Reflecting the rapid progress in cleanup technology since the previous edition, this revised and expanded third edition of The Basics of Oil Spill Cleanup covers current cleanup techniques, how oil spills are measured and detected, and the properties of the oil and its long-term fate in the environment. It also deals with why, how often, and where oil spills occur as well as the chemical composition and physical properties of various oil types. The chapters describe surface and remote sensing technologies used to detect and track oil slicks, and methods to contain oil on water (booms and ancillary equipment) and recover oil from the water surface (skimmers, sorbents, and manual recovery). The author discusses the use of pumps, in-situ burning, and chemical agents, such as dispersants, for oil removal. He also addresses oil-contaminated shorelines and the effects and behavior of oil on different ecosystems and the various organisms within them. Written for the general public as well as those directly involved with oil spill cleanup, this edition provides broad, up-to-date knowledge of the cleanup and control of spills.
"An examination of pollution caused by crude oils and petroleum products derived from them, this book covers how oil spills are measured and detected and discusses the properties of the oil as well as its long-term fate in the environment. This third edition contains a new chapter devoted to pollution effects on wildlife. It focuses on the cleanup of oil spills that occur in water, since these spills spread most rapidly and cause the most visible environmental damage. It also includes coverage of the latest technologies as well as recent spills, including the Gulf of Mexico"--
Standard Handbook Oil Spill Environmental Forensics: Fingerprinting and Source Identification, Second Edition, provides users with the latest information on the tools and methods that have become popular over the past ten years. The book presents practitioners with the latest environmental forensics techniques and best practices for quickly identifying the sources of spills, how to form an effective response, and how to determine liability. This second edition represents a complete overhaul of the existing chapters, and includes 13 new chapters on methods and applications, such as emerging application of PAHi isomers in oil spill forensics, development and application of computerized oil spill identification (COSI), and fingerprinting of oil in biological and passive sampling devices. - Contains 13 new chapters on methods and applications, including emerging application of PAH isomers in oil drill forensics, the development and application of computerized oil spill identification (COSI), and the fingerprinting of oil in biological and passive sampling devices - Presents the latest technology and methods in biodegradation of oil hydrocarbons and its implications for source identification, surface trajectory modeling of marine oil spills, and identification of hydrocarbons in biological samples for source determination - Contains new case studies to illustrate key applications, methods, and techniques
Provides a scientific basis for the cleanup and for the assessment of oil spills Enables Non-scientific officers to understand the science they use on a daily basis Multi-disciplinary approach covering fields as diverse as biology, microbiology, chemistry, physics, oceanography and toxicology Covers the science of oil spills from risk analysis to cleanup and through the effects on the environment Includes case studies examining and analyzing spills, such as Tasman Spirit oil spill on the Karachi Coast, and provides lessons to prevent these in the future
Reflecting the rapid progress in cleanup technology since the previous edition, this revised and expanded third edition of The Basics of Oil Spill Cleanup covers current cleanup techniques, how oil spills are measured and detected, and the properties of the oil and its long-term fate in the environment. It also deals with why, how often, and where
After successful launching of first and second editions of Biotechnology Fundamentals, we thought let us find out the feedbacks from our esteemed readers, faculty members, and students about their experiences and after receiving their suggestions and recommendation we thought it would be great idea to write 3rd edition of the book. Being a teacher of biotechnology, I always wanted a book which covers all aspects of biotechnology, right from basics to applied and industrial levels. In our previous editions, we have included all topics of biotechnology which are important and fundamentals for students learning. One of the important highlights of the book that it has dedicated chapter for the career aspects of biotechnology and you may agree that many students eager to know what are career prospects they have in biotechnology. There are a great number of textbooks available that deal with molecular biotechnology, microbial biotechnology, industrial biotechnology, agricultural biotechnology, medical biotechnology, or animal biotechnology independently; however, there is not a single book available that deals with all aspects of biotechnology in one book. Today the field of biotechnology is moving with lightening speed. It becomes very important to keep track of all those new information which affect the biotechnology field directly or indirectly. In this book, I have tried to include all the topics which are directly or indirectly related to fields of biotechnology. The book discusses both conventional and modern aspects of biotechnology with suitable examples and gives the impression that the field of biotechnology is there for ages with different names; you may call them plant breeding, cheese making, in vitro fertilization, alcohol fermentation is all the fruits of biotechnology. The primary aim of this book is to help the students to learn biotechnology with classical and modern approaches and take them from basic information to complex topics. There is a total of 21 chapters in this textbook covering topics ranging from an introduction to biotechnology, genes to genomics, protein to proteomics, recombinant DNA technology, microbial biotechnology, agricultural biotechnology, animal biotechnology, environmental biotechnology, medical biotechnology, nanobiotechnology, product development in biotechnology, industrial biotechnology, forensic science, regenerative medicine, biosimialars, synthetic biology, biomedical engineering, computational biology, ethics in biotechnology, careers in biotechnology, and laboratory tutorials. All chapters begin with a brief summary followed by text with suitable examples. Each chapter illustrated by simple line diagrams, pictures, and tables. Each chapter concludes with a question session, assignment, and field trip information. I have included laboratory tutorials as a separate chapter to expose the students to various laboratory techniques and laboratory protocols. This practical information would be an added advantage to the students while they learn the theoretical aspects of biotechnology.
Oil Spill Science and Technology, Second Edition, delivers a multi-contributed view on the entire chain of oil-spill related topics from oil properties and behaviors, to remote sensing through the management side of contingency planning and communicating oil spill risk perceptions. Completely new case studies are included with special attention to the Deepwater Horizon event, covering the impacts of wetlands and sand beaches, a mass balance approach, and the process for removing petroleum chemicals still trapped near Alabama beaches. Other new information on lingering oil left behind from the Exxon Valdez spill, the emergency system used in the Prestige incident, and coverage on the Heibei Spirit spill in Korea are also included. This updated edition combines technology with case studies to identify the current state of knowledge surrounding oil spills that will encourage additional areas of research that are left to uncover in this critical sector of the oil and gas industry. - Updated with new chapters on risk analysis and communication, contingency planning, restoration, and case studies - Supported with technological advances evolved from the Deepwater Horizon/BP oil tragedy and events in the Arctic/Antarctic - Multi-contributed from various industry experts to provide an extensive background in technical equipment and worldwide procedures used today
Author: United States. Congress. House. Committee on Merchant Marine and Fisheries. Subcommittee on Oceanography, Great Lakes, and the Outer Continental Shelf
Constant media attention on oil spills has created global awareness of their risks and the damage they do. Often under-reported is the average cost of the cleanup - often as high as $200 per liter of oil spilled. Oil is a necessity in today's industrial society, and since our dependence on it is not likely to and any time soon, we will continue to
