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Unconventional Hydrocarbon Resources (PE 413) Shale Gas Hydraulic Fracturing Dr Bijaya K Behera Professor School of Petroleum Technology 1

UHR 5 Hydraulic Fracturing

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Unconventional Hydrocarbon Resources

(PE 413)

Shale GasHydraulic Fracturing

Dr Bijaya K Behera Professor

School of Petroleum Technology

1

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Acknowledgement

Dhruva Dhankher

Ayush

Nitin Chaudhary

Harsh Vora

Sunil Kumar

Gaurav Tomar

Chanchal Chakrachhatri

Sharanya Gantla

Ayush Mishra

Swetha Gokavarapu

Yash Malani

Yashaswini Nallaparaju

Mayank Jhunjhunwala

Abbasi Soni

Mayank Sharma

B. Tech Petroleum Engineering, 2009 Batch

Pandit Deendayal Petroleum University, Gandhinagar

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What is Hydraulic Fracturing?

Hydraulic fracturing is the process of pumping a fluid into a

wellbore at an injection rate that is too high for theformation to accept in a radial flow pattern that exceeds thebreakdown pressure of the formation that is open to thewellbore.

 Once the formation “breaks-down”, a crack or fracture is

formed, and the injected fluid begins moving down thefracture.

Fluid that does not contain any propping agent, often called“pad”, is injected to create a fracture that grows up, out and

down, and creates a fracture that is wide enough to accepta propping agent. The purpose of the propping agent is to“prop open” the fracture once the pumping operationceases.

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Rock formation properties

To begin with, we first of all need to find out thegeophysical and geo-mechanical properties of thetarget formation by :

1. log analysis

2. core analysis3. well testing

The important properties that we need to Know are :

1. Young’s modulus 4. Permeability2. Bulk modulus 5. Porosity

3. Poisson’s ratio  6. Saturation

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Hydraulic Fracturing Process

Steps of Hydraulic Fracturing Process

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FRACTURE LENGTH

Fracture length defines the extension of the fracture in the

formation.

The fracture length orientation depends on the poisons ratio of the

formation.

 If the formation is bounded by other formations having higherpoisons ratio then the fracture length would be much longer than

the fracture width.

Calculation of fracture length

2-D Models

3-D Models

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Where,

Xf = Productive fracture half length, E’= Plane strain modulus, Vi = Volume of fluid injected, hf  = Fracture height, 

 b N = Nolte method intercept,  pc = Closure pressure,

Rf = Radial fracture radius 

Closure Stress/pressure: Closure stress/pressure is the pressure at which the

fracture effectively closes without proppant in place. The closure stress at a

given depth is the sum of overburden pressure and pore pressure.

PKN: Perkins&Kern, 1961 and Nordgren, 1972Model (PKN ) without leakoff test• KGD: Khristianovic and Zheltov, 1955; Geertsma and de Klerk, 1969 

FRACTURE LENGTH

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FRACTURE CONDUCTIVITY

• Fracture conductivity is the product of fracture permeability and

propped fracture width left after the fracture has closed.

• Dimensionless fracture conductivity is a key design parameter in

well stimulation that compares the capacity of the fracture to

transmit fluids down the fracture and into the wellbore with the

ability of the formation to deliver fluid into the fracture.

• C  fD=kf w/kFxf

 x  f  is the fracture half-length,

k  f  is the fracture permeability, and

w is the fracture width

kF is the formation permeability

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Water Based Fluid

• Economical, readily available, easily viscosified and yields increased Hydrostatic head

• Includes low viscosity “slick water” with low proppant conc. and high pump rates creatinghighly complex fractures in gas reservoirs.

• cross-linked fluid with increased mol. wt. resulting from tying together various polymermolecules into a structure through metal-chelate cross linkers is an advancement of water

based fluids.

Oil Based Fluids

• Mostly it is a reaction product of Aluminium Phosphate Ester and Base, typically NaAlO2

• Requires a great deal of technical capability and quality control

• Primary disadvantages are fire hazards and pumping friction

Alcohol Based Fluids

• Methanol and isopropanol provides low surface tension, miscibility with water andcompatibility with water sensitive formation

• Drawbacks are inherent danger to person breathing alcohol fumes and danger ofcombustion

TYPES OF FRACTURING FLUIDS

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TYPES OF FRACTURING FLUIDS

Emulsions Based Fluids

• Highly viscous solutions with good transport properties and fluid loss control

• Water external emulsion are easy to mix and pump and have tendency to achieve frictionreduction with polymers

• Oil external emulsions yields high friction pressure related to high oil viscosity and lack offriction reduction

Foam Based Fluids

• Simply a gas in liquid emulsion where gas bubbles provide high visco and excellentproppant transport capabilities

• Minimises the amount of fluid placed on the formation and improves fracturing fluidrecovery by inherent energy of gas

• Applications are in shallow, low pressure wells and water sensitive formations

New Generation Fluids

• VES base fluid uses surfactants in combination with inorganic salts creating orderedstructures which increases viscosity and elasticity

• Extension of VES fluid tech is VES foams which can be formed with N2 or CO2

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ADDITIVES USED IN FRACTURING FLUID

Sr. No. Additive Function

1 Polymers Used to viscosify the fluid.

2 Cross-linkers Used to change the viscous fluid to a

pseudo-plastic fluid.

3 Biocides Used to kill bacteria in the mix water.

4 Buffers Used to control the pH of the fracture

fluid.

5 Surfactants Used to lower the surface tension.

6 Fluid-Loss additives Used to minimize fluid leak-off into the

formation.

7 Stabilizers Used to keep the fluid viscous at high

temperature.

8 Breakers Used to break the polymers and crosslink

sites at low temperature.

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SELECTION OF FRACTURE FLUIDS

• Low leak-off rate.

• Ability to carry the propping agent.

• Low pumping friction loss.

• Easy to remove from the formation.

• Compatible with the natural formation fluids.

• Minimum damage to the formation permeability.

• Break back to a low viscosity fluid for clean up after

the treatment.

The properties that any Fracturing fluid should possess:

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PHYSICAL PROPERTIES AFFECTING PROPPANT

PERFORMANCE

The propping

agent qualitiesthat haveconsistently

proven effective inachieving

proppant packs of

high permeabilityand good integrity

are:

• Small, rounded particles

• Uniform size (narrow mesh distribution)

• High degree of sphericity

• High compressive strength

• High degree of roundness

• Consistent density• Stability at reservoir temperature

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TYPES OF PROPPANTS

1. Sand

2. Ceramic Sand

3. Sintered Bauxite

4. Resin coated sand

5. Intermediate strength proppants

6. Light weight ceramic proppant

7. High strength proppants

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PROPPANT SELECTION CRITERIA

• Compatibility with reservoir fluids and reservoir rock

• Compatibility with reservoir pressure (e.g., Foams to

aid flow back in low-pressure reservoirs)

• Surface pump pressure or pipe frictionconsiderations

• Cost

Compatibility with other materials (e.g., Resin coatedproppant)

• Safety and environmental concerns

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The usual proppants used are listed

below in accordance with the closure

stresses:

 – Frac Sand (<6,000psi)

 – Resin-Coated Frac Sand (<8,000psi)

 – Intermediate Strength Ceramics (<10,000psi)

 – High Strength Ceramics (<15,000psi)

( this is illustrated in fig 2 as well )

PROPPANT SELECTION CRITERIA

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PROPPANT SELECTION CRITERIA

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PROPPANT TRANSPORT

• Modes of proppant transport

 – Simple settling

• Governed by Stoke’s law

Where,v  fall  is the settling rate in ft/s,

d  prop is the average proppant particle diameter in in.,

μ is the fluidviscosity in cp, and

γ prop and γ fluid  are the specific gravity of the proppant and the fluid, respectively

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ENVIRONMENTAL ISSUES

• Water Consumption

• Sand and proppants

• Ground water contamination

• Toxic Chemicals and radioactive material

• Waste disposal

• Seismology and earthquakes

IMPACTS

• Recycling the fluid

• Isolating formation from fresh wateraquifers

• Underground injection treatment anddischarge

• Use of surface impoundments

REMEDIES

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TH NK YOU