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8/12/2019 7 Oil Based Muds
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1Agip KCOWell Area Operations
Drilling Supervisors Training Course Drilling Muds RPW2021A
OIL BASED MUDS
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Drilling Supervisors Training Course Drilling Muds RPW2021A
Nowadays, the common name of these systems is non-
aqueous drilling fluids N.A.D.F. or simply non-
aqueous fluids NAF . They generally include:
OBM (Oil Base Mud)
• Conventional Inverted Emulsion
• Relaxed Filtrate Inverted Emulsion
• All-Oil
SYNTHETIC BASED MUD
- Ester
- PAO (Poly Alpha Olefine) from Ethylene
- ETHER
- ACETAL
- LAO (Linear Alpha Olefine)
- IO (Internal Olefine)
- LP (Linear Parafine)
OIL BASE MUDS
Base Oil:
Diesel Low Toxic
Mineral Oil EMO (Enhanced Mineral Oil)
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The advantages of OBM for drilling and completion fluids can be resumed as follows:
• Clays don’t hydrate and swell
• Wellbore stability is improved
• Reduced problems in salts and anhydrite formations
• Reduced wellbore enlargement
• Stabilized mud properties
• Increased resistance to contaminants• Reduced problems when productive sandstone contains clays
OBM gives also some undesirable characteristics:
• Flammability• Compounds that cause failure in rubber goods (o-ring, pumps and BOP elements)
• Not great carrying capacity
• Gas solubility
OIL BASE MUDS
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Inverted Emulsion Fundamentals
Inverted Emulsion Drilling Fluids are a mixture of two immiscible liquids:
Oil (or synthetic) and water. Water is the dispersed phase and the oil is the continuous phase.
Water is broken up into small droplets and uniformly dispersed in the oil (or synthetic) and prevented
from coalescing by surfactants. To adequately emulsify the water in oil, there must be sufficient
chemical emulsifier to form a film around each water droplet. The smaller the water droplets, the
stronger in stability the emulsion. In addition, uniform droplet size make the emulsion more stable
OIL BASE MUDS
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(cont’d)
To obtain droplets which are small and uniformed in size, energy in form of shear is required.
For this reason, the best way to prepare a stable OBM is to use high pressure pump (Triplex) and
special high shear device in mud pits. The stability is improved when the mud is circulating through the
bit jets.
If water content is increased in the system:
• the size of water droplets increases
• the P.V. increases
• the stability decreases
If oil content is increased in the system:
• the stability increases
• the density decreases
OIL BASE MUDS
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SYNTHETIC FLUIDS
The synthetic fluids have the same behaviour of conventional oil-based mud
• Properties – There are some differences that may be desirable peculiarities (+) or may cause
usage problems (-) between the synthetic fluids and conventional oil-based muds.
a) Synthetic fluids are more expensive than oils used in the conventional OBM; (-)
b) Synthetic muds are more biodegradable and disperse more rapidly into the sea water (+)
OIL BASE MUDS
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OIL BASE MUDS
c) The synthetic muds are more viscous at ambient temperature but they loose viscosity more
rapidly as the temperature increases; (-)
d) Synthetic muds do not have great thermal stability; (-)
e) Synthetic muds do not hydrate like the other OBM; (+)
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OBM - INTRODUCTION
An oil-based fluid is a drilling fluid in which the oil represents the continuous phase while water
the discontinuous phase. Solids in this kind of mud are oil wet, all additives are dispersible and
emulsifiable and the mud filtrate is oil. Water is emulsified in the oily phase.
Oil-base muds have an oil continuous phase and they have been formulated to be without water
in the preparation and use.
The inverted emulsion systems are oil-based muds that must incorporate variable quantities of
water from average to high, usually, oil/water ratio is 60/40 – 70/30 large annular section, 80/20 –
90/10 in 81/2 – 6’’ phases.
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Clay stability
Oil-base muds are the most suitable to drill water soluble clays. If prepared with the correct
salinity, these muds can prevent water migration from mud to clay (Osmosys). The water
migration through the semi permeable oily membrane, happens from the lower salinity to the
higher salinity. Sometimes, water can be absorbed by clay and problems could arise regarding
the consolidation of the clay formation to be drilled. Water can also follow the inverse migration
(with too high salinity) with consequent troubles for the stability of the clay formation. The ideal
would be a salinity which would prevent water migration from the mud to the clay and the inverse
migration that would cause the dehydration. This is called “balanced activity”. The correct salinity
is generally determined by experience in the field. Clay cores not alterated by oil-based mud (non
contaminated clay corings) are necessary for a correct determination of the optimal salinity.
OIL-BASE MUDS APPLICATIONS
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• Rate of Penetration – Oil-base muds usually offer better rate of penetration performance
compared to water base muds. Moreover, they guarantee an excellent clay stability. The filtrate of
the inverted emulsion muds, contains a high oil value and reducing consumption of the additives
to control the filtration. These fluids do not use the primary emulsifiers as they can decrease the
ROP but they are not as stable as conventional inverted-emulsion muds. The relaxed muds are
particularly fit for drilling with PCD bits.
OIL-BASE MUDS APPLICATIONS
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• High Temperature – The advantage of Oil-base is to allow the drilling of formations where the
bottom hole temperature exceeds the maximum tolerance for water-base muds, especially in
presence of contaminants. The oil-based muds have been used, up to a temperature of
approximately 290°C. Moreover, oil-based muds can be prepared to guarantee a good thermal
stability for long periods of time. This is an advantage compared to water-based muds that in
extreme conditions can deteriorate and cause loss of viscosity, filtrate, corrosion phenomena and
barite settling.
OIL-BASE MUDS APPLICATIONS
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Drilling into a salt formation –Oil-base muds contribute to the formation of “gauged holes”, (holes
with the same diameter as the drilling bit) because they do not wash the salt formation away. Salt
addition to the emulsion water phase, will prevent a further dissolution of salt in water. On the
other hand, water-base muds even if saturated or oversaturated do not ensure dissolution of salt
from the formation.
Coring fluids – Particular oil-based muds are excellent fluids for native state coring, with low
changes to the formation wettability properties. These muds are generally without water and as a
consequence, they need only small quantities of emulsifiers. The emulsifiers for oil-based muds
usually increase the oil wettability dramatically therefore, they can affect the formation. The oily
fluids for coring, do not increase the water content of the core, allow the correct determination of
the water saturation level of the formation
OIL-BASE MUDS APPLICATIONS
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Completion fluids (packer fluid – to ensure the hydrostatic charge) – Completion fluids, are
planned to be stable for long periods of time even if exposed to high temperature. The extended
thermal stability of the oil-based muds is due to the choice of additives which are extremely
resistant to high temperatures. Moreover, as the continuous phase is oil, the corrosive
phenomena are minimal compared to the water-based muds at the same conditions. If well
prepared, the completion oil-based muds, can keep the weighting material in suspension for long
period of time.
OIL-BASE MUDS APPLICATIONS
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Lubrication- Oil-base muds are particularly suitable for highly deviated or horizontal wells
because of their high lubrication properties. The oil-based muds, increase the lubrication and
decrease the possibility of stuck pipes. Oil-base muds create a thin filter cake and the friction
between the drill string and the well wall is minimized reducing the stuck pipe risk
OIL-BASE MUDS APPLICATIONS
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Low pressure pores – The capacity of drilling formations with low hydrostatic pressures is easily
obtained through the oil-based muds because the density of these muds can be kept at a lower
level than water-muds. The density can be lowered till 0,88Kg/L.
Corrosion control –The drill string corrosion is minor because the continuous phase of theemulsion is made of oil and this creates a film on the pipes surfaces. The oil offers an exceptional
protection against corrosion because of its non-conducting nature. As long as the pipe is coated
with oil, the formation of corrosion cells is impossible. Moreover, because of the excellent thermal
stability of the products used, there’s no formation of degradable corrosion products.
OIL-BASE MUDS APPLICATIONS
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Reuse of the oil-based muds – The oil-based muds can be reutilized many times. They can be
stored for long periods without bacterial activity development. The oil-based muds can be
regenerated before their usage, reducing the percentage of solids using the solid removal
equipment instead of dilution.
OIL-BASED MUDS APPLICATIONS
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• The initial oil-based mud cost, especially for some formulations based on mineral or synthetic oils
is high. However, it is possible to counterbalance the cost through Service Companies specialized
in mud hiring or firms that sell and repurchase the mud after the use.
• A gas kick is more difficult to detect because of the high solubility of gases in oil based mud.
OIL-BASED MUDS DISADVANTAGES
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• Oil-base muds are expensive when we have partial or total loss of circulation during all well
operations
• Great attention is given to the environmental problems linked to the use of oil-based muds. The
problem of drilling cuttings removal, the loss of mud and the oil-based muds removal at the end of
the works.
OIL-BASED MUDS DISADVANTAGES
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• It is necessary to take precautions to avoid contact with the skin and to avoid the inhalation of oil-
base mud vapours which can cause allergic reactions a/o irritations.
• Oil-base muds, can damage the rubber parts of the circulation system and require the use of
special oil-resistant rubbers.
OIL-BASED MUDS DISADVANTAGES
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• Oil-base muds have a high fire risk because of the low flammability point of the vapours
developed by the mud. Mineral and synthetic oils have a higher flammability point than diesel and
crude oil.
• Modifications and extra drilling equipment to minimize mud losses on the surface are required, in
particular for Offshore and Onshore operations.
OIL-BASED MUDS DISADVANTAGES
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• The "electric logs" operations must be modified using oil-based muds. The latter, are non-
conducting and as a consequence, some of the logs do not work properly in these muds.
• Oil-base muds have a higher compressibility than water-based muds. As a consequence, there
can be strong variations between the density measured on the surface and at the bottom.
(Proportional at the vertical depth and at the higher temperature)
OIL-BASED MUDS DISADVANTAGES
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• Primary Emulsifiers The calcium soaps are primary emulsifiers for oil-based muds. These are
prepared in the mud because of reaction between lime and long chain fatty acids (from C-16 to C-
22). The soaps emulsions are strong emulsifiers agents but their time of reaction must be
considered before the emulsion completion. Oil wetting agents will prevent solids from being
wetted by water while the emulsion is forming. The emulsifiers will surround the water nebulizeddrops preventing their assembling.
OIL-BASED MUDS PRODUCTS DESCRIPTION
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• Secondary emulsifiers – They are high oil-wetting power chemical products. Usually, theseproducts are not directly involved in the formation of the emulsion like the primary emulsifiers but
they wet with oil the solids before the emulsion. Their task is to prevent solids from wetting with
water. Such additives are polyammides or imidazoline.
OIL-BASED MUDS PRODUCTS DESCRIPTION
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• Organophilic lignites – These are used at high temperatures like additives for the filtration
losses. Moreover, they help the emulsion process of water especially at high temperatures. Such
lignites are pre-treated with amines to make them water-repellent. The loss of filtration control, is
obtained through plugging (plugging of the formation pores) and can be used up to high
concentrations without causing an excessive increment of viscosity till about 55 g/L (20 lb/bbl).
OIL-BASED MUDS PRODUCTS DESCRIPTION
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• Asphalt ic additives to control filtration loss – Usually, they are represented by gilsonite or
asphalt derivates (up to 205°C). The asphalt is not so stable (up to 175°C). High concentrations of
these additives can cause an excessive viscosity and mud gelation. Therefore, the treatment
usually do not exceeds the 44 g/L (15lb/bbl).
OIL-BASED MUDS PRODUCTS DESCRIPTION
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• Organophilic clays or gellings – Viscosity is due to materials such as, bentonite, hectorite or
attapulgite which are pre-treated with amines to be compatible with the oily phase of mud.
Bentonite is the most used and it is compatible with mineral oils up to a temperature of
approximately 175°C. For higher temperatures, in particular with mineral oil-based muds, hectorite
should be used. The organophilic attapulgite, is usually used to improve the suspension capacity
of the packer fluids without increasing viscosity.
OIL-BASED MUDS PRODUCTS DESCRIPTION
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• Wetting agents – Supplementary agents to rapidly wet the solids, that were water wetted, with oil.
The drilling cuttings and weighing components are usually water wettable and the wetting agents
(oil-wetting) must remove water from solids and replace it with an oil film.
OIL-BASED MUDS PRODUCTS DESCRIPTION
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• Polymers Viscosif iers – Additives which increase oil-based mud viscosity in presence of
organophilic bentonite. They are used especially when the bentonite performance is reduced by
high temperatures. These viscosifiers, ensure good performance up to approximately 205°C. The
polystyrene sulphonate at high molecular weight becomes effective only when temperatures are
higher than 120°C.
• Rheolgical modifiers – Low molecular weight fatty acids. They cause the viscosity increasing at
low speed from 3 to 6 rpm of the fann viscosimeter. Barite can sag or skid downwards, in
particular this problem can occur in deviated wells. These additives reduce or remove this
problem. These additives does not create problem of viscosity increasing (since they affect only
the reading at 3 and 6 RPM).
OIL-BASED MUDS PRODUCTS DESCRIPTION
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• Weighting materials – They are added to weight up oil muds. Barite is the weighting agent most
frequently used. It allows a density of 2.5 kg/L (21 lb/gal). Using hematite that can increase
density as well, a 2.9 kg/L (24 lb/gal) density can be reached. For equal densities, an oil-base mud
weighted with hematite will have a solids content lower than one weighted with barite because of
its minor specific weight (4,2 vs 5,0).
OIL-BASED MUDS PRODUCTS DESCRIPTION
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Flash Point of Flammabili ty Point – It is a measure of the oil volatility. The higher the flammability
point, the lower the risk for the oil to flare up. The flammability point changes according to the age
of the same oil. The aging is due to the progressive evaporation in the atmosphere, of the most
volatiles oil components.
Water addition to mud, will cause an increase in the mud flammability point compared to the base
oil. The flammability point should be higher than 65°C.
CHARACTERISTICS OF BASE OILS
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• Aniline point – It is an indicator of the relative content of the oil aromatic components. These are
particularly harmful for the rubber parts of the circulation system. The aniline point should be
about 60°C (140F).
CHARACTERISTICS OF BASE OILS
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• Base-oil viscosity – It is a measure of the base-oil viscosity. Crude oil will have high viscosity
values because of the high content of asphalts, while the refined oils such as diesel and mineral
oils will have very low viscosities. Salt water and solids addition will increase the oil viscosity.
However, the viscosity of an oil-based mud is proportional to the oil-base viscosity. Usually,
lowering mud viscosity causes an increasing in the penetration speed.
CHARACTERISTICS OF BASE OILS
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• Aromatic content – A measure of the aromatic substances content or similar to benzene, in oil.
These components affect the oil toxicity. The higher the aromatic content, the more toxic the oil
becomes and consequently the more toxic the mud produced from it is. The majority of mineral
oils used in the muds preparation, have an aromatic content lower than 1% in weight.
CHARACTERISTICS OF BASE OILS
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The types of base oils used for the preparation of muds are described as follows:
1) Diesel – It is the most common base oil used in the last 50 years. In the last 10 years, it has been
changed from low toxic and extra low toxic refined oil with a very small amount of aromatics
components.
- Density: 0-83 – 0.86 SG
- Viscosity: 3-4 centistokes at 106°F
- Flash Point: 150°F (65-5 °C)
- Pour Point: 14°F (-4°C)- Aniline Point: 149°F (65°C)
- Aromatics Content: 18-30%
2) Crude Oil – Crude oil can be used instead of diesel in those areas where diesel is not sufficiently
available for the preparation and maintenance of the mud.Crude oils have a flammability point and combustion temperature lower than refined oils.
Crude oil has usually a higher viscosity than diesel. As a consequence, the mud viscosity will be
greater.
TYPES OF BASE OILS USED
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• The aniline point of crude oils, is generally low and this can cause the deterioration of the rubberparts of the circulation system.
• Crude oils can have impurities and as a consequence, an increasing of the emulsionant
concentration is necessary. Therefore, perform pilot test is important in order to determine the
most correct mud formulation.
• In the last years, the use of crude oil is very limited because of environmental and health
motivations
TYPES OF BASE OILS USED
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Refined Oils –Refined oils such as diesel and kerosene are the most frequently used for the
preparation and maintenance of oil-base muds.
• Test the diesel aniline point to determine if deterioration problems of the rubber parts could arise.
• Some diesel can have additives which can lower the freezing point and can affect the emulsionant
used for mud preparation.
• The aromatic content of Diesel is higher than in mineral oils. These components affect the toxicity
of the oil-based mud.
TYPES OF BASE OILS USED
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Mineral oils – Mineral oils have a lower aromatic content. Therefore, they are less toxic than diesel.
• The flammability point of mineral oils is higher than diesel. They are safer especially for high
temperature applications.
• The viscosity of mineral oils is lower than diesel and crude oil. This will affect the viscosity of the
oil-base mud.
• Density: 0.80 – 0.86 S G
• Viscosity: 2-3 centistokes at 106°F
• Flash Point: 210 °F (99°C)
• Pour Point: - 0.4 °F (-18°C)
• Aniline Point: 169 °F (76°C)
• Aromatics: 1-15%
TYPES OF BASE OILS USED
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• Mineral oils have a low aromatics content (<1.0%) compared to diesel. As a consequence, from
an environmental point of view, their usage is more suitable. Moreover, the low aromatics content
is an advantage for the safety of the crew because they are less dangerous in case of contact.
Low toxic mineral oils such as the ESCAID110 (EXXON), have an aromatics content lower than
0.1%. Mineral oils do not contain surfactants which can modify the formation wettability.
Enhanced Mineral Oils (EMO)
These are highly purified mineral oils having lower PAH content (Phenantrene)
• Density: 0.81 S.G
• Viscosity: 3-4 centistokes
• Flash Point: >239°F (115°C)
• Pour Point: -74°F (-59°C)
• Aniline Point: 194°F (90°C)
• Aromatics: NIL
• Aromatics PAH: 0.001%
TYPES OF OILS USED
S O S O S S
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• Synthet ic fluids – Base oils in the synthetic fluids, are organic compounds of non-petroleum
origin which behave, in drilling operations, in the same way as the oils derived from petroleum but
they are rapidly biodegradable in the ocean.
Synthetic muds are inverted emulsions with the external or continuous phase represented by the
synthetic oil and the internal phase by salt water (brine). Different synthetic fluids mainly with
chain lengths between C16 and C24 have been introduced on the market in recent years
TYPES OF BASE OILS USED
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PRODUCT FOR OBM AND FUNCTION
DeflocOMCSurf CoteVersa ThinOil-base muds thinner
TruplexX-VisCarbo VshtVersa HRPPolymer viscosifier
InterdrillRm 63Six-UpVersa ModRheology modifier
O.W.DriltreatSurf CoteVersa WetWetting agent
TruvishtBentone 38Carbo Gel ———— Organophilic Hectorite
TruvisGeltone IICarbo VisVg-69Organophilic Bentonite
Trudrill SBarablokCarbo TrolVersa Trol Asphalt ic Flagilsoni te
NaDuratoneCarbotrol A9Versa LigOrganolignite
FlEz mulCarbo MulVersa CoatSecondary emulsionant
EmulInvermulCarbo Tec LVersa MulPrimary emulsionant
DowellBaroidBaker-Hughes
InteqM-IFUNCTION
Comparative table of the products for oil-based muds
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0.064 – 0.0610.150 – 0.1360.265 – 0.249WATERDISPERSED PHASE
M-I PRODUCT CONCENTRATION lb/bbl (Kg/m3)
Mud Density: ppg (kg/l)
*in this system the secondary emulsionant is also the wetting agent.
504 (1440) – 557 (1590)226 (644) – 333 (950)23 (65) – 104 (306)BARITEWEIGHTING AGENT
1-1.5 (2.8-4.3)2-3 (5.5-8.5)2-4 (5.5 -11)VG-69ORGANOPHILIC CLAY
9 (26)8 (23)7 (20)LIME ALKALINITY PROVIDER
8-9 (23-26)7 (20)5 (14)VERSA TROLFLUID LOSS AGENT
2-3 (5.5-8.5)1-2 (3-5.5)1-2 (3-5.5)VERSA COAT*SECONDARY
EMULSIONANT
8-9 (23-26)8-9 (23-26)7 (20) 7 (20)VERSA MULPRIMARY EMULSIONANT
8 (23) – 7.5 (21)18.5 (53) 16.8 (48)33 (94) – 31 (88)CaCl 2SALT (FOR BRINE)
0.584 – 0.5580.609 – 0.5520.625 – 0.588BASE OILCONTINUOUS PHASE
O/W RATIO 90/10
205°C (400°F)
D=17 (2.04) – 18 (2.16)
O/W RATIO 80/20
150°C (300°F)
D=14 (1.44) – 14 (1.68)
O/W RATIO 70/30
TEMP. 95°C (200°F)
D=8.5 (1.02) – 10 (1.2)PRODUCTFUNCTION
EXAMPLE OF CONVENTIONAL I.E. OBM
IN THIS CASE VERSA SYSTEMS M-I
OIL-BASED MUD PREPARATION (COMPOSITION)
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1. Add the necessary quantity of the type of oil chosen.
2. Add the primary and secondary emulsifier as requested.
3. If requested, add the additives for the filtrate control.
4. Add the opportune quantity of lime Ca(OH)2.
5. Add the quantity of water needed, if salt water must be used (brine), add it always after the lime.
6. Add the quantity of viscosifier needed.
7. If salt brine is not available, use calcium chloride in powder form or, if not available, add calcium
chloride in scales to water and add it as salt water (brine) .
8. Mix for several hours to ensure a good emulsion.
9. Add the weighting materials to reach the required density.
• Electrical stability and filtration control will improve after use, thanks to the mixing energy
generated by the circulation.
MIXING PROCEDURES
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• The weight of an oil-based mud, oscillates between 0.9 Kg/L (7.5 lb/gal) till 2.6 Kg/L ( 22 lb/gal).The bottomhole density is more consistently affected by temperature and pressure conditions
than water-based muds. The temperature increasing will decrease the mud density because of
thermal expansion phenomena, while the high pressure will increase the density compressing
the oily phase.
OIL-BASED MUDS PROPERTIES
OIL BASED MUDS PROPERTIES
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• Viscosity is influenced either by temperature and pressure. As the temperature increases, the
viscosity decreases. On the other hand, the pressure increasing causes a viscosity increasing.
Marsh viscosity, is strongly influenced by temperature conditions. This kind of measurement,
however, has an indicative function and it is not used for the determination of possible treatments.
Usually, the rheological properties of mud are controlled through a rotary viscosimeter. The plasticviscosity, yield point and gel strenght are measured (according to the pseudoplasitc rheological
model) with a rheometer. A most accurate analysis of the mud rheology, is done according to the
“Power Law” model. Drilling cuttings and weighting materials in suspension are monitored through
the analysis of the gel strength for static settling or through reading at 3 or 6 rpm for dinamic settling.
OIL-BASED MUDS PROPERTIES
OIL BASED MUDS PROPERTIES
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• Rheological tests on oil-based mud must be done at the bottom hole temperature as the plastic
viscosity of these muds is very sensible to temperature variations. In general, the higher the
temperature, the lower the plastic viscosity. If necessary, plastic viscosity can be decreased through
the solids control equipment (decreasing the solids content) or diluting the mud with the oil.
• The yield is quite influenced by the temperatures in which tests are made. However, the dependence
of the yield point on temperature is even more stressed above 175°C. The yield point can be
increased with organoliphic clay, or water while it may be lowered through wetting agents polymers
for oil, fluidizing or diluting with oil. The gel strength behaves like the yield point. It increases adding
organoliphic clays water or rheological modifiers and on the other hand, it will decrease with the use
of wetting agents, fluidizers and diluting with the base oil
OIL-BASED MUDS PROPERTIES
OIL BASED MUDS PROPERTIES
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• Electric stability it is the measure of the tension applied to the electrodes inserted in the mud
sample at the emulsion breaking. The electrical stability depends on the quantity of water present.
The higher the water quantity, the lower the value of the electrical stability. The presence of solids
conductor or insoluble salts, brings a low E.S. (electrical stability) value. The new E.S. gaugers
(sinusoidal wave) ensure higher reproducibility and reliability. The values checked by the new
instruments are approximately the half of the value of that obtained by the old ones.
• A decay of the E.S. values indicate that the emulsion stability is failing and usually, emulsionants and
lime addition is necessary.
OIL-BASED MUDS PROPERTIES
OIL BASED MUDS PROPERTIES
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• The HPHT filtration is done at bottom hole temperature conditions to determine: the state of the
emulsion, the filtrate volume and the quality of the filter cake. Water in the filtrate can indicates the
emulsion decay. Thick filter cakes and high loss of filtration are index of an excessive drilling solids
content. Operate lowering the filtration through agents for the filtration control, emulsifiers and lime.
OIL-BASED MUDS PROPERTIES
OIL BASED MUDS PROPERTIES
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• The determination of the calcium and sodium chlorides contents, is carried out on mud. A new
method of analysis , for this test, has been recently established by API to determine each type of salt
and its insolubility in the mud. The undissoluted calcium chloride may cause water wettability
problems and should be reduced adding water or oil-based mud without salt in their water phase.
The presence of sodium chlorides can be removed in the same way but this is not the cause of the
same solids wettability problems.
OIL-BASED MUDS PROPERTIES
OIL BASED MUDS PROPERTIES
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• The lime analysis determines the excess of lime in the mud. Lime is essential for the formation of the
emulsion when fatty acids, such as emulsifiers are used.
• The calcium content decreasing can be the signal of acid gas presence such as H2S or CO2 or mud
degradation because of high temperatures.
• Water activity or the relative oil-based mud humidity, is determined with an hygrometer. However, it
does not detect insoluble salts presence.
OIL-BASED MUDS PROPERTIES
OIL-BASED MUDS PROPERTIES
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• The percentage of oil/water/solids is determined with a distiller, which operates till a temperature
of 345°C (650°F). The results must be precise especially in order to determine the salinity correctly.
Even a small mistake in the determination of the water content can cause great differences in the
analysis of salinity.
• Sulphures presence in an oil-based mud is measured with the “Garrett gas train”. A sample of the
whole mud (not filtrated) is used. The zinc oxide is the preferred compound in the treatment of
soluble sulphures. Moreover, with H2S presence it is necessary to increase the lime quantity.
OIL-BASED MUDS PROPERTIES
TROUBLESHOOTING OIL MUDS
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TROUBLESHOOTING OIL MUDS
Remove low density solids through the solid removal
equipment a/o through dilution. Increase the O/A (O/W if the
water content should be too high. Add oil-wetting agents toreduce viscosity.
High viscosity
Add water, emulsifiers and gellants. If the temperatures arehigh use polymeric viscosifiers. The products listed affect
low-shear viscosity: the yield point and the gel strength
instead of plastic viscosity.
Low viscosity
SIGNALS AND SOLUTIONSPROBLEM
TROUBLESHOOTING OIL MUDS
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Remove the water wet solids and add oil-wetting agents
(invert the wettability). Be sure that insoluble calcium chloride
is not in the mud. Water wettability solids, obstruct the
screens and bring low E.S. values (electrical stability). Water
wettability solids easily dissolve in water.
Water wettability solids
SIGNALS AND SOLUTIONSPROBLEM
TROUBLESHOOTING OIL MUDS
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Water wettability solids, inadequate concentrations of
emulsionants or lime, in relationship with the emulsionant
and some weighting agents (such as the hematite) cause low
E.S. values. In all these situations, apart from hematite, we
operate through chemical treatments. The majority of muds
prepared with mineral oils will have lower E.S. values than
the values in which diesel was used. In general, low density
muds, have a low E.S.
Low E.S.
SIGNALS AND SOLUTIONSPROBLEM
TROUBLESHOOTING OIL MUDS
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Mud viscosity will become high while the electrical stability
will decrease even if the emulsionant concentration will be
adequate. Improve the treatment for solids removal. Usedouble centrifuges to remove drilling cuttings, recovering
barite and the oily phase.
High concentration of
drilled solids (Low gravity)
SIGNALS AND SOLUTIONSPROBLEM
TROUBLESHOOTING OIL MUDS
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Add emulsifiers in case of presence of water on the filtrate.
The organolignite will emulsify the water and will decrease
the filtrate. Ensure excess of lime in the mud. New oil-base
muds formulations can have high HPHT until they areproperly sheared and stabilized. Sometimes, even small
quantities of water can lower the HPHT in the high
percentage muds O/A(O/W). The organolignite are not
effective when the bottom hole temperature is lower than
65°C (150°F).
High Filtrate
SIGNALS AND SOLUTIONSPROBLEM
TROUBLESHOOTING OIL MUDS
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They are detected in the mud because of alkalinity and lime
values drop. If the Garret gas train test detects the H2S
presence, to compensate the alkalinity decreasing, add lime.
Continue the lime addition and add specific decontaminants
for sulphures such as zinc oxide. If CO2 is present, add lime.
Acids Gas
SIGNALS AND SOLUTIONSPROBLEM
TROUBLESHOOTING OIL MUDS
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If the loss is partial, use oil-wettable fibrous material or
obstructing solids materials like calcium carbonate. Use the
same technique for the losses of filtration and mud and
minimize the thickness of filter cake to avoid the differentialsticking. If the loss is total, you could squeeze (cement under
pressure) with organoliphic clays (D.O.B or D.O.C.); cement
or convert to a water-base mud untill the leak area will be
covered by the casing
Mud losses
SIGNALS AND SOLUTIONSPROBLEM
TROUBLESHOOTING OIL MUDS
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After a period of inactivity, free oil can gather on the surface.
Shake the mud in the tank or add organophilic clay to
increase viscosity.
Free oil on the surface
SIGNALS AND SOLUTIONSPROBLEM
OIL-BASED MUDS CALCULATIONS
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The following series of calculations show how to increase or decrease the oil/water (O/A) percentage
of an oil-base mud. If you add water to an emulsion O/A, the percentage will decrease. If it is
necessary to increase it , add oil. The quantity of oil needed to increase the O/A percentage can be
calculated as follows:
• Increase the O/A percentage – add oil
(% oil + X) / (% water) = O/W (desired)
OIL-BASED MUDS CALCULATIONS
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• On the other hand, if you want to decrease the O/A percentage, then you have to add water to the
emulsion according to the following equation:
• Decrease the O/A percentage- add water
(% water + X) / (% oil) = O/W (desired)
OIL-BASED MUDS CALCULATIONS
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Example:
Mini Still analysis (retort): 52% of oil in volume
10% of water in volume
How much oil is necessary to have a percentage O/A of 88/12
Hence:
( 52 + X)/10 = 88/12
( 52 + X)/10 = 7.33
X = 21.3%
= 21.3 L of oil/100 L of mud (0.213 bbl oil/1 bbl mud)
OIL-BASED MUDS CALCULATIONS
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Example: (cont’d)
Volume = 100 L of mud + 21.3 L of oil = 121.3 L (1 bbl mud + 0.213 bbl oil = 1.213 bbl)
Convert the percentages to the final volume of 100 L divide respectively the volumes of mud and oil
for the resultant volume and multiply for 100 L mud / 121.3 * 100 L= 82 L of mud (1 bbl mud /1.213
bbl = 0.82 bbl mud)
21.3 L oil / 121.3 L * 100 = 18 L oil (0.213 bbl oil / 1.213 bbl = 0.18 bbl oil)
GAS SOLUBILITY IN OBM
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• Gas solubility in oil-base muds is many times greater than water-based muds
• Gas kick phenomena won’t have an expansion, raising through the hole as in water-based muds.
• In the kick out phenomena, during the circulation, the gas is in solution and will have little effect on
the circulating pit level or on the casing pressure.
• When the gas expands from the mud, a rapid increase in the level in the mud tank and of the casing
pressure occur.
GAS SOLUBILITY IN OBM
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• Gas solubility in the mud, is function of the oil quantity in the mud. After having reached the
saturation level, further gas influx, will generate gas kick phenomena similar to the ones in the
water-base muds.
• Because of gas solubility in the oil-based muds, the pressure at the casing (annulus
drillstring/casing) won’t be much higher than the pressure in the drillstrings. This difference of internal
pressure drillstrings/annulus, appear immediately when the gas cushion does not dissolve but
expands at once like water muds. The expansion of the cushion reduces the density at the annulus
and at the same time the pit level increases. These two phenomena in the oil-based mud are
attenuated and they explode in the final phase of the circulation
GAS SOLUBILITY IN OBM
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• A reliable and sensible level sensor in the tank detects the smallest variations in the mud volume is
the best gas kick indicator. All signals must be treated like gas kick. Do not mixed up by possible lowannulus pressures (like in case of oil or water flowing).
• If you want to use an oil-based mud you should have a special degasser able to separate big
volumes of gas from mud.