Core

Question 1

PP core analysis requirements

Answer 1

• Basic rock properties (porosity, permeability, fluid saturations, grain density)
• Saturation from capillary pressure
• Effect of stress and reservoir (production-induced) compaction/subsidence)
• Electrical properties and CEC
• Acoustic properties for AVO calculations

Question 2

Geological core analysis requirements

Answer 2

• Core description
• Facies analysis (also for SCAL sampling)
• Mineral identification
• Diagenesis and clay typing
• Depositional information
• Formation age
• Microscopic and x-ray analysis

Question 3

RE core analysis requirements

Answer 3

• Relative permeability parameters
• Capillary pressure curves
• Critical gas saturation
• Pore volume compressibility
• Flooding tests (such as hot water or steam flooding)

Question 4

PT core analysis requirements

Answer 4

• Well injectivity
• Sand control parameters
• Rock mechanical properties for fracture design
• Sieve analysis for gravel sizing
• Mineralogy for acid stimulation

Question 5

RCA measurements

Answer 5

• Residual fluid saturations at surface
• Atmospheric porosity
• Air permeability: horizontal and vertical
• Klinkenberg-corrected permeability (also have to correct for clay swelling using Hill-Shirley-Klein equation)
• Grain density
• Lithology

Question 6

SCAL measurements

Answer 6

• Stressed porosity and permeability
• m and associated FRF
• n and associated RI
• CEC or Qv
• Capillary pressure
• Wettability
• Relative permeability
• Residual oil saturation
• Mechanical rock properties such as compressibility
• Waterflood sensitivity for injectivity and well performance
• Acid solubility

Question 7

Wellsite considerations

Answer 7

• Coring bit type (low invasion face discharge coring bits are recommended especially for unconsolidated cores)
• Core type: conventional coring, containerized coring, preservation coring or wireline coring
• Liner type: aluminium (low friction coefficient, does not bend easily), fiberglass (low coefficient of friction, but cannot be used above 180degC and cannot be used in all drilling fluids), etc.
• Mud; SOBM results in best core recovery (good lubricity and shale stability)
• Drilling parameters (ROP, WOB, RPM)
• Overbalance controls; minimize invasion
• Core barrels
• Core jamming
• Bringing the core to surface
• Laying the core down; avoid core bending by using core cradle
• Core marking: red to the right when looking from bottom to top
• Core handling/preservation: freezing, resination, wax sealing?

Question 8

Core screening techniques

Answer 8

• Natural GR scan (pseudo GR)
• Spectral GR (U, Th, K concentrations)
• GR attenuation (pseudo bulk density)
• Probe permeametry (pseudo permeability)
• CT scan
• X-ray fluoroscopy (examination of sleeved unconsolidated material)

Question 9

Core screening purpose

Answer 9

• Depth matching

- Estimate degree of material homogeneity for sample selection

Question 10

Core sampling for RCA and SCAL

Answer 10

RCA: one per foot
SCAL: lithology-based

Question 11

Fluids used in plug drilling

Answer 11

• Fresh (or tap) water for clean sands and carbonates
• Brine for cores from high salinity environments
• Kerosene (or petrofree) for shales and halite-bearing samples
• Air for fluid saturation determination studies
• Liquid nitrogen for shales and when consolidation is questionable

Note: drilling using water will disturb the clays

Question 12

Name the technique used to clean consolidated samples

Answer 12

Removal of oil with hot solvent extraction (Soxhlett) technique. Salt is then removed by using methanol.

Solvent: azeotropic mixture (for e.g. toluene, chloroform)

Question 13

Describe the principle of cleaning unconsolidated samples

Answer 13

Frozen sample is mounted in a core holder and a confining stress of 30-50 bar is applied. The sample is allowed to thaw. After thawing, the sample is cleaned by cold solvent flushing with chloroethene and toluene alternately (or just chloroform), followed by methanol for salt removal.

Question 14

Describe oven drying of cores

Answer 14

Samples are dried in a vacuum oven at 95degC until constant weight is obtained.

Question 15

What is the purpose of Critical Point Drying (CPD)?

Answer 15

To preserve the structure of the clays in the pores. Delicate clay minerals such as fibrous illite could be damaged by oven drying, profoundly affecting (increasing) the air permeability of samples.

Note: This is not a real issue for samples from the oil leg because the irreducible water holds the clay in place already.

Question 16

Fluid saturations by Dean-Stark extraction

Answer 16

• Weigh sample + fluids, Wt
• Distillation of water from boiling solvent (toluene - immiscible with water)
• Chloroethene extraction to remove remaining oil
• Weigh dry core, Wd
• Water weight measured directly, Ww
• Calculate Wo: Wt = Wd+Ww+Wo

For OBM and above transition zone such that Sw doesn’t change. For WBM, can put tracer (deuterium) to quantify amount of invasion.

Question 17

What are needed to calculate atmospheric porosity?

Answer 17

Bulk volume, pore volume and grain volume (2 of 3)

Question 18

How to measure bulk volume?

Answer 18

• Buoyancy in mercury
• Mercury displacement (measuring the rise in mercury level)
• Caliper measurements

Question 19

How to measure pore volume?

Answer 19

Compare weights of dry and liquid-saturated sample

Question 20

How to measure grain volume?

Answer 20

• Buoyancy in chloroethene

- Helium expansion using Boyle’s Law

Question 21

How is grain density measured?

Answer 21

By using a pycnometer

Question 22

How is air permeability measured?

Answer 22

• Ruska permeameter (routine)
• Mini-permeameter
• Pressure pulse permeameter (for low permeabilities: <1mD)

Question 23

How is RI measured?

Answer 23

• Porous plate (No longer recommended - many manual handling steps)
• Continuous injection (Shell method - majority of pores is filled with oil in ~4 weeks. Can also yield oil-brine cap curve.)
• Pressure equilibrium (Considered most accurate but time-consuming (~6 weeks per sample). Also yields oil-brine cap curve.)

Note: Want sample to be oil-wet to better represent the reservoir (not always the case). Position of water in the pores depends on wettability, and resistivity depends on position (connectivity) of water, affecting n parameter.

Question 24

How is CEC measured?

Answer 24

• Membrane potential (relatively fast and very accurate)
• Multiple salinity (Co-Cw) (slow and expensive, but very accurate)
• Conductometric titration (not recommended - sample is crushed; likely to expose more CEC sites than in-situ)

Question 25

Name three core preservation techniques

Answer 25

• Resin stabilization
• Foam stabilization
• Freezing using dry ice (commonly used for unconsolidated core with high GOR oils; gas expansion creates sufficient free pore volume to accommodate expanding ice. Do not apply to shale material - causes significant microfissuring)

Question 26

What is the main purpose of sponge coring?

Answer 26

• To determine remaining oil saturation

Question 27

What is the main purpose of percussion SWC?

Answer 27

• For lithology and oil shows (fluorescence, Retort method)

[note: not suitable for grain size unless heavy oil is present to cushion the grains]

Question 28

What drying method is not recommended by Shell? Describe it.

Answer 28

Humidity controlled drying

• drying at 60degC and 40% relative humidity
• effective porosity only (retains CBW?)
• several days

Question 29

How to make core samples oil-wet?

Answer 29

• clean and dry
• saturate with brine
• desaturate and saturate with live crude (crude with gas)
• age at reservoir temperature for 40 days