Engineering Analysis

Pipeline & HDD Engineering Analysis

Free reference calculators for horizontal directional drilling and pipeline design — built on ASME B31.4/B31.8, API 1102, ASTM, and PRCI standards. Each opens directly in the Pipeline Planning Toolbox with your project data.

🗺️ Map View and HDD Profile1

HDD Profile Designer & Route Map

Design HDD bore profiles and pipeline alignments on an interactive 50-state map with 60+ environmental, utility, and subsurface layers, paired with a vertical profile showing entry/exit angles, bend radius, and depth of cover.

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🔩 Installation & Drilling Operations7

HDD Pilot Hole Geometry Verification

Verify as-drilled HDD pilot-hole curvature, bend angles, and minimum radius against design tolerances to confirm the path is drillable and within allowable pipe strain — per ASCE MOP 108 and ASTM F1962.

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HDD Water Use Analysis & Drilling Fluid Volume Estimator

Estimate the total water and drilling-fluid volume for an HDD pilot hole and reaming passes from borehole geometry, soil type, and mud-recycling efficiency — for water sourcing and disposal planning per ASCE MOP 108.

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Auger Bore Thrust Force & Casing Stress Analysis

Calculate jacking thrust force and casing stresses for horizontal auger-bore installations, including soil-skin friction and end bearing — per ASCE MOP 106 for horizontal auger boring.

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Open Cut Buried Pipe Load Analysis

Evaluate earth (overburden) and live (traffic) loads on a buried pipe installed by conventional open-cut trenching, including bedding, deflection, and backfill conditions — per AWWA M11 and ASME B31.4/B31.8.

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Lowering-In Stress Analysis (API RP 1117)

Evaluate bending, tensile, and combined stresses in a pipeline during lowering-in from the right-of-way into the trench — accounting for sag, hold-down positions, and sideboom spacing — per API RP 1117 and ASME B31.4/B31.8.

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Blowdown Thrust Force Analysis

Calculate the reaction thrust generated by venting pressurized gas through an open end during blowdown — used to size restraint, thrust blocks, and personnel exclusion zones per ASME B31.8 and API Std 521.

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Pipeline Buoyancy Control Analysis

Size set-on/bolt-on river weights and their spacing, or continuous concrete weight-coating thickness, to offset pipe buoyancy in flooded bores, water crossings, and submerged service — per PRCI guidance, ASCE MOP 108, and ISO 21809-5.

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⚙️ Stress Analysis4

HDD Operational Stress Analysis

Calculate combined axial, bending, and hoop stresses on an in-service pipe after HDD installation, including residual curvature and external overburden loading — per ASCE MOP 108 and PRCI PR-227-9424.

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HDD Pullback Force Analysis

Free online HDD pullback force analysis. Estimate the pull-back tension to install a steel or PE pipe by horizontal directional drilling — fluid drag, borehole friction, buoyancy, and capstan effects per ASCE MOP 108 and PRCI PR-227-9424.

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Pipe SMYS & Hoop Stress Analysis

Pipe SMYS analysis for steel line pipe. Compute hoop stress, %SMYS, and maximum allowable operating pressure (MAOP) from OD, wall thickness, grade, and design factor using Barlow’s equation — per API 5L and ASME B31.4 / B31.8.

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PE Pipe HDD Stress Analysis (HDPE)

Evaluate tensile pull-back load, bending strain, and external-pressure collapse for polyethylene (PE/HDPE) pipe installed by HDD — per ASTM F1962 and PPI TR-46.

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🕹️ Pullback Operations3

Maximum Allowable Pullback Force Analysis

Calculate the maximum allowable pullback force and minimum allowable bend radius that keep combined HDD installation stresses within code limits for steel and PE pipe — per ASCE MOP 108, ASTM F1962, and PRCI.

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Pullback Cradle & Roller Support Spacing Analysis

Determine roller-cradle spacing on the HDD staging/pullback side so the pipe string’s bending stress and sag stay within allowable limits before bore entry — per ASCE MOP 108.

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Pipe Support Span & Spacing Analysis

Calculate the maximum distance between pipe supports from allowable bending stress, deflection, and self-weight plus contents, for aboveground or temporary support conditions — per MSS SP-69 and ASME B31.1.

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📊 Soil Analysis2

Hydraulic Fracture (HFIR) Analysis

Predict the maximum allowable downhole annular fluid pressure to avoid hydraulic fracture of the soil and inadvertent returns (frac-out) during HDD — using the Delft (Luger–Hergarden) method and PRCI guidance.

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Pipeline Settlement Analysis

Estimate ground-surface settlement above an HDD bore from volume loss and soil disturbance along the alignment, using the Peck (1969) settlement-trough method and ASCE MOP 108 guidance.

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🚧 Crossings4

API 1102 Crossing Analysis (Highway & Railroad)

Online API 1102 analysis for steel pipelines crossing highways and railroads. Compute earth load and cyclic wheel/rail live-load stresses (Cooper E-80) for cased and uncased crossings per API RP 1102.

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Uncased Pipeline Crossing Analysis

Check barrel, circumferential, and longitudinal stresses for uncased pipeline crossings under roadway and rail loading, with impact and depth-of-cover effects — per API RP 1102 and ASME B31.8 / B31.4.

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Highway Wheel Load Analysis

Evaluate buried-pipe stresses from highway vehicle wheel loads, including dynamic impact factor and load distribution through cover soil — per API RP 1102 and AASHTO LRFD.

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Railroad Track Load Analysis

Evaluate buried-pipe stresses from railroad live loads (Cooper E-80 or equivalent) beneath tracks, including impact and load-cycle effects — per API RP 1102 and the AREMA Manual for Railway Engineering.

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💧 Hydrotest4

Minimum Hydrotest Bend Radius Analysis

Find the minimum allowable bend radius during hydrostatic testing that keeps combined hoop plus longitudinal stress below the code-specified percentage of SMYS — per ASME B31.4 and B31.8.

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Potential Impact Radius (PIR)

Calculate the Potential Impact Radius (PIR) around a gas pipeline — the area of significant thermal impact from a full-bore rupture — for integrity management and High Consequence Area (HCA) classification per ASME B31.8S.

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Hydrotest Water Volume Analysis

Hydrotest water volume analysis for pipelines. Estimate fill volume, test pressure, and static-head corrections across the elevation profile for hydrostatic test planning — per API RP 1110, ASME B31.4 / B31.8, and 49 CFR.

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Hydrostatic Pressure-Change Analysis

Relate hydrostatic test pressure change during the hold period to air entrainment, temperature drift, and leak volume — to distinguish thermal effects from a real leak, per API RP 1110 and ASME B31.8 Appendix N.

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📚 Informational Hub6

Line Pipe Specifications Viewer

Searchable reference of standard steel line-pipe dimensions, wall thicknesses, weights, and grades for quick lookup during design — based on API 5L and ASME B36.10M.

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Minimum HDD Length

Calculate the minimum surface-to-surface HDD length needed to reach a target depth of cover given entry/exit angles and minimum allowable bend radius — per ASCE MOP 108.

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Trenchless Technology Methods Reference

Reference overview of trenchless installation methods — HDD, auger boring, microtunneling, and pipe ramming — with selection criteria by soil and site conditions, per ASCE MOP 108 and MOP 106.

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HDD Drilling Equipment Reference

Reference guide to HDD rig classes, mud systems, reamers, and downhole tooling by bore diameter and ground condition — per ASCE MOP 108.

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Geotechnical Soil Interpretation Reference

Reference for interpreting geotechnical boring logs, USCS soil classifications, and the parameters most relevant to HDD and trenchless design — per ASTM D2487 and ASCE MOP 108.

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Bentonite Yield Calculator

Free bentonite yield calculator for HDD drilling fluid. Estimate mud yield in barrels per 100 lb of bentonite from mix ratio, water chemistry, and viscosifier content for pilot-hole and reaming passes — per API 13A / 13B-1.

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