test and minimize pipe handling S53 Annex A infers you can use another BOP operator such as a pipe ram to simulate the volumetric draw of the shear rams. In practice we see that some equipment owners will use the annular to simulate the volume of a large shear ram operator. Sometimes the packer sizes differ such that one pipe cannot be used and close all rams, so a ram is closed twice to simulate the other ram. To decrease wear and tear on the pipe ram packer and automatic locks, as well as the annular packer an equipment owner wants to function only the casing shear ram a sufficient number of times to simulate the volume drawn by 1 annular and 4 of the smallest rams. This also reduces pipe handling in and out of the BOP. Does functioning a casing shear ram sufficient times to drawdown the same or more  Yes volume than would be drawn down by closing and opening one annular and 4 rams meet the intent of the drawdown test?

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4th Edition, Nov. 2012

7 .6 .8. 2. 2

53 -0 9- 16

Section 7.6.8.2.2 Requires a main accumulator system drawdown on initial land out and every 6 months there after. The requirement does NOT mention the pump efficiency test specifically but does refere to Annex "A" which DOES include a pump systems test . I am referring to a test to determine if the pumps meet the requirements of 7.4.5 which, consequently does NOT have a frequency stated but because the annex references both requirements rigs have assumed they have the same testing frequency requirements. This prolongs the time in which the system is incapable of carrying out an EDS. Upon landing the BOP , in addition to the drawdown test, is the pump systems test timing top off from precharge- required?

No

Question 1: Referring to 7.6.8.3, do the following meet the intent of “the greatest consuming emergency sequence (excluding hydraulic connectors) supplied by the dedicated emergency accumulators shall be discharged”?

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4th Edition, Nov. 2012

7.6.8.3

53-15-13

a) Operating HP shear functions by the primary control system that are supplied by the emergency accumulators? b) Operating HP shear functions through an ROV flying lead supplied by the emergency accumulators? c) Flowing a volume of fluid by an ROV flying lead supplied by the emergency accumulators into a measured test apparatus? d) Conducting the greatest consuming deadman or autoshear sequence? Question 2: If the greatest sequence includes a hydraulic timer, is the hydraulic timing volume required to be included in this test? Question 3: If the answer to Question 2 is yes, can it be simulated by another function? Question 4: If well hopping, does the test at initial landing only have to be completed after connection to the first well?

Reply 1: Item a) does not meet the intent of 7.6.8.3 because it refers to a primary control system function. Items b) through d) do meet the intent of 7.6.8.3.

Reply 2: Yes, all involved volumes shall be included.

Reply 3: Yes

Reply 4: Yes, if the hydraulic supply system remains intact during the hopping operation.

Reading between section 7.6.9.3.1 and 7.6.9.3.2 , the section refers to suspending initial maintenance calendars based to start on the date the equipment is installed in a system and section 7.6.9.3.2 advises that a variation from calendar based maintenance can be carried out given equipment data to justify a different frequency. 53

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7.6.9.3

7 .6 .9. 3. 1

53-11-17

53 -1 2- 17

In Addendum 1, section 7.6.9.3.1, is it correct to infer that equipment overhauled and tested in the field then stored in accordance with 7.6.9.7 Equipment Storage may pause its five-year period on the date it is put into storage, then restart the maintenance calendar on re-installation and meet the intent of this section concerning maintenance and inspection?

If the equipment is inspected per 7.6.9.3.1 and then stored in accordance with 7.6.9.7, the 5 year period will begin upon installation. Once a start date is determined, there is no pausing of the five year inspection period.

In Addendum 1, section 6.5.7.3.1 (c ) reads …" if preservation and storage records in accordance with 6.5.8.4, are not available". The sister section 7.6.9.3.1 (c ) is nearly identical to 6.5.7.3.1 except it does NOT refer to section 7.6.9.7 to describe the preservation. Was it the intent of Addendum 1 to use section 7.6.9.7 Equipment Storage as guidance  Yes for the preservation referred to in section 7.6.9.3.1? API STD 53, Section 7.6.9.3 states “Well control equipment system components shall be inspected at least every 5 years in accordance with the equipment owner’s PM program. Individual components and subassemblies may be inspected on a staggered schedule. The inspection results shall be verified against the manufacturer’s acceptance criteria.”

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4th Edition, Nov. 2012

7.6.9.3 6.2.5.1

53-27-16

API STD 53, Section 6.2.5.1 addressing the inspection, testing and maintenance of Choke Manifolds, Choke Lines, and Kill Lines states “Maintenance and inspection shall be performed on the same schedule employed for the BOP in use and shall include checks for wear, erosion, and plugged or damaged lines.” Is it a requirement to tear down the Choke Manifold to meet this requirement?

No

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4th Edition, Nov. 2012

This intepretation has been rendered invalid as a result of publication of API S53, 4th Edition, Addendum 1 in July Background: We have one rig where the COCs of the subsea components expired at the 2016. Therefore this interpretation is end of last year (2013), however; the components have been in storage for more than withdrawn as a result of these new two years and only been in service for 740 days. All equipment is fully functional and documents of testing and annual inspection are well maintained. technical changes. 7 .6 .9. 3. 1

53 -0 6- 14

Question 1: Referencing 7.6.9.3.1, does the term “At least every 5 years” begin on the component COC date or on the date that the component is put in service?

Reply 1: Neither; it begins from the date the equipment was last “inspected for repair or remanufacturing, in accordance with equipment owner's PM program and the manufacturer’s guidelines”.

Question 2: Referencing 7.6.9.3.1, does API 53 require the COCs of this equipment to be active if the equipment owner’s PM program requirements include all subsea equipment Reply 2: No, API 53 does not require COCs. to be inspected annually and/or every five year by a competent person(s) (the frequency of inspection is derived from the equipment as owner collects and analyzes condition based data (including performance data) and the result of the inspection meets the equipment owner’s PM program and the manufacturer’s guidelines?

Background: We have one rig where the COCs of the subsea components expired at the end of last year (2013), however; the components have been in storage for more than two years and only been in service for 740 days. All equipment is fully functional and documents of testing and annual inspection are well maintained.

53

4th Edition, Nov. 2012

7 .6 .9. 3. 1

53 -0 6- 14

Question: Referencing 7.6.9.3.1, does API 53 require the COCs of this equipment to be active if the equipment owner’s PM program requirements include all subsea equipment Reply: No, API 53 does not require COCs. to be inspected annually and/or every five year by a competent person(s) (the frequency of inspection is derived from the equipment as owner collects and analyzes condition based data (including performance data) and the result of the inspection meets the equipment owner’s PM program and the manufacturer’s guidelines?

Background: Section 7.6.9.3.3 states certain equipment shall undergo a critical inspection (internal/external visual, dimensional, NDE, etc.) annually, or upon recovery if exceeding 1 year: e.g. shear blades, bonnet bolts (or other bonnet/door locking devices), ram shaft button/foot, welded hubs, ram cavities, and ram blocks. The actual dimensions shall be verified against the manufacturer’s allowable tolerances.

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4th Edition, Nov. 2012

7 .6 .9. 3. 3

53 -0 3- 14

This intepretation has been rendered invalid as a result of publication of API S53, 4th Edition, Addendum 1 in July 2016. Therefore this interpretation is withdrawn as a result of these new technical changes. Reply 1: Yes; the example equipment listed shall be inspected at a minimum.

Question 1: Was this meant to be a requirement for the listed example equipment? Question 2: Does API 53 specify who determines which inspection method is used?

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4th Edition, Nov. 2012

7 .6 .9. 3. 4

53 -0 8- 14

Reply 2: Yes; Section 7.6.9.3.1 states inspections shall be performed in accordance with the equipment owner’s preventive maintenance program.

Section 7.6.9.3.4 states inspections shall be performed by a competent person(s). Must No; these are not required by API 53. See 3.1.20 for the definition of a this "competent person (workshop)" have the certification or permission of the competent person. manufacturer to fulfill the repairs?

53

4th Edition, Nov. 2012

7.6.11.7.6

53-01-12

If the first shear is activated it would be expected to experience the worse conditions. The second shear or closure may not be shearing, Section 7.1.3.6 requires a subsea BOP on a non-moored (ie DP) semi to have two shear but just closing and sealing. rams. Is the expectation that both shear rams are capable of shearing the drill pipe in use at the maximum anticipated wellbore pressure, or does only one need to be capable Two shearing rams must be capable of shearing the pipe and only one of shearing in these conditions? is required to be capable of sealing the wellbore. It is preferred that this be achieved on the first attempt but the BOP system must be The confusion arises out of the wording in 7.6.11.7.6 which states "Consider one set of prepared to at least shear on first closure and seal on the second. shear rams capable of shearing drill pipe and tubing that might be across the stack at MEWSP." It was not the intent of the committee that the second closure be capable of shearing the pipe and sealing the wellbore.

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