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1、RISER/CONDUCTOR PROGRAMME - BASIS OF DESIGN GOALS1. Provide a structural foundation for the BOP stack so that it can stand under its self-weight when the riser is disconnected.2. Support all casing strings required in the well3. Survive the bending loads imposed by the rig in drift-off drive-off sit
2、uationsRISER/CONDUCTOR ASSUMPTIONS the conductor will be set by drilling and cementing either 30” or 36” can be used 2m stick-up is the starting point for the design Drillquip wellhead with Vetco H4 15m profileRISER/CONDUCTOR DEVIATIONSNone notedRISER/CONDUCTOR DESIGNcompliance with API provisionsSC
3、OPE OF WORK1. Obtain well, metocean and soils data for input to the design.2. Obtain Rig equipment and BOP data from drilling contractor and to design company.3. Design company to provide cost estimate for the study, including scope for discussions with drilling contractor and operator.4. Design com
4、pany to perform bending load calculations of the rig in drift-off drive-off conditions for 30 and 36” conductor operations.5. Operator to work with drilling contractor and marine specialist company e.g. Global Maritime to determine interaction between rig and conductor limitations upon station keepi
5、ng criteria.Revision HistoryVersion DateDetail of Change 2.0 30-Mar-0014-Feb-00 Initial draft for review by design company.Based on data for the chosen well area and a location report, a typical shallow sediment lower bound soil profile would be developed: e.g;- very soft clay 5 kPaUnit II = 5.0 to
6、10m- 5 kPa at 5.0m increasing linearly to 300 kPa at 10m (boulder clayUnit III = 10m to 70m- 300 kPa (boulder clayThe submerged unit weight for Unit I was assumed to be 9 kN/m3, and for Units II and III 12 kN/m3.Extract from design companys memorandum.For the well location anchoring analyses we assu
7、med two soil profiles which would cover the probable range in the soil conditions typical for the area and the performance of other anchoring operations in the surrounding blocks. We also reviewed the available data presented in the paper Soils Investigations, offshore mid Norway: A case study of gl
8、acial influence on geotechnical properties. The profiles adopted for the anchor analyses were:Profile 1 - LowerboundUnit I = 0.0 to 0.5m - very soft clay 5 kPaUnit II = 0.5 to 50m - 5 kPa at 0.5m increasing linearly to 150 kPa at 50mProfile 2 - UpperboundUnit I = 0.0 to 2.0m - very soft clay 5 kPaUn
9、it II = 2.0 to 10m - 5 kPa at 2.0m increasing linearly to 500 kPa at 10m (boulder clay Unit III = 10m to 40m - 500 kPa (boulder clayI have since reviewed the limited geotechnical data available form the well which was drilled. This indicated that the soils were very soft to approximately 5m below mu
10、dline, with no recorded bit load, thereafter the soils became very hard and the drilling was very slow over the top 100m. This would point to Profile 2 being more representative of the soils encountered, with the modification that the surface very soft clay layer should be extended from 2.0m to 5.0m
11、. The submerged unit weight for Unit I was 9 kN/m3, and for Unit II 12 kN/m3. It should also be noted that the stronger boulder clays do contain boulders probably up to 0.5m in diameter. Boulders have been noted in other wells drilled in the area. If the strength data in profile 2 does not extend de
12、ep enough, then the strength of 500 kPa could be used to a depth of the order of 70m. It is possible that the strengths in Profile 2 are still slightly upperbound, but they represent the best data we have available at the moment.Best RegardsGeotechnical EngineerExample Well Location; Metocean Criter
13、iaFor Mooring AnalysisGeneralThis note is issued to summarise the design metocean criteria for the above mooring analysis in the general well location area. As there are no site-specific information at present, the criteria are based on regulatory authority derived criteria for the general area for
14、winds and currents, whereas the waves are largely based on the regional area criteria. The wind criteria are a little more severe than predicted for other areas.100 year return period criteria should be used for analyses unless otherwise agreed with BP Amoco.WindsOmnidirectional wind speed extremes
15、(in m/s at 10 m above sea level are.Return Period (Yrs 1 hour 10 Min 1 MinDirectional values for 1 hour means in m/s at 10m are.Direction from 1 Year 10 Year 100 Year SectorN 23.8 28.5 34.0 13.8%NE 20.9 25.0 30.5 6.2%E 20.3 25.0 30.5 13.0%SE 25.0 30.0 35.0 8.0%S 26.5 32.0 38.0 21.9%SW 31.0 35.0 38.5
16、 12.3%W 26.0 31.0 36.5 17.7%NW 26.7 31.7 36.5 7.1%The relevant monthly extremes are below, values from this table are recommended to be used for the appropriate months when the well will be drilled in 1999.Return PeriodWavesThe design wave data for all year and individual months are shown below. We
17、have factored the monthly extremes to ensure that the “worst” month (January is the same as the all year value. Hs and Hmax values are in meters, the period parameters, Tz and Tp are in seconds.The directional Hs values are shown below. The directional notation used is from which the waves are comin
18、g.Hs (mDirection from1 Year 10 Year 100 YearSpectraThe JONSWAP spectrum is expected to be an adequate spectral model within the following range.3.6Hm0 Tp 5Hm0For directional Hmax requirements it is recommended to use a factor of 1.9*Hs (based on regulatory rules.CurrentsCurrent speeds are in m/s. Om
19、nidirectional values for various depths are in the table below. The exact depth at the location is not known, therefore assume that the “400m” data apply to the elevation approx. 1m above the seabed.Depths (m 1 Year 10 Year 100 YearDetailed directional and seasonal information is not immediately ava
20、ilable for this location. However, the available NDP Voring Plateau measurements indicate that the highest current speeds are all generally setting towards the north, generally along the bathymetric contours.Metocean SpecialistProduction New VenturesField Access and DevelopmentRig Name: 5th Genratio
21、n drillship. Contractor: Rig Manager:Address: Tel: Fax: Email:Figure AIII-1 shows the conductor system and critical components.Figure AIII-2 shows the riser configuration.Riser-System Equipment Data Lower Flex-JointRotational Stiffness: 5423 Nm/Slick Riser (75 JointLength: 22.86 mOutside Diameter: 0
22、.5334 m Wall Thickness: 0.01905 mMaximum Hydrodynamic Diameter (incl. choke/kill lines, etc.: 1.240 m Joint Weight in Air (incl. choke/kill lines, etc.: 147400 N Joint Weight in Seawater (incl. choke/kill lines, etc.: 128200 NSlick Riser (35 JointLength: 10.67 mJoint Weight in Air (incl. choke/kill
23、lines, etc.: 81110 N Joint Weight in Seawater (incl. choke/kill lines, etc.: 70560 NSlick Riser (15 JointLength: 4.57 mJoint Weight in Air (incl. choke/kill lines, etc.: 46730 N Joint Weight in Seawater (incl. choke/kill lines, etc.: 40660 NBuoyant Riser (75 JointLength: 22.86 mOutside Diameter: 0.5
24、334 m Wall Thickness: 0.01905 m Foam Outside Diameter: 1.397 mJoint Weight in Air (incl. choke/kill lines, etc.: 227900 N Joint Weight in Seawater (incl. choke/kill lines, etc.: 2541 NTermination SpoolLength: 3.048 mOutside Diameter: 1.524 m Weight in Air: 169300 N Weight in Seawater: 147300 NInterm
25、ediate Flex-JointLength: 3.048 mOutside Diameter: 1.194 m Rotational Stiffness: 18980 Nm/ Weight in Air: 87880 N Weight in Seawater: 76460 NKeel Transition JointLength: 4.572 mOutside Diameter: 0.5842 m Wall Thickness: 0.05080 m Weight in Air: 29970 N Weight in Seawater: 26080 NTelescopic Joint (Lower BarrelLength: 20.39 mOutside Diamet
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