eBook - ePub
Hydraulic Fracturing in Unconventional Reservoirs
Theories, Operations, and Economic Analysis
- 632 pages
- English
- ePUB (mobile friendly)
- Available on iOS & Android
eBook - ePub
Hydraulic Fracturing in Unconventional Reservoirs
Theories, Operations, and Economic Analysis
About this book
Hydraulic Fracturing in Unconventional Reservoirs: Theories, Operations, and Economic Analysis, Second Edition, presents the latest operations and applications in all facets of fracturing. Enhanced to include today's newest technologies, such as machine learning and the monitoring of field performance using pressure and rate transient analysis, this reference gives engineers the full spectrum of information needed to run unconventional field developments. Covering key aspects, including fracture clean-up, expanded material on refracturing, and a discussion on economic analysis in unconventional reservoirs, this book keeps today's petroleum engineers updated on the critical aspects of unconventional activity.
- Helps readers understand drilling and production technology and operations in shale gas through real-field examples
- Covers various topics on fractured wells and the exploitation of unconventional hydrocarbons in one complete reference
- Presents the latest operations and applications in all facets of fracturing
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Yes, you can access Hydraulic Fracturing in Unconventional Reservoirs by Hoss Belyadi,Ebrahim Fathi,Fatemeh Belyadi in PDF and/or ePUB format, as well as other popular books in Technology & Engineering & Energy. We have over one million books available in our catalogue for you to explore.
Information
Chapter One
Introduction to unconventional reservoirs
Abstract
This chapter introduces unconventional resources and their importance in improving the quality of life. Basic concepts and terms used in the oil and gas industry are introduced and defined, and then expanded to different gas types, natural gas transportation, and usage. Next, the chapter explains the major differences between conventional and unconventional hydrocarbon resources and various characteristics of different unconventional resources, such as coalbed methane, tight sands, shale gas, and gas hydrates reservoirs. At the end of the chapter, detailed discussions on shale gas reservoirs, their pore structure, mineralogy, and rock characteristics are presented.
Keywords
Natural gas; Natural gas transport; Shale gas; Coalbed methane; Gas hydrates; Total organic content; Vitrinite reflectance
Introduction
Oil and natural gas are extremely important. Our society is dependent on fossil fuels. They alone afford many of our greatest everyday comforts and conveniences. From the packaging used for our foods to the way we heat our homes, to all of our various transportation needs, without fossil fuels our way of life would come to a screeching halt. In light of current technological advancements, oil and natural gas will be the major player in the energy industry for years to come. Other sources of energy, such as wind, solar, electricity, biofuel, and so forth will eventually contribute along with fossil fuels to meet the growing global energy demand. When compared to different fossil fuels, natural gas is the cleanest because it emits much smaller quantities of CO2 when burnt. Natural gas is a hydrocarbon mixture that primarily consists of methane (CH4). It also includes varying amounts of heavier hydrocarbons and some nonhydrocarbons (as presented in Table 1.1). General usages of natural gas components are also presented in Table 1.2.
Table 1.1
| Natural gas components | Chemical formula | Short formula | |
|---|---|---|---|
| Methane | CH4 | C1 | Light ends |
| Ethane | C2H6 | C2 | |
| Propane | C3H8 | C3 | Heavier hydrocarbons |
| i-Butane | C4H10 | i-C4 | |
| n-Butane | C4H10 | n-C4 | |
| i-Pentane | C5H12 | i-C5 | |
| n-Pentane | C5H12 | n-C5 | |
| Hexane+ | C6H14 | C6+ | |
| Nitrogen | N2 | N2 | Inert/no heat content |
| Carbon dioxide | CO2 | CO2 | |
| Oxygen | O2 | O2 |
Table 1.2
| General uses for natural gas components | |
|---|---|
| Methane | Cooking, heating, fuel, hydrogen gas production for oil refining, and ammonia production |
| Ethane | Ethylene for plastics, petrochemical feedstock |
| Propane | Residential and commercial heating, cooking fuel, petrochemical feedstock |
| i-Butane | Refinery feedstock, blend in gasoline, petrochemical feedstock |
| n-Butane | Petrochemical feedstock, gasoline blend stock |
| i-Pentane | āNatural gasolineā blended into gasoline, jet fuel, naphtha cracking |
| n-Pentane | āNatural gasolineā blended into gasoline, jet fuel, naphtha cracking |
| Hexane+ | āNatural gasolineā blended into gasoline, jet fuel, naphtha cracking |
| Nitrogen | Air is 78% N2 |
| Carbon dioxide | Air is 0.04% CO2 |
| Oxygen | Air is 21% O2 |
Natural gas can be found in pockets as structural or stratigraphic gas reservoirs or in oil deposits as a gas cap. Gas hydrates and coalbed methane are considered as a major source of natural gas. Natural gas is measured by MSCF, which is 1000 standard cubic feet (SCF) of gas. Combustion of 1 ft3 of natural gas produces an equal amount of 1000 British thermal units (BTUs), the traditional unit for energy. One BTU by definition is the amount of energy needed to cool or heat one pound of water by 1Ā°F. Each hydrocarbon has a different BTU and the heavier the hydrocarbon the higher the BTU becomes. Table 1.3 shows the BTU/SCF and BTU factor for each natural gas component. As can be seen below, methane has a BTU of 1012. If the price of gas is assumed to be $4/MMBTU, 1 MSCF of pure methane would be valued at $4.048/MSCF. To measure the actual BTU of natural gas, a gas sample is taken from a producing well. This sample is then taken to the lab, and by using a device called a gas chromatograph the natural gas composition (mol%) can be measured by component. After measuring the gas composition of the natural gas sample, the approximate weighted average BTU of the gas can be calculated. It is important to note that natural gas is sold by volume and heat content. Therefore, the heat content (weighted average BTU) of natural gas must be measured and calculated for sales purposes. Fig. 1.1 shows the gas chromatograph instrument.
Table 1.3
| Natural gas components | BTU/SCF | MMBTU per MSCF (BTU factor) |
|---|---|---|
| Methane | 1012 | 1.... |
Table of contents
- Cover image
- Title page
- Table of Contents
- Copyright
- Author biography
- Introduction
- Chapter One: Introduction to unconventional reservoirs
- Chapter Two: Advanced shale reservoir characterization
- Chapter Three: Shale initial gas-in-place calculation
- Chapter Four: Multiscale fluid flow and transport in organic-rich shale
- Chapter Five: Hydraulic fracturing fluid systems
- Chapter Six: Proppant characteristics and application design
- Chapter Seven: Unconventional reservoir development footprints
- Chapter Eight: Hydraulic fracturing chemical selection and design
- Chapter Nine: Fracture pressure analysis and perforation design
- Chapter Ten: Fracture treatment design
- Chapter Eleven: Horizontal well multistage completion techniques
- Chapter Twelve: Completions and flowback design evaluation in relation to production
- Chapter Thirteen: Rock mechanical properties and in situ stresses
- Chapter Fourteen: Diagnostic fracture injection test
- Chapter Fifteen: Numerical simulation of hydraulic fracturing propagation
- Chapter Sixteen: Operations and execution
- Chapter Seventeen: Decline curve analysis
- Chapter Eighteen: Economic evaluation
- Chapter Nineteen: The role of federal reserve
- Chapter Twenty: NGL and condensate handling, calculations, and breakeven analysis
- Chapter Twenty-One: Well spacing and completions optimization
- Chapter Twenty-Two: Stacked pay development
- Chapter Twenty-Three: Production analysis and wellhead design
- Chapter Twenty-Four: Application of machine learning in hydraulic fracture optimization
- Chapter Twenty-Five: Numerical simulation of real field Marcellus shale reservoir development and stimulation
- References
- Index