Permeability of samples from TRNT range from 3 × 10−18 to 6 × 10−

Permeability of samples from TRNT range from 3 × 10−18 to 6 × 10−13 m2 (Table 4). The geometric mean of the 16 core samples tested is 7 × 10−15 m2. Two samples were tested on both the liquid

and gas permeameter. Gas permeability (kgas) measurements were higher than the liquid permeabilty (kliq) estimates for both samples. For the higher permeability SSK21143A, kgas = 2kliq. For the less permeable SSK21149A, kgas = 3.5kliq. selleck chemical The expected kgas/kliq ratio, due to the Klinkenberg effect of gas slippage, is < 2, for sedimentary rocks with kliq > 10−16 m2 and 2 for when kliq < 10−16 m2 ( Tanikawa and Shimamoto, 2006). Other mechanisms may contribute to increased discrepancy between liquid and gas permeability, particularly in samples containing clay ( Faulkner and Rutter, 2000). Gas permeability

of dried samples containing clays like smectite will be higher than liquid permeability BKM120 chemical structure of saturated samples due to the swelling. However, agreement to within half an order of magnitude for separate permeability measurements is probably in line the tests’ repeatability tolerance. While this makes it difficult to assign any discrepancy to gas slippage effects or clay swelling it does provide justification for interpreting liquid and gas measurements together. Though identifying the deposit type that the samples are derived from is difficult, we have subdivided them into three broad types: Lava, Block and Ash, and Lahar (Fig. 18). The 10

samples categorised as Block and Ash are predominantly monolithic, containing fragments of andesite lava in a crystal rich to fine silt matrix. The Block and Ash samples show great variation in measured permeability, ranging from 3 × 10−18 to 4 × 10−13 m2 with a geometric mean of 4 × 10−15 m2. Lahar deposit samples are distinguished from Block and Ash Interleukin-2 receptor by their polylithic nature, containing fragments of pumice as well as differently types (colours) of lava. The lahar samples tested have a geometric mean permeability 7 × 10−14 m2. Lava refers to the samples that are composed of a single crystalline lava block. The four samples are of two very different types. The lavas from 27 and 28 m depth are highly vesiculated mafic clasts with geometric mean (gas) permeability of 5 × 10−13 m2; the more andesitic clasts from 62 to 65 m depth have a significantly lower geometric mean gas permeability of 3 × 10−16 m2. There is no discernible relationship between permeability and sample depth, suggesting that the sample lithology is the most import factor determining permeability. Of the volcaniclastic samples, cores with higher permeabilities (above 1 × 10−14 m2) are generally those with a matrix composed of coarser, less altered crystals or those that contain fractures. Cores with finer, more altered matrix material tend to exhibit reduced permeabilities, below 1 × 10−15 m2. Resources were limited to providing permeability tests for samples from just one borehole.

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