Utilize the most recent developments to combat challenges such as ice mechanics. The perfect companion for engineers wishing to learn state-of-the-art methods or further develop their knowledge of best practice techniques, "Arctic Pipeline Planning" provides a working knowledge of the technology and techniques for laying pipelines in the coldest regions of the world. "Arctic Pipeline Planning" provides must-have elements that can be utilized through all phases of arctic pipeline planning and construction. This includes information on how to: Solve challenges in designing arctic pipelinesProtect pipelines from everyday threats such as ice gouging and permafrostMaintain safety and communication for construction workers while supporting typical codes and standards
Covers such issues as land survey, trenching or above ground, environmental impact of constructionProvides on-site problem-solving techniques utilized through all phases of arctic pipeline planning and constructionIs packed witheasy-to-read and understandable tables and bullet lists"

A practical and insightful discussion of time-frequency analysis methods and technologies Time-frequency analysis of seismic signals aims to reveal the local properties of nonstationary signals. The local properties, such as time-period, frequency, and spectral content, vary with time, and the time of a seismic signal is a proxy of geologic depth. Therefore, the time-frequency spectrum is composed of the frequency spectra that are generated by using the classic Fourier transform at different time positions. Different time-frequency analysis methods are distinguished in the construction of the local kernel prior to using the Fourier transform. Based on the difference in constructing the Fourier transform kernel, this book categorises time-frequency analysis methods into two groups: Gabor transform-type methods and energy density distribution methods. This book systematically presents time-frequency analysis methods, including technologies which have not been previously discussed in print or in which the author has been instrumental in developing. In the presentation of each method, the fundamental theory and mathematical concepts are summarised, with an emphasis on the engineering aspects. This book also provides a practical guide to geophysicists who attempt to generate geophysically meaningful time-frequency spectra, who attempt to process seismic data with time-dependent operations for the fidelity of nonstationary signals, and who attempt to exploit the time-frequency space seismic attributes for quantitative characterisation of hydrocarbon reservoirs.

Reservoir Rock Properties and Fluid Flow covers properties of natural rocks and fluids that are important in Petroleum and Natural Gas Engineering. In this book major emphasis is placed on fluid storage in reservoir rocks and in flow of fluids through the rock's pore structure. These phenomena dominate calculations that are common in the areas of reservoir and production engineering. This book is designed for technical professionals and introduces readers to the fundamental as well as the advanced aspects of reservoir engineering. Theoretical concepts coupled with numerous practical case histories are presented to assist reservoir and exploitation engineers in their primary functions-the determination of oil and gas reserves and the maximization of hydrocarbon recovery under primary, secondary, and tertiary schemes.

Critical properties of reservoir rocks Fluid (oil, water, and gas)

PVT relationships

Methods to calculate hydrocarbons initially in place

Dynamic techniques to assess reservoir performance

Parameters that impact well/reservoir performance over time

Based on the classic Standard Handbook of Petroleum and Natural Gas Engineering, Second Edition, the Working Guide to Petroleum and Natural Gas Production Engineering begins with an extensive overview of the basic principles, definitions, and data. Later chapters cover properties of hydrocarbon mixtures, flow natural flow of fluids, natural flow performance, artificial lift methods and corrosion and scaling. This book provides engineers with a bases for understanding important concepts such a flow phenomena, hydrate formation, pressure (surge) waves, or high viscosity liquid flow failure. The focus of book is to assist the reader to understand and avoid potential operational challenges and design effective solutions and operational responses.

Evaluate well inflow performance
Guide to properties of hydrocarbon mixtures
Evaluate Gas production and processing facilities

Drilling technology has advanced immensely in the past 20 years. Directional drilling, rotary steerable drilling and other smart downhole techniques and tools have progressed past the typical vertical and horizontal well, allowing drilling engineers to design wells of complex geometry and extract energy resources from remote, untapped places. While technology continues to excel, there is a growing need for multidisciplinary information to assist in the design and planning of complex wells. To answer this need, Robello Samuel, with the help of Xiushan Liu, releases a necessary reference titled "Advanced Drilling Engineering." Samuel and Liu s volume covers full understanding of elaborate drilling processes and engineering well design aspects. Starting with well trajectory and wellbore positioning, they explain well-path planning for directional and extended-reach wells. Other vital topics include collision avoidance, checking for proximity between neighboring wells, downhole survey tools plus MWD/LWD and through bit logging, and intelligent smart well technology, including downhole monitoring tools."

Working Guide to Vapor-Liquid Phase Equilibria Calculations offers a practical guide for calculations of vapor-phase equilibria. The book begins by introducing basic concepts such as vapor pressure, vapor pressure charts, equilibrium ratios, and flash calculations. It then presents methods for predicting the equilibrium ratios of hydrocarbon mixtures: Wilson's correlation, Standing's correlation, convergence pressure method, and Whitson and Torp correlation. The book describes techniques to determine equilibrium ratios of the plus fraction, including Campbell's method, Winn's method, and Katz's method. The remaining chapters cover the solution of phase equilibrium problems in reservoir and process engineering; developments in the field of empirical cubic equations of state (EOS) and their applications in petroleum engineering; and the splitting of the plus fraction for EOS calculations.

Well test planning is one of the most important phrases in the life cycle of a well, if done improperly it could cost millions. Now there is a reference to ensure you get it right the first time. Written by a Consultant Completions & Well Test Engineer with decades of experience, Well Test Planning and Operations provides a road map to guide the reader through the maze of governmental regulations, industry codes, local standards and practices. This book describes how to plan a fit-for-purpose and fault free well test, and to produce the documents required for regulatory compliance. Given the level of activity in the oil and gas industry and the shortage of experienced personnel, this book will appeal to many specialists sitting in drilling, completion or exploration departments around the world who find themselves in the business of planning a well test, and yet who may lack expertise in that specialty. Nardone provides a roadmap to guide the planner through this complex subject, showing how to write the necessary documentation and to coordinate the many different tasks and activities, which constitute well test planning. Taking the reader from the basis for design through the well Test program to well test reports and finally to the all-important learning to ensure continuous improvement.
Identification and prioritization of well test objectives
Confirmation of well test requirements
Preparation of detailed well test programs
Selection and qualification of test equipment
Onsite (onshore and offshore) engineering support and test supervision
Detailed well test interpretation
Definition of Extended Well Test (EWT) requirements

Fundamentals of Petroleum Refining presents the fundamentals of thermodynamics and kinetics, and it explains the scientific background essential for understanding refinery operations. The text also provides a detailed introduction to refinery engineering topics, ranging from the basic principles and unit operations to overall refinery economics. The book covers important topics, such as clean fuels, gasification, biofuels, and environmental impact of refining, which are not commonly discussed in most refinery textbooks. Throughout the source, problem sets and examples are given to help the reader practice and apply the fundamental principles of refining. Chapters 1-10 can be used as core materials for teaching undergraduate courses. The first two chapters present an introduction to the petroleum refining industry and then focus on feedstocks and products. Thermophysical properties of crude oils and petroleum fractions, including processes of atmospheric and vacuum distillations, are discussed in Chapters 3 and 4. Conversion processes, product blending, and alkylation are covered in chapters 5-10. The remaining chapters discuss hydrogen production, clean fuel production, refining economics and safety, acid gas treatment and removal, and methods for environmental and effluent treatments. This source can serve both professionals and students (on undergraduate and graduate levels) of Chemical and Petroleum Engineering, Chemistry, and Chemical Technology. Beginners in the engineering field, specifically in the oil and gas industry, may also find this book invaluable.

Natural gas is playing an increasing role in meeting world energy demands because of its abundance, versatility, and its clean burning nature. As a result, lots of new gas exploration, field development and production activities are under way, especially in places where natural gas until recently was labeled as stranded . Because a significant portion of natural gas reserves worldwide are located across bodies of water, gas transportation in the form of LNG or CNG becomes an issue as well. Finally natural gas is viewed in comparison to the recently touted alternatives. Therefore, there is a need to have a book covering all the unique aspects and challenges related to natural gas from the upstream to midstream and downstream. All these new issues have not been addressed in depth in any existing book. To bridge the gap, Xiuli Wang and Michael Economides have written a new book called "Advanced Natural Gas Engineering." This book will serve as a reference for all engineers and professionals in the energy business. It can also be a textbook for students in petroleum and chemical engineering curricula and in training departments for a large group of companies."

This book crosses the boundary from exploration- and production-related chemistry to refining, from upstream through downstream. It discusses the composition of petroleum through the use of "petroleum molecular composition continuity model." .

The third edition of Air and Gas Drilling Manual describes the basic simulation models for drilling deep wells with air or gas drilling fluids, gasified two-phase drilling fluids, and stable foam drilling fluids. The models are the basis for the development of a systematic method for planning under balanced deep well drilling operations and for monitoring the a drilling operation as well construction project advances.
Air and Gas Drilling Manual discusses both the oil and natural gas industry applications, and geotechnical (water well, environmental, mining) industry applications. Important well construction and completions issues are discussed for all applications.
The engineering analyses techniques are used to develop pre-operations planning methods, trouble-shooting operations monitoring techniques and overall operations risk analysis. The essential objective of the book is drilling and well construction cost management control. The book is in both SI and British Imperial units.
*Master the air and gas drilling techniques in construction and development of water wells, monitoring wells, geotechnical boreholes, mining operations boreholes and more
*30% of all wells drilled use gas and air, according to the U.S. Department of Energy estimates
*Contains basic simulation equations with examples for direct and reverse circulation drilling models and examples for air and gas, gasified fluids, and stable foam drilling models

Over the last two decades the development, evaluation and use of MFM systems has been a major focus for the Oil & Gas industry worldwide. Since the early 1990's, when the first commercial meters started to appear, there have been around 2,000 field applications of MFM for field allocation, production optimisation and well testing. So far, many alternative metering systems have been developed, but none of them can be referred to as generally applicable or universally accurate. Both established and novel technologies suitable to measure the flow rates of gas, oil and water in a three-phase flow are reviewed and assessed within this book. Those technologies already implemented in the various commercial meters are evaluated in terms of operational and economical advantages or shortcomings from an operator point of view. The lessons learned about the practical reliability, accuracy and use of the available technology is discussed. The book suggests where the research to develop the next generation of MFM devices will be focused in order to meet the as yet unsolved problems.
The book provides a critical and independent review of the current status and future trends of MFM, supported by the authors' strong background on multiphase flow and by practical examples. These are based on the authors' direct experience on MFM, gained over many years of research in connection with both operators and service companies.
As there are currently no books on the subject of Multiphase Flow Metering for the Oil & Gas industry, this book will fill in the gap and provide a theoretical and practical reference for professionals, academics, and students.
* Written by leading scholars and industryexperts of international standing
* Includes strong coverage of the theoretical background, yet also provides practical examples and current developments
* Provides practical reference for professionals, students and academics

Advances in Gas Processing: Proceedings of the 2nd Annual Gas Processing Symposium 11-1 4 January, 2010, Doha, Qatar, reviews the state of knowledge in gas processing. The contributions are organized around five main themes: (i) environmental sustainability; (ii) natural gas processing technologies; (iii) energy efficiency in operations; (iv) design and safety; and (v) operational excellence. The papers on environmental sustainability cover topics such as the biogasification of waste monoethanolamine; the role of LNG in a carbon constrained world; and sustainable water management. The papers on natural gas processing technologies include the removal of acid gases from natural gas streams via membrane technology and selective control of Fischer-Tropsch synthesis hydrocarbons product distribution. The papers on energy efficiency in operations cover lifted turbulent jet flame in a cross-flow; novel hybrid biomass and coal processes; and the adoption of plug-in hybrid electric vehicles (PHEVs). The papers on design and safety include studies on the optimal design and operation of a GTL process and efficient design, operating, and control strategies for LNG plants. The papers on operational excellence deal with topics such as chemicals in gas processing; the monitoring and optimization of hydrocarbon separation equipment; and the inhibition of gas hydrate formation.

Liquid loading can reduce production and shorten the life-cycle of a well costing a company millions in revenue. A handy guide on the latest techniques, equipment, and chemicals used in de-watering gas wells, Gas Well Deliquification, 2nd ed. continues to be the engineer's choice for recognizing and minimizing the effects of liquid loading. The second edition serves as a guide discussing the most frequently used methods and tools used to diagnose liquid loading problems and reduce the detrimental effects of liquid loading on gas production.
With new extensive chapters on Coal Bed Methane and Production Automation Gas Well Deliquification, 2nd edition proves to be the essential reference for operating engineers, reservoir engineers, consulting engineers and service companies who supply gas well equipment New to this second edition, Gas Well Deliquification provides managers with a comprehensive look into the methods of successful Production Automation as well as tools for the profitable use, production and supervision of Coalbed gases.
-Turnkey solutions for the problems of liquid loading interference
-Based on decades of practical, easy to use methods of de-watering gas wells
-Expands on the 1st edition's useful reference with new methods for utilizing Production Automation and managing Coal Bed Methane

The gasification process converts any carbon-containing material into a synthesis gas composed primarily of carbon monoxide and hydrogen, which can be used as a fuel to generate electricity or steam or used as a basic chemical building block for a large number of uses in the petrochemical and refining industries. Gasification adds value to low or negative value feedstocks by converting them to marketable fuels and products.
This is the first book to cover gasification as a comprehensive topic, covering its many uses, from refining, to natural gas, to coal. This book provides an up-to-date overview of commercial processes and covers applications relevant to today's demands. The new edition is expanded and provides more detail on the integration issues for current generation, state-of-the-art Integrated Gasification Combined Cycles (IGCC); CO2 capture in the IGCC context addressing the issues of pre-investment and retrofitting as well as defining what the term "CO2 capture ready" might mean in practice; issues of plant reliability, availability and maintainability (RAM) including as evaluation of feedback from existing plants; implementation of fuel cell technology in IGCC concepts. All statistics, processes and projects, including descriptions of a number of processes not covered in the previous edition.
Chemical engineers, Petroleum Engineers, Energy Engineers and Environmental engineers

The wettability of oil reservoirs is the most important factor controlling the rate of oil recovery, providing a profound effect on petroleum production. The petroleum industry has increased the research effort on wettability, but, so far, there has never been a comprehensive book on the topic. This is the first book to go through all of the major research and applications on wettability, capillary pressure and improved recovery. Critical topics including core preservation, the effect of wettability on relative permeability, surface forces such as van der Waals equation of state, petroleum traps and pore size effects are all included in this musthave handbook. Deciphering the techniques and examples will increase the efficiency and production of oil recovery, translating to stronger reservoir simulations and improved well production.

As the first and only comprehensive guide for engineers on downhole drilling tools, this is a must-have for the drilling community. "Downhole Drilling Tools" describes all the critical tools for the engineer and covers the practical aspects of downhole equipment. Going beyond the basic bottomhole assembly, this guide includes detailed mechanics and theory on tubulars, fishing, cementing, coiled tubing and various other downhole tools. A must have for both the engineering professional and student alike, this textbook includes worked examples and additional references at the end of each chapter. In its entirety, "Downhole Drilling Tools" enables the reader to recognize drilling benefits and limitations associated with each tool, find solutions to common drilling problems while reducing costs and perform successful well completions.

Research in environmental justice reveals that low-income and minority neighborhoods in our nation's cities are often the preferred sites for landfills, power plants, and polluting factories. Those who live in these sacrifice zones are forced to shoulder the burden of harmful environmental effects so that others can prosper. "Mountains of Injustice "broadens the discussion from the city to the country by focusing on the legacy of disproportionate environmental health impacts on communities in the Appalachian region, where the costs of cheap energy and cheap goods are actually quite high. Through compelling stories and interviews with people who are fighting for environmental justice, "Mountains of Injustice "contributes to the ongoing debate over how to equitably distribute the long-term environmental costs and consequences of economic development.