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EbookNice Team
Status:
Available4.5
41 reviewsISBN 10: 1119083627
ISBN 13: 978-1119083627
Author: James G. Speight
Newly revised, this is still the "must have" guide for any drilling, production, or petroleum engineer, with thousands of handy formulas and calculations that the engineer needs on a daily basis.
Presented in an easy-to-use format, this second edition of Formulas and Calculations for Drilling Operations is a quick reference for day-to-day work out on the rig. It also serves as a handy study guide for drilling and well control certification courses. Virtually all the mathematics required on a drilling rig is here in one convenient source, including formulas for pressure gradient, specific gravity, pump, output, annular velocity, buoyancy factor, and many other topics.
Whether open on your desk, on the hood of your truck at the well, or on an offshore platform, this is the only book available that covers the gamut of the formulas and calculations for petroleum engineers that have been compiled over decades. Some of these formulas and calculations have been used for decades, while others are meant to help guide the engineer through some of the more recent breakthroughs in the industry's technology, such as hydraulic fracturing and enhanced oil recovery.
There is no other source for these useful formulas and calculations that is this thorough. An instant classic when the first edition was published, the much-improved revision is even better, offering new information not available in the first edition, making it as up-to-date as possible in book form. Truly a state-of-the-art masterpiece for the oil and gas industry, if there is only one book you buy to help you do your job, this is it!
1. Standard Formulas and Calculations
Abrasion Index
Acid Number
Acidity and Alkalinity
Annular Velocity
Antoine Equation
API Gravity – Kilograms per Liter / Pounds per Gallon
Barrel – Conversion to other Units
Bernoulli’s Principle
Brine
Bubble Point and Bubble Point Pressure
Buoyancy, Buoyed Weight, and Buoyancy Factor
Capacity
Hole (Pipe, Tubing) Capacity
Annular Capacity
Annular Volume
Capillary Number
Capillary Pressure
Cementation Value
Composite Materials
Compressibility
Darcy’s Law
Dew Point Temperature and Pressure
Displacement
Effective Weight
Flow Through Permeable Media
Productivity Index
Steady-State Flow
Linear Flow
Spherical Flow
Flow Through Porous Media
Flow Velocity
Fluid Saturation
Formation Volume Factor – Gas
Formation Volume Factor – Oil
Friction
Coefficient of Friction
Types of Friction
Friction and Rotational Speed
Gas Deviation Factor
Gas Solubility
Gas-Oil Ratio
Geothermal Gradient
Hole Capacity
Horsepower
Hydrostatic Pressure
Isothermal Compressibility of Oil
Marx-Langenheim Model
Material Balance
Modulus of Elasticity
Oil and Gas Originally in Place
Oil Recovery Factor
Permeability
Poisson’s Ratio
Porosity
Pressure Differentials
Productivity Index
PVT Properties
Specific Gravity and Molecular Weight
Isothermal Compressibility
Undersaturated Oil Formation Volume Factor
Oil Density
Dead Oil Viscosity
Undersaturated Oil Viscosity
Gas/Oil Interfacial Tension
Water/Oil Interfacial Tension
Reserves Estimation
Reservoir Pressure
Resource Estimation
Reynold’s Number
Saturated Steam
Standard Oilfield Measurements
Twist
Ultimate Tensile Strength
Volume Flow Rate
Volumetric Factors
Yield Point
2. Rig Equipment
77. API Casing Grades
78. Block Efficiency Factor
79. Blocks and Drilling Line
80. Crown Block Capacity
81. Derrick Load
82. Energy Transfer
83. Engine Efficiency
84. Line Pull Efficiency Factor
85. Mud Pump
86. Volume of Fluid Displaced
87. Volumetric Efficiency
88. Pump Factor
89. Offshore Vessels
90. Terminology
91. Environmental Forces
92. Riser Angle
93. Rotary Power
94. Ton-Miles Calculations
95. Round-Trip Ton Miles Calculations
96. Drilling Ton-Miles Calculations
97. Coring Ton-Miles Calculations
98. Casing Ton-Miles Calculations
3. Well Path Design
99. Average Curvature – Average Dogleg Severity
100. Bending Angle
101. Borehole Curvature
102. General Formula
103. Borehole Radius of Curvature
104. Borehole Torsion
105. General Method
106. Cylindrical Helical Method
107. Horizontal Displacement
108. Magnetic Reference and Interference
109. Tool Face Angle
110. Tool Face Angle Change
111. Tortuosity
112. Absolute and Relative Tortuosity
113. Sine Wave Method
114. Helical Method
115. Random Inclination Azimuth Method
116. Random Inclination Dependent Azimuth Method
117. Types of Wellpath Designs
118. Vertical and Horizontal Curvatures
119. Wellbore Trajectory Uncertainty
120. Wellpath Length Calculations
4. Fluids
121. Acidity – Alkalinity
122. Base Fluid – Water-Oil Ratios
123. Common Weighting Materials
124. Diluting Mud
125. Drilling Fluid Composition
126. Equivalent Mud Weight
127. Fluid Loss
128. Marsh Funnel
129. Mud Rheology
130. Mud Weighting
131. Plastic Viscosity, Yield Point, and Zero-Sec Gel
132. Bingham Plastic Model
133. Shear Stress and Shear Rate
134. Power Law
135. Reynolds Number and Critical Velocity
136. Slip Velocity
5. Hydraulics
137. Basic Calculations
138. Critical Velocity
139. Pump Calculations
140. Bingham Plastic Model
141. Bit Hydraulics
142. Common Calculations
143. Optimization Calculations
144. Limitation – Available Pump Horsepower
145. Limitation – Surface Operating Pressure
146. Critical Transport Fluid Velocity
147. Equivalent Circulating Density
148. Equivalent Mud Weight
149. Gel Breaking Pressure
150. Hole Cleaning – Cuttings Transport
6. Tubular Mechanics
151. API Casing and Liners
152. API Drill Pipe Capacity and Displacement
153. Bending Stress Ratio
154. Buckling Force
155. Drag Force
156. Drill Collar Length
157. Fatigue Ratio
158. Length Change Calculations
159. Maximum Permissible Dogleg
160. Pipe Wall Thickness and Dimensions
161. Slip Crushing
162. Stress
163. Radial Stress
164. Tangential Stress
165. Longitudinal Stress
166. Stress Ratio
167. Tension
168. Torque
7. Drilling Tools
169. Backoff Calculations
170. Downhole Turbine
171. Jar Calculations
172. Force Calculations for Up Jars
173. Force Calculations for Down Jars
174. Overpull / Slack-off Calculations
175. Percussion Hammer
176. Positive Displacement Motor (PDM)
177. Rotor Nozzle Sizing
178. Stretch Calculations
8. Pore Pressure and Fracture Gradient
179. Formation Pressure
180. Hubert and Willis Correlation
181. Matthews and Kelly Correlation
182. Eaton’s Correlation
183. Christman’s Correlation
184. Leak-off Pressure
9. Well Control
185. Accumulators
186. Driller’s Method
187. Formulas Used in Kick and Kill Procedures
188. Hydrostatic Pressure Due to Gas Column
189. Kill Methods
190. Kill Mud Weight
191. Leak-off Pressure
192. Length and Density of the Kick
193. Length of the Kick
194. Density of the Kick
195. Type of Kick
196. Kick Classification
197. Kick Tolerance
198. Maximum Allowable Annular Surface Pressure
199. Riser Margin
10. Drilling Problems
200. Differential Sticking Force
201. Method 1
202. Method 2
203. Method 3
204. Hole Cleaning – Slip Velocity Calculations
205. Chien Correlation
206. Moore Correlation
207. Walker-Mays Correlation
208. Increased Equivalent Circulating Density (ECD) Due to Cuttings
209. Keyseating
210. Lost Circulation
211. Common Minerals and Metals Encountered During Drilling
212. Mud Weight Increase Due to Cuttings
213. Pressure Loss in the Drill String
214. Spotting Fluid Requirements
11. Cementing
215. API Classification of Cement
216. Cement: Physical Properties of Additives
217. Cement Plug
218. Cement Slurry Requirements
219. Contact Time
220. Gas Migration Potential
221. Hydrostatic Pressure Reduction
222. Portland Cement – Typical Components
223. Slurry Density
224. Yield of Cement
12. Well Cost
225. Drilling Cost
226. Expected Value
227. Future Value
228. Price Elasticity
13. Appendices
229. Glossary
230. Bibliography and Information Sources
231. About the Author
232. Index
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Tags: James Speight, Formulas and Calculations, Drilling Operations
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