scholarly journals Protection of water supply sources from the emergency oil spill on the water surface

2021 ◽  
Vol 937 (3) ◽  
pp. 032026
Author(s):  
R Akhtyamov ◽  
T S Titova ◽  
D V Glazkov ◽  
I I Gavrilin
Keyword(s):  
Oil Spill ◽  
Water Surface ◽  
Oil Spills ◽  
Oil Pollution ◽  
Optimal Choice ◽  
Oil Products ◽  
Oil Pipeline ◽  
Oil Spill Response ◽  
Choice Of Technology ◽  
Oil And Oil Products

Abstract The article provides an algorithm for organizing oil spill response on the water surface, as well as the results of the analysis of existing methods of oil and oil product spill response. In order to improve the complex of measures to eliminate oil spills on the water surface, the main requirements for oil-absorbing materials are given. It is shown that the localization and elimination of oil and oil products spills on the water surface due to the destruction of the underwater passage of the main oil pipeline requires a set of works that require the use of various methods and the use of the necessary technical means. The developed set of measures for organizing work in response to oil spills on the water surface and the results of the analysis of existing methods for responding to oil and oil products spills will reduce the time for containment and response to the spill, taking into account the optimal choice of technology for cleaning the coastal strip from oil pollution.

scholarly journals Protection of water supply sources from the emergency oil spill on the water surface

2021 ◽  
Vol 2131 (3) ◽  
pp. 032057
Author(s):  
R Akhtyamov ◽  
T S Titova ◽  
D V Glazkov ◽  
I I Gavrilin
Keyword(s):  
Oil Spill ◽  
Water Surface ◽  
Oil Spills ◽  
Oil Pollution ◽  
Optimal Choice ◽  
Oil Products ◽  
Oil Pipeline ◽  
Oil Spill Response ◽  
Choice Of Technology ◽  
Oil And Oil Products

Abstract The article provides an algorithm for organizing oil spill response on the water surface, as well as the results of the analysis of existing methods of oil and oil product spill response. In order to improve the complex of measures to eliminate oil spills on the water surface, the main requirements for oil-absorbing materials are given. It is shown that the localization and elimination of oil and oil products spills on the water surface due to the destruction of the underwater passage of the main oil pipeline requires a set of works that require the use of various methods and the use of the necessary technical means. The developed set of measures for organizing work in response to oil spills on the water surface and the results of the analysis of existing methods for responding to oil and oil products spills will reduce the time for containment and response to the spill, taking into account the optimal choice of technology for cleaning the coastal strip from oil pollution.

Aerospace monitoring in the problems for assessment of geoecological risks for accidental spills of oil and petroleum products

2021 ◽  
pp. 72-85
Author(s):  
Виктор Геннадьевич Аковецкий ◽  
Алексей Викторович Афанасьев ◽  
Анжела Асхатовна Ильченко
Keyword(s):  
Oil Spill ◽  
Oil And Gas ◽  
Negative Impact ◽  
Experimental Testing ◽  
Oil Products ◽  
Oil Pipeline ◽  
Oil Slick ◽  
Research Risks ◽  
Aerospace Monitoring ◽  
Oil And Oil Products

Оценка геоэкологических рисков на объектах нефтегазового комплекса непосредственно связана с обеспечением безопасности территорий, на которых они расположены. Особенно тяжелые последствия воздействия на экологическое состояние территорий оказывают аварийные разливы нефти и нефтепродуктов. Решение данного класса задач требует оценки уровня аварийного разлива и его классификации с позиций возникновения чрезвычайной ситуации. В статье рассмотрена возможность замены традиционных визуальных методов оценки разливов на разработанные автоматизированные и автоматические способы, использующие для решения задач классификации материалов аэрокосмических съемок. Приведены результаты автоматической классификации изображений мониторинговых наблюдений, которые имели место при аварийном разливе дизельного топлива в г. Норильске, аварии танкера на морской акватории о. Маврикий и аварии сухопутного нефтепровода. Полученные результаты показали работоспособность разработанных методов и возможность их использования в задачах инвентаризации и паспортизации аварийных разливов нефти на суше и акваториях. Purpose. The aim of this work is to ensure the environmental safety of the territories where the accidental spills of oil and oil products have occurred. They have a significant negative impact on the environment of land and water areas. To minimize their impact and eliminate the consequences, an “emergency” regime is introduced in Russia. Depending on the level of the oil spill, it may cover both the territory of a separate facility and a region, and the entire state as a whole. Methods. Traditionally, an estimate of the level of a spill is determined based on the mass of the spilled oil through visual observations from aircraft or ground measurements at selected points. This approach does not allow an accurate assessment of the total area of pollution, the nature of pollution inside the oil slick, as well as the dynamics of its spread over time. To eliminate these limitations, it is proposed to use systems of aerospace monitoring observations and automatic measurements of oil slick parameters: area, composition and mass. To solve this problem, the method of “comparison with the reference standard” was used. Here, samples of color gradations of oil and oil product spill spots proposed in the Bonn Agreement of 2004 were prepared as reference standards. Results. The method was implemented using the experimental software complex AGIR-TM (Aerospace, Geoinformatics, Research, Risks-Technological Modules) which was developed at the Department of Geoecology of the Gubkin Russian State University of Oil and Gas (NRU). During the experimental testing of this method, the work was carried out to assess the accidental spill in the following cases diesel fuel in Norilsk (2020), oil on a tanker in the water area of Mauritius (2020) and oil in an oil pipeline (2012, 2017). The method provides the localization of the area spills along with the color correction (normalization), classification of the composition of oil and oil products and the through account of the investigated processes. The work results in determination for the area of the oil and oil products spill, its composition and weight. Conclusions. The article shows the relevance of solving problems related to the problem of liquidation of emergency spills of oil and oil products at the facilities of the oil and gas complex. The main approaches to aerospace monitoring observations and automatic interpretation of spill parameters are considered. The proposed approach is based on the use of “digital twins” that implement the transition from manual (visual) to automated and automatic modes for determining the parameters of an oil spill: area, composition and mass. The results presented in the article showed the efficiency of the proposed method and the possibility of its use in the tasks of assessing geoecological risks associated with accidental spills of oil and oil products on land and in water areas.

scholarly journals Environment Pollution With Oil Products and Review of Possibilities for Collection Thereof

2015 ◽  
Vol 1 ◽  
pp. 301
Author(s):  
Juris Treijs ◽  
Edmunds Teirumnieks ◽  
Viktors Mironovs
Keyword(s):  
Soviet Union ◽  
Large Scale ◽  
Oil Spills ◽  
Oil Pollution ◽  
Oil Products ◽  
Limiting Factors ◽  
Small Water ◽  
The Soviet Union ◽  
Military Facilities ◽  
Oil And Oil Products

The largest global pollution nowadays gives oil and oil products. This contamination poses a danger to the environment and aquatic eco-systems. Not only seas but also small water bodies and watercourses, as well as coastal areas, soil and groundwater are contaminated with oil products. Contamination results in destruction of some plants or animals, but in events of high oil contamination also of the entire ecosystem. Latvia has inherited the oil pollution from both the Soviet Union large-scale industry and its military facilities, as well as at present the oil products are getting into environment from petrol stations, accidents, and from the cross-border pollution. In many cases of oil spills, people are trying to collect them in order to have no impact on the environment, but unfortunately very often, even in most cases this does not occur. Financial resources, as well as the lack of appropriate technologies or restricted possibilities for their application are the limiting factors. The article deals with the traditional methods of oil collection in water and also describes options for decontamination of polluted soil from the oil products. A brief insight is provided into application of ferromagnetic sorbents, which is a new method for collection of oil and oil products.

VESSEL RESPONSE PLANS: A TILE IN THE MOSAIC OF THE NATIONAL RESPONSE SYSTEM1

1995 ◽  
Vol 1995 (1) ◽  
pp. 926-926
Author(s):  
Duane Michael Smith
Keyword(s):  
Oil Spill ◽  
Oil Spills ◽  
Oil Pollution ◽  
The Past ◽  
Response System ◽  
National Response ◽  
Vessel Response ◽  
Oil Spill Response

ABSTRACT With the implementation of the Oil Pollution Act of 1990 came the requirement for vessels to develop plans for responding to oil spills from their vessels. While some companies had such plans in the past, the National Response System did not formally recognize their existence. Individual vessel response plans must now be viewed as an integral part of the National Response System. All of the parties that could be involved in an oil spill response must begin to view themselves as one tile of many that make up the mosaic known as the National Response System.

scholarly journals A 30-Year Probability Map for Oil Spill Trajectories in the Barents Sea to Assess Potential Environmental and Socio-Economic Threats

Resources ◽  
2021 ◽  
Vol 11 (1) ◽  
pp. 1
Author(s):  
Victor Pavlov ◽  
Victor Cesar Martins de Aguiar ◽  
Lars Robert Hole ◽  
Eva Pongrácz
Keyword(s):  
Oil Spill ◽  
Barents Sea ◽  
Oil Spills ◽  
Oil Pollution ◽  
Geographical Location ◽  
Environmental Data ◽  
The Arctic ◽  
Probability Map ◽  
The Barents Sea ◽  
Oil Spill Response

Increasing exploration and exploitation activity in the Arctic Ocean has intensified maritime traffic in the Barents Sea. Due to the sparse population and insufficient oil spill response infrastructure on the extensive Barents Sea shoreline, it is necessary to address the possibility of offshore accidents and study hazards to the local environment and its resources. Simulations of surface oil spills were conducted in south-east of the Barents Sea to identify oil pollution trajectories. The objective of this research was to focus on one geographical location, which lies along popular maritime routes and also borders with sensitive ecological marine and terrestrial areas. As a sample of traditional heavy bunker oil, IFO-180LS (2014) was selected for the study of oil spills and used for the 30-year simulations. The second oil case was medium oil type: Volve (2006)—to give a broader picture for oil spill accident scenarios. Simulations for four annual seasons were run with the open source OpenDrift modelling tool using oceanographic and atmospheric data from the period of 1988–2018. The modelling produced a 30-year probability map, which was overlapped with environmental data of the area to discuss likely impacts to local marine ecosystems, applicable oil spill response tools and favourable shipping seasons. Based on available data regarding the environmental and socio-economic baselines of the studied region, we recommend to address potential threats to marine resources and local communities in more detail in a separate study.

IMPEDIMENTS TO CROSS-BOUNDARY OIL SPILL RESPONSE ALONG UNITED STATES BORDERS

1995 ◽  
Vol 1995 (1) ◽  
pp. 801-805
Author(s):  
Jonathan K. Waldron
Keyword(s):  
United States ◽  
Oil Spill ◽  
Oil Spills ◽  
Oil Pollution ◽  
The United States ◽  
Safety Training ◽  
Oil Spill Response ◽  
The Caribbean ◽  
The Relationship ◽  
Response Capability

ABSTRACT The Oil Pollution Act of 1990 (OPA 90) promoted a coordinated industry and government enhancement of response resources to combat oil spills effectively in the United States. However, the United States remains vulnerable to oil spills near the borders it shares with Canada, Mexico, and various nations in the Caribbean due to legal and administrative impediments associated with cross-boundary spill response activities. This paper explores cross-boundary related issues that could hinder a response and the relationship and roles of industry and government with regard to such issues, and provides recommendations to enhance improved cooperation between government and industry to facilitate response activities. The international structure that currently exists—globally, regionally, and bilaterally—provides a basic framework that promotes cooperation between nations to respond harmoniously to spills threatening the shores of neighboring countries. However, the existing agreements and understandings only provide a basic umbrella. They require planning and implementation of details and commitment to take the specific actions required to implement these agreements and understandings fully. As a result, the enhanced private response capability that now exists in the United States may not be available in a spill involving cross-boundary operations. Neighboring nations must take action to facilitate cross-boundary activities by responders by providing responder-immunity protection similar to that provided under OPA 90 and by removing potential impediments to response activities: laws and other requirements relating to matters such as customs, immigration, and safety training.

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 Evaluation of the geoecological and fire situation in case of the oil spillage on the water surface

2021 ◽  
Vol 937 (2) ◽  
pp. 022044
Author(s):  
T S Titova ◽  
R Akhtyamov ◽  
V V Bondarenko ◽  
V L Pavlova
Keyword(s):  
Oil Spill ◽  
Water Surface ◽  
River Flow ◽  
Oil Spills ◽  
Fire Risk ◽  
Social Risk ◽  
Oil Pipeline ◽  
Oil Spillage ◽  
Underwater Pipeline ◽  
Main Oil Pipeline

Abstract The work provides an assessment of the geoecological situation during an oil spill on the water surface. The modeling of the process of oil burning on the water surface is carried out, and also a model for estimating the oil burning time during depressurization of the underwater passage of the main oil pipeline is proposed. The assessment of individual and social risk in case of ignition of an oil spill as a result of depressurization of the underwater crossing of the main oil pipeline is given. The fire risk assessment was carried out under the condition of a guillotine rupture of the underwater pipeline, since, despite the lowest frequency of this type of depressurization, the levels of exposure to damaging factors, due to the largest volume of oil spills, will be maximum and will make the main contribution to the magnitude of the fire risk. When forecasting an emergency, a model of the spread of an oil slick along the water surface of a watercourse was developed, which takes into account the wind speed and the speed of the river flow.

scholarly journals New problems and opportunities of oil spill monitoring systems

2015 ◽  
Vol 366 ◽  
pp. 64-74
Author(s):  
G. M. Barenboim ◽  
V. M. Borisov ◽  
V. N. Golosov ◽  
A. Yu. Saveca
Keyword(s):  
Early Detection ◽  
Oil Spill ◽  
Oil Spills ◽  
Oil Pollution ◽  
Automatic Monitoring ◽  
Monitoring Systems ◽  
Oil Hydrocarbons ◽  
Combined Sensor ◽  
Great Danger ◽  
Oil And Oil Products

Abstract. Emergency oil and oil products spills represent a great danger to the environment, including ecosystems, and to the population. New problems of such dangerous spills and methods of early detection are discussed in this paper. It is proposed to conduct assessment of biological hazards of such spills on the basis of data on the distribution of individual oil hydrocarbons within the column of the water body and computer predictions of their toxicity. Oil radioactivity, which is associated with uranium and thorium, is seen as the important aspect of the oil spill danger, especially in watercourses. The need for an automated monitoring system for the early detection of oil spills in water bodies is analysed. The proposed system consists of three subsystems. The first remote sensing subsystem is based on powerful fluorescent lidars; experimental results on lidar registration of oil pollution of water are reported. The second subsystem uses a network of automatic monitoring stations with contact detectors. The third subsystem is the combined sensor system based on remote and contact technologies.

SUPPORT FOR REGIONAL OIL SPILL RESPONSE IN THE ROPME SEA AREA

1989 ◽  
Vol 1989 (1) ◽  
pp. 215-219
Author(s):  
P. B. Ryan ◽  
D. J. S. Brown
Keyword(s):  
Oil Spill ◽  
Oil Spills ◽  
Oil Pollution ◽  
External Support ◽  
Contingency Planning ◽  
Contingency Plan ◽  
The World ◽  
Oil Spill Response ◽  
Sources Of Support ◽  
Sea Area

ABSTRACT Oil spill contingency planning is concerned with the organization of preplanned responses to anticipated oil pollution emergencies in defined geographical areas. A major factor that must be considered when drafting any contingency plan is the support that can be expected from a variety of sources in times of emergency. Oil spills vary in both their magnitude and complexity and so do the responses to such incidents. It follows, therefore, that there is a tiered structure of oil spill contingency planning and response and that there is a corresponding tiering of sources of support. This paper identifies the various tiers of oil spill planning and response and reviews the external support relevant to each tier. The discussion base of this paper relates particularly to the ROPME sea area as defined herein but many of the observations will apply to other regions of the world where similar situations may be encountered.

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