Skills Guide

Offshore Geotechnical Engineering

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Domain expertise for offshore geotechnical analysis including soil classification, foundation design method selection, and sizing of geotechnical elements such as piles, anchors, and scour protection systems.

Sby Skills Guide Bot
Data & AIAdvanced
306/2/2026
Claude Code
#geotechnical#offshore-foundations#soil-mechanics#pile-anchor

Recommended for

Claude CodeData scientistData & analysis

Our review

Offshore geotechnical analysis domain expertise for planning soil investigations, selecting foundation design methods, and sizing geotechnical elements such as piles, anchors, and scour protection.

Strengths

  • Provides detailed soil classifications (USCS, Robertson CPT) with typical parameter ranges.
  • Offers clear decision trees for selecting bearing capacity, pile capacity, and anchor type methods.
  • Covers key standards like API RP 2GEO, DNV-RP-C212, DNVGL-RP-E301 for compliant calculations.

Limitations

  • Does not replace detailed site-specific soil data and analysis.
  • Parameter ranges are indicative and may not cover complex geological conditions.
  • Does not perform advanced numerical simulations (e.g., FEM) but guides on applicable standard methods.
When to use it

Use when planning a preliminary offshore geotechnical analysis campaign or when quickly selecting appropriate standard design methods.

When not to use it

Do not use for final design calculations without validation by a geotechnical engineer and actual site data.

Security analysis

Safe
Quality score92/100

This skill is purely informational and does not include any executable commands, tool invocations, or network interactions. It provides domain expertise guidance for geotechnical engineering analysis, with no risk of unintended actions.

No concerns found

Examples

Pile capacity method selection
I'm designing a pile foundation in clay for an offshore platform in the Gulf of Mexico. What API RP 2GEO method should I use for shaft friction and what are the typical alpha values for su/σ'v ratio?
Soil classification from CPT data
Classify the following soil based on Robertson CPT: cone resistance qc=1.5 MPa, friction ratio Rf=3.5%, Ic=2.9. Provide the soil behavior type and typical undrained shear strength range.
Scour assessment guidance
For a pipeline in sandy seabed with current velocity 1.2 m/s, what is the expected maximum scour depth according to DNV-RP-F107? Provide the calculation formula and typical input parameters.

name: geotechnical-engineering version: "1.0.0" updated: 2026-02-26 category: engineering/marine-offshore description: | Domain expertise for offshore geotechnical analysis planning — soil classification, foundation design method selection, pile/anchor capacity, on-bottom stability, and scour prediction. tags: [geotechnical, soil, foundation, pile, anchor, scour, offshore] platforms: [linux, macos, windows] invocation: geotechnical-engineering depends_on: [] requires: [] see_also:

  • mooring-analysis
  • structural-analysis
  • marine-offshore-engineering

Geotechnical Engineering Skill

Offshore geotechnical analysis domain expertise for planning soil investigations, selecting foundation design methods, and sizing geotechnical elements (piles, anchors, mudmats, scour protection).

When to Use This Skill

  • Planning a geotechnical analysis campaign
  • Selecting bearing capacity or pile capacity methods
  • Choosing anchor type for given soil and loading conditions
  • Reviewing soil parameter derivation from CPT or borehole data
  • Mapping standards coverage for geotechnical calculations

Soil Classification Systems

USCS (Unified Soil Classification System)

| Symbol | Description | Typical su (kPa) | Typical φ' (°) | |--------|-------------|-------------------|-----------------| | CH | Fat clay | 20–200 | — | | CL | Lean clay | 10–100 | — | | ML | Silt | 5–50 | 25–30 | | SM | Silty sand | — | 28–34 | | SP | Poorly graded sand | — | 30–36 | | SW | Well graded sand | — | 33–40 | | GP | Poorly graded gravel | — | 35–42 |

Robertson CPT Classification (1990/2009)

| Zone | Ic Range | Soil Behaviour Type | |------|----------|---------------------| | 1 | — | Sensitive fine grained | | 2 | > 3.60 | Organic soils / peat | | 3 | 2.95–3.60 | Clays (clay to silty clay) | | 4 | 2.60–2.95 | Silt mixtures | | 5 | 2.05–2.60 | Sand mixtures | | 6 | 1.31–2.05 | Sands (clean to silty) | | 7 | < 1.31 | Gravelly sand to dense sand |

Method Selection Decision Tree

Bearing Capacity

Undrained (clay)?
  ├── Yes → Brinch Hansen general formula (DNV-RP-C212 Sec 5)
  │         Nc = 5.14 for strip, shape/depth/inclination factors
  └── No (sand) → Terzaghi/Meyerhof drained bearing capacity
                   Nq, Nγ from friction angle

Pile Capacity

Soil type?
  ├── Clay → Alpha method (API RP 2GEO Sec 6.4)
  │          f = α × su; α from su/σ'v ratio
  ├── Sand → Beta method (API RP 2GEO Sec 6.5)
  │          f = K × σ'v × tan(δ); K from Table 6.5.3-1
  └── Layered → Sum unit shaft resistance per layer

Anchor Type Selection

| Soil Type | Load Direction | Recommended Anchor | Standard | |-----------|---------------|-------------------|----------| | Soft clay | Catenary | Drag (Stevpris/Vryhof) | DNVGL-RP-E301 | | Soft clay | Vertical/taut | Suction caisson | DNV-RP-E303 | | Stiff clay | Catenary | Drag (high capacity) | DNVGL-RP-E301 | | Sand | Catenary | Drag anchor | DNVGL-RP-E301 | | Any | Vertical (TLP) | Suction/driven pile | API RP 2GEO | | Deep water | Taut leg | Torpedo/SEPLA | project-specific |

Typical Parameter Ranges

| Parameter | Symbol | Soft Clay | Stiff Clay | Sand | |-----------|--------|-----------|------------|------| | Undrained shear strength | su | 5–25 kPa | 50–250 kPa | — | | Friction angle | φ' | — | — | 28–40° | | Submerged unit weight | γ' | 4–7 kN/m³ | 7–10 kN/m³ | 8–11 kN/m³ | | OCR | OCR | 1–3 | 3–20 | 1–5 | | CPT cone factor | Nkt | 10–18 | 15–25 | — | | su/σ'v (NC clay) | — | 0.20–0.30 | — | — |

Standard Reference Map

| Standard | Key Sections | Topic | |----------|-------------|-------| | API RP 2GEO | Sec 6 (piles), Sec 8 (foundations) | Pile + foundation design | | DNV-RP-C212 | Sec 5 (bearing), Sec 6 (piles) | Soil mechanics | | DNV-RP-E303 | Sec 4–7 | Suction anchor capacity | | DNVGL-RP-E301 | Sec 3–5 | Drag/fluke anchor design | | DNV-RP-F109 | Sec 3 | Pipeline on-bottom stability | | DNV-RP-F107 | Sec 5 | Scour assessment | | ISO 19901-4 | Sec 7–10 | Foundation design | | API RP 2SK | Sec 6 | Mooring anchor requirements |

Module Import Paths

from digitalmodel.geotechnical.soil_models import SoilProfile, SoilLayer
from digitalmodel.geotechnical.piles import PileCapacityAnalysis
from digitalmodel.geotechnical.foundations import ShallowFoundation
from digitalmodel.geotechnical.anchors import AnchorCapacity
from digitalmodel.geotechnical.on_bottom_stability import OnBottomStability
from digitalmodel.geotechnical.scour import ScourPrediction

Related Skills

  • mooring-analysis — mooring system design consuming anchor capacity
  • structural-analysis — structural loads feeding foundation design
  • marine-offshore-engineering — general offshore engineering context

Version History

| Version | Date | Changes | |---------|------|---------| | 1.0.0 | 2026-02-26 | Initial skill — method selection, parameter ranges, standards map |

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