THE CONTRIBUTION OF AIR CUSHIONED VEHICLES IN OIL SPILL RESPONSE1

1993 ◽  
Vol 1993 (1) ◽  
pp. 127-133
Author(s):  
Mac W. McCarthy ◽  
John McGrath
Keyword(s):  
Oil Spill ◽  
Pacific Coast ◽  
Oil Spills ◽  
Washington State ◽  
Coast Guard ◽  
Fish Processing ◽  
The Pacific ◽  
Oil Spill Response ◽  
International Boundary ◽  
Dense Fog

ABSTRACT On July 22, 1991, the Tuo Hai, a 46,500 ton Chinese grain carrier, collided with the Tenyo Maru, a 4,800 ton Japanese fish processing ship, off the coast of Washington State. The Tenyo Maru sank, creating an oil spill that cost upwards of $4 million (U.S.) to clean up. The incident initiated a joint response from the U.S. and Canadian governments. As part of this response, the Canadian Coast Guard mobilized an SRN-6 hovercraft. This air cushioned vehicle (ACV) provided logistical support to responders on both sides of the international boundary. The response operation along the Pacific Coast was extensive. Dense fog and the remote location of the impacted area provided formidable challenges to the cleanup effort. It was the mission scenario of the Canadian SRN-6 hovercraft to provide logistical support—as an experiment in ACV utility—to the organizations responding to this incident. Based on this experience, it can be argued that the hovercraft offers great potential value in responding to marine oil spills. Appropriate application of ACV technology can enhance oil spill response work, spill waste management, and incident surveillance. This paper discusses the contribution of the SRN-6 hovercraft to the Tenyo Maru response, briefly examines the use of another, very different hovercraft, during a response in the Gulf of St. Lawrence, and reviews a new hovercraft design and discusses its potential contributions.

METACOGNITIVE DECISION MAKING IN OIL SPILL RESPONSE-BEHAVIORAL BIAS IN RELATION TO PERCEIVED RISK

2017 ◽  
Vol 2017 (1) ◽  
pp. 1453-1470
Author(s):  
LT Christopher M. Kimrey
Keyword(s):  
Decision Making ◽  
Oil Spill ◽  
Homeland Security ◽  
Perceived Risk ◽  
Oil Spills ◽  
Coast Guard ◽  
Sense Making ◽  
Self Awareness ◽  
Behavioral Bias ◽  
Oil Spill Response

ABSTRACT 2017-205 Catastrophic events like Deepwater Horizon, Exxon Valdez, major hurricanes, and other such anomalies have a tendency to overwhelm the initial crisis management leadership due to the chaotic nature of the event. The inability to quickly and accurately make critical assessments about the magnitude and complexity of the emerging catastrophe can spell disaster for crisis managers long before the response ever truly takes shape. This paper argues for the application of metacognitive models for sense and decision-making. Rather than providing tools and checklists as a recipe for success, this paper endeavors to provide awareness of the cognitive processes and heuristics that tend to emerge in crises including major oil spills, making emergency managers aware of their existence and potential impacts. Awareness, we argue, leads to recognition and self-awareness of key behavioral patterns and biases. The skill of metacognition—thinking about thinking—is what we endeavor to build through this work. Using a literature review and cogent application to oil spill response, this paper reviews contemporary theories on metacognition and sense-making, as well as concepts of behavioral bias and risk perception in catastrophic environments. When catastrophe occurs—and history has proven they will—the incident itself and the external pressures of its perceived management arguably emerge simultaneously, but not necessarily in tandem with one another. Previous spills have demonstrated how a mismanaged incident can result in an unwieldy and caustic confluence of external forces. This paper provides an awareness of biases that lead to mismanagement and apply for the first time a summary of concepts of sense-making and metacognition to major oil spill response. The views and ideas expressed in this paper are those of the author and do not necessarily reflect the views of the U.S. Coast Guard or Department of Homeland Security.

The Oil Spill Response Fund – Four Decades of Success

2014 ◽  
Vol 2014 (1) ◽  
pp. 2146-2158
Author(s):  
Allen R. Thuring
Keyword(s):  
Oil Spill ◽  
Oil Spills ◽  
Oil Pollution ◽  
The United States ◽  
Coast Guard ◽  
Trust Fund ◽  
Us Economy ◽  
The Us ◽  
Response Team ◽  
Oil Spill Response

ABSTRACT This paper examines the oil pollution response fund created by Section 311(k) of the 1972 CWA and then modified, culminating with the Oil Spill Liability Trust Fund (OSLTF) established by OPA. Could the CWA have been successful absent the provision for a federal fund? This Fund is now four decades old. Has it passed the “test of time”? Did it meet the goals set at its birth? Is it still relevant? Should it continue? CWA Section 311 and later OPA created a range of response tools to deal with oil and hazmat spills on the waters of the US. They established a public/private solution to spill response. Key components:An expectation that the spiller was responsible and liable to clean up the spill;The National Contingency Plan and the Federal On-Scene Coordinator/FOSC;Establishing expertise on “special teams”: the CG's National Strike Force and EPA's Emergency Response Team;An up-front trust fund available only to the FOSC that pays for removals if the responsible party (RP) does not step forward. The fund exists to:Pre-empt the RP from using delay as a response option, despite the law.Give the FOSC money to quickly hire private response companies, if the RP does not act or if the spill's origin is a mystery. Equally important, the CWA and OPA did NOT designate a government agency to “clean up” oil spills. Rather, the law envisioned private companies performing that role, paid for by the spillers/RP or the 311(k)/OSLTF Fund, under the oversight of the USCG or the EPA. It tasked the USCG with managing this Fund. The Fund achieved its results. The US has a robust private oil spill removal sector that responsible parties hire when needed. If an RP does not act, the CG and EPA FOSCs use the Fund to mobilize those same companies to remove oil spills on US waters. The US economy has grown, as has the number of oil spills reported. Cases each year requiring Fund use have not increased proportionally. Responsible parties continue to clean up their spills, as the CWA envisioned. The Fund retains its ability to respond simultaneously to major spills, even during Exxon Valdez and Deepwater Horizon. In forty two years, the Fund has always been available for an FOSC directed removal. The opinions stated in this paper are the author's alone, and do not reflect the official policies of the United States Coast Guard.

scholarly journals Responder Needs Addressed by Arctic Maritime Oil Spill Modeling

2021 ◽  
Vol 9 (2) ◽  
pp. 201
Author(s):  
Jessica Manning ◽  
Megan Verfaillie ◽  
Christopher Barker ◽  
Catherine Berg ◽  
Amy MacFadyen ◽  
...  
Keyword(s):  
Oil Spill ◽  
Oil Spills ◽  
Arctic Region ◽  
Coast Guard ◽  
The Arctic ◽  
Maritime Shipping ◽  
Oil Spill Modeling ◽  
Oil Spill Response ◽  
Natural Resource Development ◽  
Spilled Oil

There is a greater probability of more frequent and/or larger oil spills in the Arctic region due to increased maritime shipping and natural resource development. Accordingly, there is an increasing need for effective spilled-oil computer modeling to help emergency oil spill response decision makers, especially in waters where sea ice is present. The National Oceanic & Atmospheric Administration (NOAA) Office of Response & Restoration (OR&R) provides scientific support to the U.S. Coast Guard Federal On-Scene Coordinator (FOSC) during oil spill response. OR&R’s modeling products must provide adequate spill trajectory predictions so that response efforts minimize economic, cultural, and ecologic impacts, including those to species, habitats, and food supplies. The Coastal Response Research Center is conducting a project entitled Oil Spill Modeling for Improved Response to Arctic Maritime Spills: The Path Forward, in conjunction with modelers, responders, and researchers. A goal of the project is to prioritize new investments in model and tool development to improve response effectiveness in the Arctic. The project delineated FOSC needs during Arctic maritime spill response and provided a solution communicating sources of uncertainty in model outputs using a Confidence Estimates of Oil Model Inputs and Outputs (CEOMIO) table. The table shows the level of confidence (high, medium, low) in a model’s trajectory prediction over scenario-specific time intervals and the contribution of different component inputs (e.g., temperature, wind, ice) to that result.

Approaches to Nontank Vessel Contingency Planning1

2003 ◽  
Vol 2003 (1) ◽  
pp. 503-508
Author(s):  
Elise G. DeCola ◽  
Tim L. Robertson ◽  
Roy Robertson ◽  
Lori Crews ◽  
Mike Munger
Keyword(s):  
Oil Spill ◽  
Pacific Coast ◽  
Planning Process ◽  
Oil Spills ◽  
Public Awareness ◽  
The United States ◽  
High Profile ◽  
Fishing Vessels ◽  
The Pacific ◽  
Passenger Ships

ABSTRACT Tank vessels that carry oil as cargo are subject to a number of international, national, and local regulations requiring that the vessel owners plan for and be prepared to respond to oil spills. By comparison, nontank vessels such as freighters, passenger ships, and fishing vessels typically have not been subject to the same level of oil spill prevention and response requirements. However, a number of recent, high-profile nontank vessel oil spills have heightened public awareness of the oil spill risk posed by nontank vessels. In response to such events, several US states have implemented regulations requiring nontank vessels to prepare oil spill contingency plans similar to those required for tankers and tank barges. This paper considers several different approaches to oil spill contingency planning for nontank vessels, focusing on the Pacific coast of the United States and Canada. The authors compare the requirements in place in Alaska, California, Washington, Oregon and British Columbia, and make recommendations to promote a parallel planning process along the Pacific coast of North America.

ECOLOGICAL AND GEOMORPHOLOGICAL ASSESSMENT OF THE VULNERABILITY OF THE COASTS OF THE KARA SEA TO THE OIL SPILL

2017 ◽  
Author(s):  
Alexander Ermolov ◽  
Alexander Ermolov
Keyword(s):  
Oil Spill ◽  
Oil Spills ◽  
International System ◽  
Kara Sea ◽  
Coastal Protection ◽  
Sensitivity Index ◽  
Oil Spill Response ◽  
Expert Assessments ◽  
International Systems

International experience of oil spill response in the sea defines the priority of coastal protection and the need to identify as most valuable in ecological terms and the most vulnerable areas. Methodological approaches to the assessing the vulnerability of Arctic coasts to oil spills based on international systems of Environmental Sensitivity Index (ESI) and geomorphological zoning are considered in the article. The comprehensive environmental and geomorphological approach allowed us to form the morphodynamic basis for the classification of seacoasts and try to adapt the international system of indexes to the shores of the Kara Sea taking into account the specific natural conditions. This work has improved the expert assessments of the vulnerability and resilience of the seacoasts.

scholarly journals Next-Generation Smart Response Web (NG-SRW): An Operational Spatial Decision Support System for Maritime Oil Spill Emergency Response in the Gulf of Finland (Baltic Sea)

2021 ◽  
Vol 13 (12) ◽  
pp. 6585
Author(s):  
Mihhail Fetissov ◽  
Robert Aps ◽  
Floris Goerlandt ◽  
Holger Jänes ◽  
Jonne Kotta ◽  
...  
Keyword(s):  
Baltic Sea ◽  
Oil Spill ◽  
Situational Awareness ◽  
Oil Spills ◽  
Relevant Information ◽  
Response Strategy ◽  
Spatial Decision Support System ◽  
Next Generation ◽  
Oil Spill Response ◽  
The Baltic

The Baltic Sea is a unique and sensitive brackish-water ecosystem vulnerable to damage from shipping activities. Despite high levels of maritime safety in the area, there is a continued risk of oil spills and associated harmful environmental impacts. Achieving common situational awareness between oil spill response decision makers and other actors, such as merchant vessel and Vessel Traffic Service center operators, is an important step to minimizing detrimental effects. This paper presents the Next-Generation Smart Response Web (NG-SRW), a web-based application to aid decision making concerning oil spill response. This tool aims to provide, dynamically and interactively, relevant information on oil spills. By integrating the analysis and visualization of dynamic spill features with the sensitivity of environmental elements and value of human uses, the benefits of potential response actions can be compared, helping to develop an appropriate response strategy. The oil spill process simulation enables the response authorities to judge better the complexity and dynamic behavior of the systems and processes behind the potential environmental impact assessment and thereby better control the oil combat action.

OIL SPILL PREPAREDNESS: THE OIL INDUSTRY AND THE NATIONAL ARRANGEMENTS

1995 ◽  
Vol 35 (1) ◽  
pp. 830
Author(s):  
D.J. Blackmore
Keyword(s):  
Oil Spill ◽  
Oil Spills ◽  
Oil Industry ◽  
State Governments ◽  
National Plan ◽  
Effective Response ◽  
Current State ◽  
Oil Spill Response ◽  
Set Up ◽  
Definition Of

It is vital that there is a credible and well organised arrangement to deal with oil spills in Australia.The National Plan to Combat Pollution of the Sea by Oil, the umbrella oil spill response plan for Australia, is a combined effort by the Commonwealth and State Governments, the oil industry and the shipping industry.The Australian Marine Oil Spill Centre (AMOSC), formed in 1991, is an industry centre set up for rapid response with equipment and resources, together with a training and industry coordination role.A review of the National Plan in 1992, identified, amongst a number of issues, that the National Plan needed to be re-focussed, to ensure full integration of all government and industry activities for the first time. This has led to greatly improved understanding between government and industry and significant improvements to Australia's oil spill response preparedness. The National Plan review has also resulted in a clearer definition of the responsibilities for operational control, together with the organisational structure to deliver a successful response.The current state of Australia's National Plan is such that it does provide confidence that there is the capacity to deliver an effective response to oil spills in the marine environment. Nevertheless, there is more to be done, particularly in the areas of planning and exercises.

INDUSTRY, GOVERNMENT, AND REGIONAL EFFORTS IN OIL SPILL CONTINGENCY PLANNING: MALAYSIA'S PERSPECTIVES

1995 ◽  
Vol 1995 (1) ◽  
pp. 503-508
Author(s):  
Hussein Bin Rahmat ◽  
Mohd Radzuan Bin Yusof
Keyword(s):  
South China Sea ◽  
Oil Spill ◽  
South China ◽  
Oil Spills ◽  
The South China Sea ◽  
The South ◽  
Contingency Plan ◽  
China Sea ◽  
Oil Spill Response ◽  
Strait Of Malacca

ABSTRACT The increasing incidence of oil spills in the Strait of Malacca and the South China Sea has resulted in growing concern about Malaysia's capability to respond to oil spills in its waters. This concern is compounded by the ever-growing number of oil tankers plying the Strait of Malacca and the South China Sea, as well as the intensifying exploration and development of offshore petroleum resources. Various measures were taken by the government to deal with the problem, including a review of its National Oil Spill Contingency Plan (NOSCP) and incorporating a coordinated and a cost-effective response mechanism among the various government agencies. The incorporation of the Petroleum Industry of Malaysia Mutual Aid Group (PIMMAG), which enables the oil industry to pool its oil spill response resources, reflects the industry's commitment to strengthen the NOSCP. Since the mid 1970s, a number of regional plans have been instituted including the Traffic Separation Scheme for the Strait of Malacca, the Strait of Malacca and Singapore Revolving Fund, the Lombok-Macassar Oil Spill Contingency Plan, the Brunei Bay Oil Spill Contingency Plan, the ASEAN Oil Spill Response Plan, and the proposed ASCOPE Oil Spill Contingency Plan.

Recent Results from Oil Spill Response Research

1991 ◽  
Vol 1991 (1) ◽  
pp. 673-676
Author(s):  
Edward Tennyson
Keyword(s):  
Oil Spill ◽  
Oil Spills ◽  
Management Service ◽  
Research Projects ◽  
Response Strategies ◽  
Yield Information ◽  
Environmental Test ◽  
Oil Spill Response ◽  
Spilled Oil

ABSTRACT Recent large oil spills from tankers have reaffirmed the need for continuing technology assessment and research to improve oil-spill response capabilities. The Minerals Management Service (MMS) remains a lead agency in conducting these studies. This paper discusses MMS concerns, as reinforced by the acceleration of its research program in 1990. It briefly assesses the current state-of-the-art technology for major aspects of spill response, including remote sensing, open-ocean containment, recovery, in-situ burning, chemical treating agents, beach-line cleanup, and oil behavior. The paper reports on specific research projects that have begun to yield information that will improve detection and at-sea equipment performance. The first detection project, for which MMS has patent pending, involves the use of shipboard navigational radar to track slicks at relatively long range. The second project involves the use of conventional containment and cleanup in a downwind mode, which is contrary to the traditional procedures. The paper also discusses current research projects, including the development of an airborne, laser-assisted fluorosensor that can determine whether apparent slicks contain oil. Additional projects involve the development of improved strategies for responding to oil in broken-ice conditions, for gaining an improved understanding of the fate and behavior of spilled oil as it affects response strategies, and for reopening and operating the oil and hazardous materials simulated environmental test tank (OHMSETT) facility in Leonardo, New Jersey. Recent progress on the development of safe and environmentally acceptable strategies to burn spilled oil in-situ is also discussed. The OHMSETT facility is necessary for testing prospective improvements in chemical treating agents and to develop standard procedures for testing and evaluating response equipment.

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