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Books > Earth & environment > Earth sciences > Structure & properties of the Earth > Volcanology & seismology
Microseismic Imaging of Hydraulic Fracturing: Improved Engineering
of Unconventional Shale Reservoirs (SEG Distinguished Instructor
Series No. 17) covers the use of microseismic data to enhance
engineering design of hydraulic fracturing and well completion. The
book, which accompanies the 2014 SEG Distinguished Instructor Short
Course, describes the design, acquisition, processing, and
interpretation of an effective microseismic project. The text
includes a tutorial of the basics of hydraulic fracturing,
including the geologic and geomechanical factors that control
fracture growth. In addition to practical issues associated with
collecting and interpreting microseismic data, potential pitfalls
and quality-control steps are discussed. Actual case studies are
used to demonstrate engineering benefits and improved production
through the use of microseismic monitoring. Providing a practical
user guide for survey design, quality control, interpretation, and
application of microseismic hydraulic fracture monitoring, this
book will be of interest to geoscientists and engineers involved in
development of unconventional reservoirs.
When a magnitude 8.8 earthquake occurred off the coast of Chile on
February 27, 2010, it affected 80 percent of Chile's population.
Damage to lifelines was caused by strong ground shaking, permanent
ground deformation, lateral spread, and a tsunami in the coastal
areas of Bio Bio and Maule. Lifeline services were significantly
disrupted for the first week, at a considerable cost to Chile's
economy. This TCLEE report discusses in detail the effects of the
earthquake, as observed by an ASCE-TCLEE team of civil engineers in
April 2010. The team examined the performance of lifeline
infrastructure systems, including transportation, ports, gas and
liquid fuel, electric power, telecommunications, water and
wastewater, and airports. An overview of each system's performance
is provided, followed by a description of the damage to specific
sectors or locations. An analysis of infrastructure
interdependencies and resilience in Chile is included, as well as a
report on emergency response, recovery, and social impact. This
monograph will be of particular interest to civil engineers,
managers, planners, emergency management personnel, and government
officials charged with maintaining lifeline infrastructure systems
to withstand earthquakes and other natural hazards.
With the signing in 1996 of the Comprehensive Nuclear Test Ban
Treaty, interest has grown in forensic seismology: the application
of seismology to nuclear test ban verification. This book, based on
over 50 years of experience in forensic seismology research, charts
the development of methods of seismic data analysis. Topics covered
include: the estimation of seismic magnitudes, travel-time tables
and epicentres; seismic signal processing; and the use of
seismometer arrays. Fully illustrated with seismograms from
explosions and earthquakes, the book demonstrates methods and
problems of visual analysis. Each chapter provides exercises to
help the reader familiarise themselves with practical issues in the
field of forensic seismology, and figures and solutions to
exercises are also available online. The book is a key reference
work for academic researchers and specialists in the area of
forensic seismology and Earth structure, and will also be valuable
to postgraduates in seismology and solid earth geophysics.
This book introduces the theory that the Sun is getting hotter, and
that is why the Earth is experiencing Global Warming.
In November 1991 the American flag was lowered for the last time at
Clark Air Base in the Philippines. This act brought to an end
American military presence in the Philippines that extended back
over 90 years. It also represented the final act in a drama that
began with the initial rumblings in April of that year of the Mount
Pinatubo volcano, located about nine miles to the east of Clark.
The following pages tell the remarkable story of the men and women
of the Clark community and their ordeal in planning for and
carrying out their evacuation from Clark in face of the impending
volcanic activity. It documents the actions of those who remained
on the base during the series of Mount Pinatubo's eruptions, and
the packing out of the base during the subsequent months. This is
the story of the "Ash Warriors," those Air Force men and women who
carried out their mission in the face of an incredible series of
natural disasters, including volcanic eruption, flood, typhoons,
and earthquakes, all of which plagued Clark and the surrounding
areas during June and July 1991. The author of The Ash Warriors
knew the situation first hand. Col. Dick Anderegg was the vice
commander of the 3rd Tactical Fighter Wing when the volcano
erupted, and he was at Clark throughout the evacuation and standing
down of the base. He brought his own personal experience to bear in
writing this story. He also conducted extensive research in the
archives of the Pacific Air Forces and Thirteenth Air Force,
utilized scores of interviews of those who witnessed and
participated in the events, and visited Clark in 1998 to see in
person how the installation had changed in the eight years since
the Americans left.
Because most sedimentary rocks encountered in oil and gas
exploration are effectively anisotropic, it is imperative to
properly estimate seismic anisotropy and incorporate it into
data-processing and imaging algorithms. Seismology of Azimuthally
Anisotropic Media and Seismic Fracture Characterization (SEG
Geophysical References Series No. 17) presents a systematic
analysis of seismic signatures for azimuthally anisotropic media
and describes anisotropic inversion/processing methods for
wide-azimuth reflection data and VSP (vertical seismic profiling)
surveys. The main focus is on kinematic parameter-estimation
techniques operating with P-waves as well as with the combination
of PP and PS (mode-converted) data. The part devoted to prestack
amplitudes includes azimuthal AVO (amplitude variation with offset)
analysis and a concise treatment of attenuation coefficients, which
are highly sensitive to the presence of anisotropy. Discussion of
fracture characterization is based on modern effective media
theories and illustrates both the potential and limitations of
seismic methods. Field-data examples highlight the improvements
achieved by accounting for anisotropy in seismic processing,
imaging, and fracture detection.
Despite growing evidence of geothermic activity under America's
first and foremost national park, it took geologists a long time to
realize that there was actually a volcano beneath Yellowstone. And
then, why couldn't they find the caldera or crater? Because, as an
aerial photograph finally revealed, the caldera is 45 miles wide,
encompassing all of Yellowstone. What will happen, in human terms,
when it erupts?
Greg Breining explores the shocking answer to this question and
others in a scientific yet accessible look at the enormous natural
disaster brewing beneath the surface of the United States.
Yellowstone is one of the world's five "super volcanoes." When it
erupts, much of the nation will be hit hard.
Though historically Yellowstone has erupted about every 600,000
years, it has not done so for 630,000, meaning it is 30,000 years
overdue. Starting with a scenario of what will happen when
Yellowstone blows, this fascinating study describes how volcanoes
function and includes a timeline of famous volcanic eruptions
throughout history.
Written by the author of "The Forecasting of Volcano Eruptions,"
this book tells about the color, splendor, nature and life. About
the people who are warm, friendly and, of course, very French.
Reunion Island, located in the Indian Ocean, is currently believed
to have been discovered early in the 16th century by the Portuguese
navigator Pedro de Mascarenhas. In the year 1638, Reunion Island
was claimed by France as a stopover point for mercantile ships on
their way to India. The French East India Company established a
small colony on Reunion in the year 1665. Originally called Ile de
Bourbon, it was named Reunion in 1793 during the French Revolution.
This book is a facsimile reprint and may contain imperfections such
as marks, notations, marginalia and flawed pages.
Forecasting the time, place, and character of a volcanic eruption
is one of the major goals of volcanology. It is also one of the
most difficult goals to achieve. Until recently, people living in a
volcano's shadow had little help anticipating an eruption. A major
volcanic event might strike with no warning at all. In the past 300
years, volcanic eruptions, most of them unexpected, have killed
more than 250,000 people. In 2000, experts estimated that 500
million people were living in areas at risk from catastrophic
volcanic eruptions. This book describes the strides that have made
in eruption forecasting in recent years and explores why accurately
predicting volcanic events remains difficult.
Based on the methodologies in this book, Eruption Pro 10.6, to
our knowledge, it is the only software programme of its type
anywhere in the world. Eruption Pro 10.6 performs analysis on
current available volcano eruption data from both historical and
current available eruption data, near real-time measurement data
including, seismic, deformation, thermal, frequency of eruption
analysis, solar & lunar influences, crater lake temperature (if
applicable), COSPEC, & statistical procedures. The newest
version also accounts for, albeit very small, contributions due to
lunar and solar influences.
This scarce antiquarian book is included in our special Legacy
Reprint Series. In the interest of creating a more extensive
selection of rare historical book reprints, we have chosen to
reproduce this title even though it may possibly have occasional
imperfections such as missing and blurred pages, missing text, poor
pictures, markings, dark backgrounds and other reproduction issues
beyond our control. Because this work is culturally important, we
have made it available as a part of our commitment to protecting,
preserving and promoting the world's literature.
On November 1, 1755--All Saints' Day--a massive earthquake
struck Europe's Iberian Peninsula and destroyed the city of Lisbon.
Churches collapsed upon thousands of worshippers celebrating the
holy day. "Earthquakes in Human History" tells the story of that
calamity and other epic earthquakes. The authors, Jelle Zeilinga de
Boer and Donald Theodore Sanders, recapture the power of their
previous book, "Volcanoes in Human History." They vividly explain
the geological processes responsible for earthquakes, and they
describe how these events have had long-lasting aftereffects on
human societies and cultures. Their accounts are enlivened with
quotations from contemporary literature and from later reports.
In the chaos following the Lisbon quake, government and church
leaders vied for control. The Marques de Pombal rose to power and
became a virtual dictator. As a result, the Roman Catholic Jesuit
Order lost much of its influence in Portugal. Voltaire wrote his
satirical work "Candide" to refute the philosophy of "optimism,"
the belief that God had created a perfect world. And the 1755
earthquake sparked the search for a scientific understanding of
natural disasters.
Ranging from an examination of temblors mentioned in the Bible,
to a richly detailed account of the 1906 catastrophe in San
Francisco, to Japan's Great Kanto Earthquake of 1923, to the
Peruvian earthquake in 1970 (the Western Hemisphere's greatest
natural disaster), this book is an unequaled testament to a natural
phenomenon that can be not only terrifying but also threatening to
humankind's fragile existence, always at risk because of
destructive powers beyond our control."
The ultimate introduction to seismology, written by distinguished
scholar and Professor Bruce Bolt, of the University of California,
Berkeley, this newly updated edition will provide the best
foundation in the field for your introductory students.
"This is the most complete reference available on Texas
earthquakes.... Its general information on earthquakes, presented
in a humorous and understandable manner, will even make the text
attractive to non-Texans who want to know more about earthquakes."
-- Diane I. Doser, Professor of Geology, University of Texas at El
Paso
When nature goes haywire in Texas, it isn't usually an
earthshaking event. Though droughts, floods, tornadoes, and hail
all keep Texans talking about the unpredictable weather, when it
comes to earthquakes, most of us think we're on terra firma in this
state. But we're wrong! Nearly every year, earthquakes large enough
to be felt by the public occur somewhere in Texas.
This entertaining, yet authoritative book covers "all you
really need to know" about earthquakes in general and in Texas
specifically. The authors explain how earthquakes are caused by
natural forces or human activities, how they're measured, how they
can be predicted, and how citizens and governments should prepare
for them. They also thoroughly discuss earthquakes in Texas,
looking at the occurrences and assessing the risks region by region
and comparing the amount of seismic activity in Texas to other
parts of the country and the world. The book concludes with a
compendium of over one hundred recorded earthquakes in Texas from
1811 to 2000 that briefly describes the location, timing, and
effects of each event.
The Story of Earthquakes and Volcanoes
"An excellent survey of earthquakes and their effects--their mystery, terror, and science, and how we are learning to control their forces."--Christopher Arnold, president, Building Systems Development
We expect everything to move except the earth! Anyone who has ever experienced an earthquake or seen news footage of cracking buildings and swaying bridges can appreciate the awe and fear that moving earth can inspire. This book unravels the mystery and the marvel of one of natures most unpredictable and terrifying phenomena: the earthquake.
With a lively text and over 100 illustrations, two of the worlds premier structural engineers take us on a fascinating trip from the Earths beginnings to recent developments in seismic technology. It is one told through the stories of the worst natural disasters of all time: Lisbon, San Francisco, Alaska, Vesuvius, Krakatau, Mount St. Helens. These earthshaking events form the background for an exploration of the nature of earthquakes and volcanoes, the prediction of their behavior, and an up-to-date description of the measures we can take to protect ourselves from their destructive nature.
Matthys Levy, an architectural engineer, has won numerous awards, including the AIA Institute Honor Award. Mario Salvadori is James Renwick Professor Emeritus of Civil Engineering and Professor Emeritus of Architecture at Columbia University. Both authors are principals of Weidlinger Associates, one of Americas leading structural engineering firms, and live in New York City.
The first effective seismographs were built between 1879 and 1890.
In 1885, E. S. Holden, an astronomer and then president of the
University of California, instigated the purchase of the best
available instruments of the time "to keep a register of all
earthquake shocks in order to be able to control the positions of
astronomical instruments." These seismographs were installed two
years later at Lick Observatory on Mt. Hamilton and at the Berkeley
campus of the University. Over the years those stations have been
upgraded and joined by other seismographic stations administered at
Berkeley, to become the oldest continuously operating stations in
the Western Hemisphere. The first hundred years of the
Seismographic Stations of the University of California at Berkeley,
years in which seismology has often assumed an unforeseen role in
issues of societal and political importance, ended in 1987. To
celebrate the centennial a distinguished group of fellows, staff,
and friends of the Stations met on the Berkeley campus in May 1987.
The papers they presented are gathered in this book, a distillation
of the current state of the art in observatory seismology. Ranging
through subjects of past, present, and future seismological
interest, they provide a benchmark reference for years to come.
This title is part of UC Press's Voices Revived program, which
commemorates University of California Press's mission to seek out
and cultivate the brightest minds and give them voice, reach, and
impact. Drawing on a backlist dating to 1893, Voices Revived makes
high-quality, peer-reviewed scholarship accessible once again using
print-on-demand technology. This title was originally published in
1989.
The author gives a systematic account of various Earth Movements.
These comprise Earthquakes, or the sudden violent movements of the
ground; Earth Tremors, or minute movements which escape our
attention by the smallness of their amplitude; Earth Pulsations, or
movements which are overlooked on account of the length of their
period; and lastly, Earth Oscillations, or movements of long period
and large amplitude which attract so much attention from their
geological importance.
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