Field permeability testing (Lefranc/Lugeon) in Cairns

Cairns sits at the foot of the Macalister Range, where annual rainfall pushes past 2,000 mm and the wet tropics cycle groundwater through fractured metamorphics and deep residual clays at a rate few other Australian cities experience. In our experience, a desk‑study permeability value lifted from a generic table collapses the moment you hit a decomposed granite lens or an open joint set in the Barron River metamorphics. That is why we run field permeability tests — Lefranc in soil, Lugeon in rock — to measure hydraulic conductivity directly in the borehole, under the actual hydraulic gradient the foundation or excavation will see. When a Cairns project involves a basement in Edge Hill or a stormwater infiltration trench in Redlynch, the test pits crew often calls for a permeability profile before anyone pours concrete. The numbers from a properly executed falling‑head or constant‑head test, interpreted with the Hvorslev shape factor, turn a guess into a defensible design parameter.

A Lugeon value of 1 Lu may look tight on paper, but in a Cairns excavation it can still deliver enough flow to slake a chlorite‑rich schist face within hours.

Service characteristics in Cairns

The geology along the Cairns coastal plain is dominated by deeply weathered metasediments and Quaternary alluvium, with groundwater commonly within two to three metres of the surface during the wet season. A Lefranc test here rarely runs the same way twice: in a silty clay with sand partings, we might use a constant‑head method with a Mariotte bottle, while in a clean sand pocket a rising‑head test gives cleaner data. The Lugeon method, run as five‑stage pressure tests in bedrock, maps the transition from laminar flow to fracture dilation to wash‑out — a pattern we encounter often in the Barron Valley granodiorites. Every test is logged to AS 1726 with the packer depth, test interval, water take, and the calculated Lugeon unit, so the in‑situ permeability profile can be read directly onto the geotechnical model. Where the ground is too soft for a drill rig, we have run Lefranc tests inside hand‑augered boreholes in mangrove‑fringe sites near Trinity Inlet, using a piezometer tip to isolate the test section.

Field permeability testing (Lefranc/Lugeon) in Cairns — in‑situ hydraulic conductivity for tropical ground conditions

Parameter	Typical value
Test standard	AS 1726.5 (field permeability), Hvorslev method
Soil test type	Lefranc — constant‑head or falling‑head
Rock test type	Lugeon — five‑stage pressure sequence (0.5–5 bar)
Typical test depth range in Cairns	2 m to 35 m below ground level
Groundwater condition	Shallow; wet‑season water table often within 1.5–3.0 m
Reporting output	Hydraulic conductivity k (m/s) and Lugeon units (Lu)
Packer type for rock	Single or double pneumatic packer, NQ or HX size
Quality assurance	NATA‑accredited laboratory for calibration of flow‑meter and pressure transducers

Typical technical challenges in Cairns

Cairns expanded rapidly after the Bruce Highway upgrade in the 1970s pushed residential development onto lower‑lying alluvial flats that had previously been swamp forest. Many of those suburbs — think Woree, Portsmith, Earlville — sit on interbedded silty clays and sands that hold water like a sponge. We have seen retaining wall designs fail at council review because the permeability was assumed rather than measured; a Lugeon test in the underlying Dinden Schist often reveals fracture‑flow anisotropy that a simple grain‑size correlation misses. The real risk is not just seepage volume but internal erosion. In stratified ground, a Lefranc test at three elevations within the same borehole can show a ten‑fold variation in hydraulic conductivity over less than a metre. For deep excavations near the Mulgrave River, combining field permeability data with a slope stability analysis is the only way to get the depressurisation strategy right before the first cut.

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Applicable standards: AS 1726.5:2018 — Geotechnical site investigations (field permeability methods), AS 4678:2002 — Earth‑retaining structures (drainage and seepage design clauses), AS/NZS 1170.0:2002 — Structural design actions (groundwater and flood load combinations), Hvorslev (1951) — Time lag and soil permeability in groundwater observations, U.S. Army Corps of Engineers

Our services

Field permeability work in Cairns nearly always pairs with other investigation techniques because the hydraulic conductivity number alone does not tell you how the ground will behave under sustained flow. Below are the two services we most frequently run alongside Lefranc/Lugeon testing in this region.

Coupled permeability and SPT drilling

We run a Lefranc test immediately after an SPT split‑spoon drive in the same borehole. The SPT drilling provides the stratigraphic control and relative density, while the permeability test gives the flow parameter — together they let the design engineer check for critical combinations of loose saturated sand and high conductivity that flag a liquefaction or piping risk.

Permeability profiling for retaining wall drainage design

In Cairns' clayey residual soils, a retaining wall backfill can trap water if the permeability contrast between fill and natural ground is not measured. We run Lefranc tests at the proposed wall alignment and feed the k‑profile directly into the retaining wall drainage design, selecting a filter gradation and weep‑hole spacing that matches the measured, not assumed, hydraulic conductivity.

Q&A

What is the difference between a Lefranc test and a Lugeon test?

A Lefranc test measures hydraulic conductivity in soil, typically over an uncased borehole interval of about 0.5–1.0 m, using either a constant‑head or falling‑head method. A Lugeon test is designed for rock: water is injected under pressure into an isolated interval sealed by a packer, and flow is measured over a five‑stage pressure sequence. In Cairns we often run both in the same borehole — Lefranc through the residual soil and Lugeon once we hit fresh rock — so the full permeability profile is continuous.

How much does field permeability testing cost in Cairns?

For a single Lefranc or Lugeon test set up within an existing borehole, budget roughly AU$940 to AU$1,860 per test interval, depending on depth, access, and whether a packer system and additional water supply are required. A full day of testing with multiple intervals and mobilisation will sit at the upper end or beyond that range.

Can a Lefranc test give reliable results in tropical residual clay?

Yes, provided the test section is properly isolated and the analysis accounts for the Hvorslev shape factor. Cairns residual clays often contain relic jointing and sand seams that create preferential flow paths; running the test at multiple depths and comparing falling‑head and constant‑head results helps identify whether the measured value represents matrix flow or a connected fracture network.