Applications to marine disaster prevention : spilled oil and gas tracking buoy system

This book focuses on the recent results of the research project funded by a Grant-in-Aid for Scientific Research (S) of the Japan Society for the Promotion of Science (No. 23226017) from FY 2011 to FY 2015 on an autonomous spilled oil and gas tracking buoy system and its applications to marine disas...

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Bibliographic Details
Other Authors: Kato, Naomi, (Editor)
Format: eBook
Language: English
Published: Japan : Springer, [2016]
Subjects:
ISBN: 9784431559917
9784431559894
Physical Description: 1 online resource (x, 201 pages) : illustrations (some color)

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035 |a (OCoLC)957464640  |z (OCoLC)957616619 
245 0 0 |a Applications to marine disaster prevention :  |b spilled oil and gas tracking buoy system /  |c Naomi Kato, editor. 
264 1 |a Japan :  |b Springer,  |c [2016] 
264 4 |c ©2017 
300 |a 1 online resource (x, 201 pages) :  |b illustrations (some color) 
336 |a text  |b txt  |2 rdacontent 
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505 0 |a Preface; Contents; 1 Introduction; References; 2 Lessons from Marine-Based Oil Spill and Gas Leak Accidents; 2.1 Major Marine-Based Oil Spill and Gas Leak Accidents; 2.2 Subsea Environmental Effects by the DWH Oil Spill Accident; 2.3 Surface Oil Slick Behavior After the DWH Oil Spill Accident; 2.4 Impact of the DWH Oil Spill Accident on Contingency Plan, Preparedness, and Regulations; References; 3 Development and Operation of Underwater Robot for Autonomous Tracking and Monitoring of Subsea Plumes After Oil Spill and Gas Leak from Seabed and Analyses of Measured Data; 3.1 Introduction 
505 8 |a 3.2 SOTAB-I Overview3.2.1 Outlines of SOTAB-I; 3.2.2 Hardware Description; 3.2.2.1 Power Supply; 3.2.2.2 Processing and Control Unit; 3.2.2.3 Actuators; 3.2.2.4 Tracking; 3.2.2.5 Orientation; 3.2.2.6 Communication; 3.2.2.7 Surveying Sensors; 3.2.2.8 Emergency; 3.2.3 Software Description; 3.2.3.1 Ship Computer; 3.2.3.2 SOTAB-I Computer; 3.2.3.3 Acoustic Communication; 3.3 SOTAB-I Guidance and Control; 3.3.1 General Description; 3.3.1.1 Operating Modes; 3.3.1.2 Operating Zones; 3.3.1.3 Control Priorities; 3.3.2 Equations of Motion; 3.3.3 Depth Control; 3.3.3.1 PID Depth Control 
505 8 |a 3.3.3.2 Depth Control with Time Estimation3.3.3.3 Progressive Depth Control; 3.3.3.4 Heading Control; 3.3.4 Experimental Result; 3.3.4.1 Field Test in Toyama Bay on the 28th of November 2014; 3.3.4.2 Field Test in Toyama Bay on the 20th of March 2015; 3.3.4.3 Field Test in Toyama Bay on the 11th of June 2015; 3.3.4.4 Towing Tank Test at Osaka University on the 26th of August 2015; 3.3.4.5 Field Test off Joetsu, Niigata, on the 3rd of September 2015; 3.3.5 Simulation; 3.3.5.1 Depth Control; 3.3.5.2 Heading Control; 3.3.5.3 Simulation of Path Planning; 3.4 Water Surveying 
505 8 |a 3.4.1 Sensors Configuration and Calculation Process3.4.1.1 CTD Data; 3.4.1.2 Water Current Measurements; 3.4.1.3 Dissolution of Substances; 3.4.2 Vertical Water Column Survey in the Gulf of Mexico; 3.4.2.1 Temperature, Salinity, and Density; 3.4.2.2 Water Currents; 3.4.2.3 Dissolution of Substances; 3.4.3 Vertical Water Column Survey in Komatsushima; 3.4.3.1 Vertical Distributions of Temperature, Salinity, and Density; 3.4.3.2 Comparison of Vertical Water Currents Profile; 3.4.4 Vertical Water Column Survey in Toyama Bay; 3.4.4.1 Temperature, Salinity, and Density 
505 8 |a 3.4.4.2 Vertical Profile of Water Currents3.5 Conclusions; Appendix; References; 4 Development of a Robotic Floating Buoy for Autonomously Tracking Oil Slicks Drifting on the Sea Surface (SOTAB-II): Experimental Results; 4.1 Introduction; 4.2 SOTAB-II; 4.2.1 Mechanical Design; 4.2.1.1 Hull Design; 4.2.1.2 Mainsail and Jib Sail; 4.2.1.3 Keel Design; 4.2.1.4 Brake Board; 4.2.1.5 Rudder; 4.3 Hardware Description; 4.3.1 Power Supply; 4.3.2 Onboard Computer; 4.3.3 Actuators; 4.3.4 Sensors; 4.3.4.1 Guidance and Navigational Sensors; 4.3.4.2 Oceanographic Sensors; 4.3.5 Communication 
506 |a Plný text je dostupný pouze z IP adres počítačů Univerzity Tomáše Bati ve Zlíně nebo vzdáleným přístupem pro zaměstnance a studenty 
520 |a This book focuses on the recent results of the research project funded by a Grant-in-Aid for Scientific Research (S) of the Japan Society for the Promotion of Science (No. 23226017) from FY 2011 to FY 2015 on an autonomous spilled oil and gas tracking buoy system and its applications to marine disaster prevention systems from a scientific point of view. This book spotlights research on marine disaster prevention systems related to incidents involving oil tankers and offshore platforms, approaching these problems from new scientific and technological perspectives. The most essential aspect of this book is the development of a deep-sea underwater robot for real-time monitoring of blowout behavior of oil and gas from the seabed and of a new type of autonomous surface vehicle for real-time tracking and monitoring of oil spill spread and drift on the sea surface using an oil sensor. The mission of these robots is to provide the simulation models for gas and oil blowouts or spilled oil drifting on the sea surface with measured data for more precision of predictions of oil and gas behavior. . 
590 |a SpringerLink  |b Springer Complete eBooks 
650 0 |a Marine accidents  |x Prevention. 
655 7 |a elektronické knihy  |7 fd186907  |2 czenas 
655 9 |a electronic books  |2 eczenas 
700 1 |a Kato, Naomi,  |e editor. 
776 0 8 |i Print version:  |t Applications to marine disaster prevention.  |d Japan : Springer, [2016]  |z 4431559892  |z 9784431559894  |w (OCoLC)932096713 
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