OA19042A

OA19042A - Method and apparatus for replacing a tendon flex bearing on a tension leg platform.

Info

Publication number: OA19042A
Application number: OA1201700303
Authority: OA
Inventors: Robert Kipp; Kent Davies
Original assignee: Single Buoy Moorings, Inc
Priority date: 2015-01-27
Filing date: 2016-01-27
Publication date: 2019-12-27

Abstract

A method and apparatus for replacing a tendon flex bearing on a tension leg platform includes installing a tendon tensioning tool on the Length Adjustment Joint (LAJ) of a tendon and providing a supplemental buoyancy module on the tendon. The tendon tensioning tool is used to disengage the slips from the top tendon connector. The buoyancy of the supplemental buoyancy module may then be adjusted to support the tendon whereupon the tendon tensioning tool may be disengaged permitting removal and replacement of the tendon flex bearing. Following installation of the new (or refurbished) flex bearing, the steps of the procedure may be reversed to return the tendon to its normal operating state. In certain embodiments, top clamp actuation means is provided in the tendon tensioning tool for removing slips from the top clamp.

Description

TITLE OF THE INVENTION: Method and apparatus for repiacing a tendon flex bearing on a tension leg platform

CROSS-REFERENCE TO RELATED APPLICATIONS:

[0001] This application daims the benefit of U.S. Provisional Application 5 No. 62/108,353, filed on January 27, 2015, the contents of which is hereby ...........................incorporated by reference in its entirety....................................................................................................

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT: Not Applicable

BACKGROUND OF THE INVENTION

1. Field of the Invention.

[0002] The present invention generally relates to floating platforms for the offshore production of oil and gas. More particularly, it relates to tension leg platforms (TLPs).

2. Description of the Related Art including information disclosed under 37 15 CFR 1.97 and 1.98.

[0003] The tendon flex bearing is a structural element that allows for relative rotation between the top of the tendon and the tendon porch, i.e. the TLP hull. The tendon flex bearing is in the direct load path of the primary station keeping forces. A typical TLP full iife-cycle operational plan does not call for the replacement of these éléments.

----^:-----²⁰--------[0094]—Station keeping of a typical TLP is provided by a minimum of six -----------------------t-e ndons^A-T-LP-is-des igned-for-ex-trem e-a nd-sur-viv-al-e©n d iti OFiST-as-we I l-asfor conditions wherein one tendon missing (i.e., the TLP is re-ballasted to maintain propertendon tension) and fora broken tendon condition (i.e., no immédiate ballast compensation). Though the TLP is designed for such conditions, remédiai actions are generally not developed as part of the design process.

[0005] Piles driven into the seafloor are attached to the lower ends of the tendons. The upper end of the tendon connects to the TLP hull. The

2 upper end of the tendon itself comprises tendon body éléments and, above such, a length adjustment joint (LAJ). The diameter of the LAJ is generally smaller than the diameter of the tendon body. A section of the LAJ is equipped with concentric groves which allow slips having 5 corresponding projections to clamp onto the tendon (LAJ). These slips, called “the clamp/’ are supported by the flex bearing. The flex bearing allows for differential rotation between the tendon body and TLP. The flex
bearing may be supported by a load ring which is supported by load cells used to measure the tendon tension. The load cells may be supported by 10 a second load ring that is rigidly attached to the tendon porch which is connected to TLP hull. Alternatively, some TLPs are configured such that the tendon flex bearing is supported directiy on the tendon porch or on a ring on the tendon porch. Most of these devices are circular in cross section and, when installed, hâve a common longitudinal axis. As such, ¹⁵ the LAJ (and tendon) are at the center and protrude vertically through the centers of the clamp, the flex bearing, the centers of both load rings and the géométrie center of the load cells. FIG. 1 illustrâtes a typical layout of a tendon and its associated flex bearing. BREF SUMMARY OF THE INVENTION 2o [0006] The methodology and hardware disclosed herein enables the in situ replacement of a tendon flex bearing on a tension leg platform. [00071 The challenge with reolacina a flex bearing is to remove this

element from the primary load path under in-situ conditions in a cost-
efficient manner while assuring platform integrity and safety. Replacing the 25 flex bearing requires the following steps: A. releasing the clamp from the LAJ; B. removing the clamp; C. removing the flex bearing; D. installing a new (repaired or refurbished) flex bearing;

> I*	19042 3
	E. reinstalling the clamp; and,
	F. securing the clamp to the LAJ.
5	[0008] Typically, the pretension in each of the tendons is approximately one-third to one-half the maximum allowable load. One cannot simply release the clamp (as stated in step A, above). The tension in the tendon .......(at the clamp) must first be significantly reduced. However, the tension..................................... must r-emain sufficientto oreventanv bucklina of the-tendon Furthermore______ - ...
10	the clamp cannot be unloaded by applying a load to the top of the LAJ, because the configuration does not allow for the existing flex bearing to be removed and a new one to be installed (due to interférence issues). [0009] In a method according to the invention, a supplémentai buoyancy module is attached to the tendon and its buoyancy is adjusted to apply a force greater than the in-water weight of the tendon.
15	[0010] A tendon tensioning tool is used to disengage the slips from the top tendon connector. The buoyancy of the supplémentai buoyancy module supports the tendon whereupon the tendon tensioning tool may be disengaged permitting removal and replacement of the tendon flex bearing.
	BRIEF DESCRIPTION OFTHE SEVERALVIEWS OF THE DRAWING(S)
20	[0011] FIG. 1 is a schematic view, partially in cross section, of the upper nortinn nf a Tl P tendon tnnAther with ifs assnr.iatAd tendnn nnrr.h anrl tnn,
—
tendon connector in its normal operatina condition.
[0012] FIG. 2 is a schematic view, partially in cross section, of the apparatus shown in FIG. 1 with a tendon tensioning tool installed and a

supplémentai buoyancy module attached to the tendon.

[0013] FIG. 3 is a schematic view, partially in cross section, of the apparatus shown in FIG. 2 with an annular spacer installed between the tendon and the inner surface of the tendon porch.

. [0014] FIG. 4 is an exploded, schematic view, partially in cross section, of the apparatus shown in FIGS. 2 and 3.

[0015] FIG. 5 is a schematic view, partially in cross section, showing the tendon tensioning tool retracted and disengaged, allowing the tendon weight to be carried by the supplémentai buoyancy module. In this state,

......................... the tendon tensioning tool may be released and can be lifted off the................ tendon.

DETAILED DESCRIPTION OF THE INVENTION

[0016] Herein, a method is disclosed for replacing a tendon flex bearing on an installed TLP.

[0017] The invention may best be understood by reference to the drawing figures wherein one particular method according to the invention is shown sequentially. In the drawing figures, the following reference numbers are used to designate the listed éléments:

length adjustment joint (LAJ) ₁₅ 12 LAJ grooves clamp slips flex bearing

------------18-------flex-bear-ing-base---------------------------------------------

20	20	upper load ring
	22	load cell
	24	Iower load ring
	26	tendon porch
	28	tendon body
25	30	tendon tensioning tool

hydraulic cylinders hydraulic rams plate supplémentai buoyancy module messenger line spacer messenger line adapter tendon top connector

[0018] Referring to FIG. 1, an installed tendon 28 is shown secured in its normal operating state to tendon porch 26 of a TLP (not shown). Upper portion 10 of tendon 28 comprises the length adjustment joint (LAJ) which may hâve a reduced diameter relative to the main body portion of tendon 28. LAJ grooves 12 are provided in a portion of the outer surface of LAJ 10 to engage slips 15 in clamp 14. Clamp 14 bears against flex bearing 16 ₁₅ supported on flex bearing base 18. Flex bearing base 18 bears against upper load ring 20 which bears against load cell 22 supported on lower load ring 24 so as to provide a measure of the tension in tendon 28. It will be appreciated that this is merely an exemplary configuration and other configurations used in the industry may also employ the method of the invention. For example, in some configurations, the load cell is incorporated into the body of the tendon; in yet other configurations, the -------------flex-bear-ing-is-supported-directly-Qn-the-tendon-pQrch---------------------[0019] Together, clamp 14, flex bearing 16 and base 18 comprise tendon top connector 48.

[0020] In FIG. 2, the tendon assembly shown in FIG. 1 is illustrated with tendon tensioning tool 30 attached. Messenger line 42 (connected to the LAJ via messenger line adapter 46) may assist in the installation of tendon tension tool 30 on LAJ 10 of tendon 28. As will be appreciated by those skilled in the art, the apparatus illustrated in the drawing figures is below the waterline of the TLP on which it is installed. Accordingly, messenger line 42 may act to guide tendon tensioning tool 30 during installation and removal.

[0021] Tendon tensioning tool 30 comprises hydraulic cylinders 32 ₅ containing hydraulic rams 34 which act against plate 36 so as to apply

.......................additional tension to tendon 28 - i.e., more tension than that due to the.......... buoyancy of the TLP applied via the load path comprising tendon porch 26, lower load ring 24, load cell 22, upper load ring 20 and flex bearing 16. The net resuit of the additional tension applied by tendon tensioning tool

30 is a réduction in the load borne by the top connecter slips 15.

[0022] The upper portion of tendon tensioning tool 30 temporarily functions as a tendon top connector during portions of the process.

[0023] Also shown in FIG. 2 is removable supplémentai buoyancy module 40 attached to tendon 28 at a point below tendon porch 26. In certain embodiments, supplémentai buoyancy module 40 has means for adding or releasing a gas (which may be air) to displace or admit water into the interior chamber(s) of supplémentai buoyancy module 40 thereby adjusting its buoyancy.

[0024] In certain embodiments, top clamp actuation means for the top ₂₀ clamp is provided in the tendon tensioning tool. Top clamp actuation tools of the prior art normally fit in the same interface area where the tendon tensioning tool must react on the top of the top clamp body. This makes ------------use_QtbQth_an_actuatiQn_tooLancUa-tendon-tensioning-tool^t-same-time— impossible. Providing top clamp actuation means in the tendon tensioning tool overcomes this problem.

[0025] The exemplary, illustrated embodiment of the invention comprises the following steps:

[0026]. Step 1: Supplémentai buoyancy module 40 is attached to tendon 28 undergoing flex bearing 16 replacement; [this state is illustrated in FIG.

2]

[0027] Step 2: Air is added to buoyancy module 40 to take/apply force greater than the in-water weight of tendon 28;

[0028] Step 3: The buoyancy of the TLP is adjusted to reduce the tendon tension in the tendons at the particular corner of the TLP at which flex element replacement is required;

...........- ....................[0029] Step 4: Tension is applied to the tendon (undergoing flex element.......

........_:___removal-)-between-th.e-top-of-th.eLexpo.s.ed-tendon-topLand-the_tQp_jaf_the__ tendon top connector, using tendon tensioning tool 30;

[0030] Step 5: The tendon top connector 48 is unlatched;

[0031] Step 6: A temporary spacing device 44 is inserted between tendon 28 and the interior of tendon porch 26 (to keep tendon 28 from rubbing on porch 26 while the top clamp is removed; [this state is illustrated in FIG. 3]

[0032] Step 7: The tendon top tension is reduced by slacking off on ₁₅ tendon tensioning tool 30 until weight in water of tendon 28 carried by buoyancy module 40; [this state is illustrated in FIG. 5]

[0033] Step 8: Tensioning tool 30 is removed; the tendon top connector is removed and flex element 16 is replaced; [this state is illustrated in FIG.

4]

[0034] Step 9: The tendon top connector (or, alternatively, a

2o replacement top connector) is placed onto tendon porch 26 (with the replacement flex bearlng 16); —

[0035] Step 10: Tendon tensioning tool 30 is installed; tension is applied to tendon 28 by reacting against the top of the tendon top connector;

[0036] Step 11 : Temporary spacing device 44 is removed;

[0037] Step 12: Air is released from supplémentai buoyancy module 40;

[0038] Step 13: The tendon tension is adjusted with tensioning tool 30 to match adjacent tendon(s) and the tendon top clamp is engaged; [starting position shown in FIG. 5]

19042 8 __________________ [0039] Step 14: Supplémentai buoyancy module 40 is removed; [0040] Step 15: The tendon tension is checked and tendon tension reapplïed with tensioning tool 30 and adjustment of the top clamp, if necessary; and, 5 [0041] Step 16: Tendon tensioning device 30 is removed. [returning the .................................system to the state i 11 ustrated in FI G. 1 ]........—......................................................................................................................
[0042] The foregoing présents particular embodiments of a system embodying the principles ofthe invention. Those skilled in the art will be able to devise alternatives and variations which, even if not explicitly 10 disclosed herein, embody those principles and are thus within the scope of the invention. Although particular embodiments of the present invention hâve been shown and described, they are not intended to limit what this patent covers. One skilled in the art will understand that various changes and modifications may be made without departing from the scope of the ₁₅ present invention as literally and equivalently covered by the following claims.

i

Claims

What is claimed is:

1. A method for replacing a tendon flex bearing on a tension leg platform (TLP) having a tendon with a length adjustment joint (LAJ) secured to a tendon porch on the TLP by

5 means of a top clamp having releasable slips comprising:

.................................installing a tendon tensioninq tool on the LAJ;.................................................. ....................... ...........

--------attaching a supplémentai buoyancy module to the tendon;----applying tension to the tendon with the tendon tensioning tool sufficient to release the slips from the top clamp;

10 adjusting the buoyancy of the supplémentai buoyancy module;

releasing tension applied to the tendon with the tendon tensioning tool; removing the tendon tensioning tool from the LAJ; and, removing the tendon flex bearing.

15
2. The method recited in claim 1 wherein installing the tendon tensioning tool on the LAJ comprises installing the tendon tensioning tool above the top clamp.
3. The method recited in claim 1 wherein attaching the supplémentai buoyancy module to the tendon comprises attaching the supplémentai buoyancy module below the tendon 20 porch.

4. The method recited in claim 1 wherein adjusting the buoyancy of the supplémentai buoyancy module comprises increasing the buoyancy of the supplémentai buoyancy module sufficiently to support the tendon vertically in the sea.

’ 19042 ΙΟ 5. The method recited in claim 1 further comprising installing a spacer between the tendon and the tendon porch. 6. The method recited in claim 5 wherein the spacer is an annular spacer. 5 7. The method recited in claim 1 wherein installing a tendon tensioning tool on the LAJ...................... comprises installing a messenger line on the LAJ. 10 8. The method recited in claim 1 wherein the tendon tensioning tool comprises an actuation tool configured to disengage the slips from the length adjustment joint. 9. The method recited in claim 1 wherein the tendon tensioning tool comprises at least one hydraulic cylinder. 15 10. The method recited in claim 9 further comprising monitoring the tension applied to the tendon by the tendon tensioning tool by measuring the pressure within the at least one hydraulic cylinder. 20 11. The method recited in claim 1 further comprising: adjusting the buoyancy of the TLP to reduce the tension in the tendon. — 12. The method recited in claim 1 further comprising: reducing the tendon tension by slacking off the tendon tensioning tool until the in-water weight of the tendon is borne by the supplémentai buoyancy module. 25 13. The method recited in claim 1 further comprising:

reinstalling the tendon tensioning tool after replacement ofthe flex bearing; and, applying tension to the tendon by reacting the tendon tensioning tool against the top clamp.

5 14. The method recited in claim 13 further comprising: decreasing the buoyancy of the supplémentai buoyancy module.

15. The method recited in claim 14 further comprising: adjusting the tendon tension using the tendon tensioning tool to equal the tension in an adjacent tendon. 10 16. The method recited in claim 15 further comprising: removing the supplémentai buoyancy module; reapplying tension to the tendon using the tendon tensioning tool; and, adjusting the top clamp. 15 17. The method recited in claim 15 further comprising: removing the supplément buoyancy module; and, removing the tendon tensioning tool. _______20___1-8_T-he-meth.od-rB^CLtedJnxlairπJXwJneœin_r.emovlngjL·eJterLdon_tensiΏning_tQQl___ comprises guiding the tendon tensioning tool with a messenger line attached to the tendon.