Innovation in Managing Leak Repair and Crude Oil Lifting Schedule to Respond to Pipeline Leak in Offshore Terminal System

2021 ◽  
Author(s):  
Ferry Firmansyah ◽  
Adit Satriawirawan ◽  
Aryo Wisnudarto
Keyword(s):  
Response Time ◽  
Crude Oil ◽  
Oil Spill ◽  
Storage Tank ◽  
Oil Spills ◽  
Innovative Approach ◽  
Subsea Pipeline ◽  
Natural Oil ◽  
Terminal Area ◽  
Crude Oil Spill

Abstract Offshore terminal usually performs crude oil lifting process regularly every 7-8 days. However, three repetitive leaks in crude oil subsea pipeline 36" MOL SPM-1 to SPM-2 occurred in the offshore terminal area had stopped the natural oil lifting process. Due to complex conditions, leak repair needs a longer duration and some future crude oil lifting schedules facing cancelation possibilities. By simulating the leak parameter, more than 60 bbl. of crude oil would release from the leaking pipeline in 48 hours crude oil lifting operation. An innovative approach is built by designing a new tool to contain oil spills from the source using a pyramid shape tank and safely transport to the temporary storage tank on the diving vessel to keep crude oil lifting process execution still possible to hold while the subsea pipeline repair by installing subsea clamp is undergo. New tools have successfully eliminated oil spill spreading during crude oil lifting takes place schedule. Six crude lifting schedules have been safely delivered with nearly 30,000 liters of crude oil spill have been evacuated and transferred back to processing facilities. Further implementation would possibly be held in pipeline preservation program and diver less application, which can increase leak response time.

A novel mussel-inspired strategy toward superhydrophobic surfaces for self-driven crude oil spill cleanup

2015 ◽  
Vol 3 (23) ◽  
pp. 12171-12178 ◽  
Author(s):  
Zhenxing Wang ◽  
Yanchao Xu ◽  
Yuyan Liu ◽  
Lu Shao
Keyword(s):  
Folic Acid ◽  
Crude Oil ◽  
Oil Spill ◽  
Oil Spills ◽  
Superhydrophobic Surfaces ◽  
Low Concentration ◽  
Oil Spill Cleanup ◽  
Crude Oil Spill

A superhydrophobic fabric was first fabricated by a novel mussel-inspired strategy with the aid of folic acid and a low concentration of dopamine without any additional nanoparticle incorporation. A mini boat of this fabric can automatically recycle oil spills while floating freely on water.

CLEANUP AND EFFECTS OF CRUDE OIL AND FUEL OIL SPILLS IN OSITO CANYON: A COMPARISON

1987 ◽  
Vol 1987 (1) ◽  
pp. 483-487
Author(s):  
Jack A. Kemerer ◽  
Terrence McGuigan ◽  
Douglas Campbell
Keyword(s):  
Crude Oil ◽  
Oil Spill ◽  
Environmental Protection Agency ◽  
Technical Assistance ◽  
Oil Spills ◽  
Fuel Oil ◽  
Government Officials ◽  
Financial Responsibility ◽  
Environmentally Sensitive ◽  
Crude Oil Spill

ABSTRACT In July 1981, a crude oil spill from a pipeline break occurred in Osito Canyon near Castaic, California. In April 1984, a tank truck accident on Interstate Route 5 resulted in a fuel oil spill into a tributary canyon to Osito Canyon. Although the spills occurred at virtually the same location, the amounts spilled, the extent of the canyons contaminated, and the cleanup methods used produced different recovery results. The spillers assumed financial responsibility for cleanup actions and complied with the concerns and recommendations of government officials. The Environmental Protection Agency served as the on-scene coordinator, while the U. S. Forest Service and the U. S. Coast Guard's Pacific Strike Team provided on-site monitors and technical assistance. Impact from the spills appeared to be negligible on the chaparral type vegetation and sparse concentration of wildlife in the area. Effects from the spills were not lasting, and no environmentally sensitive downstream areas were affected.

scholarly journals OIL SPILL CLEANUP AND HABITAT RESTORATION—LITTLE PANOCHE CREEK, CALIFORNIA1

1985 ◽  
Vol 1985 (1) ◽  
pp. 331-334
Author(s):  
Emily M. Pimentell
Keyword(s):  
Crude Oil ◽  
Oil Spill ◽  
Contaminated Soil ◽  
Agricultural Development ◽  
Habitat Restoration ◽  
Mitigation Measures ◽  
Marsh Vegetation ◽  
Small Water ◽  
Natural Oil ◽  
Crude Oil Spill

ABSTRACT In September 1983, an underground pipeline break resulted in a 31,000 barrel crude oil spill into Little Panoche Creek, Fresno County, California. The crude oil spill saturated soil and vegetation for two miles along the creek. Although the creek in itself is not of significant economic or environmental importance, the collective protection of creeks in the area is important. Water is a limiting resource and wildlife habitats have been minimized due to agricultural development. The goal of the cleanup was to completely remove contaminated soil and vegetation so as to minimize direct damage to wildlife including the San Joaquin Kit Fox, a state-listed rare species and federally-listed endangered species. Mitigation measures included the construction of small water ponding areas to enhance the growth of existing marsh vegetation, and seeding to revegetate the creek banks with indigenous shrubs to provide cover for wildlife and minimize soil erosion. Although a large volume of oil was spilled, conditions such as slow water flow in the creek, easy equipment access to the creek, and a natural oil collection area provided for favorable cleanup conditions and resulted in 99 percent recovery of oil. Contaminated soil was stockpiled to allow it to biodegrade, rather than use the costly alternative of landfill disposal. The creek habitat was near full recovery one year after the spill. Recovery was assessed by the regrowth of marsh and shrub vegetation in the creek and its adjacent banks.

Scaling sorbent materials for real oil-sorbing applications and environmental disasters

2019 ◽  
Vol 6 ◽  
Author(s):  
Andrew Patalano ◽  
Fabian Villalobos ◽  
Pedro Pena ◽  
Evan Jauregui ◽  
Cengiz Ozkan ◽  
...  
Keyword(s):  
Crude Oil ◽  
Oil Spill ◽  
Oil Spills ◽  
Field Testing ◽  
Environmental Cleanup ◽  
Practical Applications ◽  
Environmental Disasters ◽  
Advantages And Disadvantages ◽  
Sorbent Materials ◽  
Crude Oil Spill

ABSTRACTThere are few feasible options for sorbents, which can be quickly manufactured and deployed in the event of a major oil spill and so every oil spill is an ecological disaster. This paper aims to provide an understanding of what a realistic, full-scale crude oil spill solution would look like based on the performance of the best sorbents currently available, their costs, and their advantages.Adsorbent materials or “sorbents” described here have been a recent target for research toward applications in environmental cleanup, remediation, and hazardous material containment. These materials contain many compositions, syntheses, and practical manufacturing parameters that make most of them practically and logistically unfit to tackle quantities much larger than a single barrel of oil. Different properties of crude oil and nonpolar materials, such as their viscosity, density, and weathering, can also make these materials seem attractive on a lab scale but underperform in field testing and in practical applications. This review addresses the challenges, advantages, and disadvantages of different technical applications of the superior sorbent materials and material types in the literature. In addition, we discuss the different costs and manufacturing challenges of sorbent materials in real oil spills and what a feasible containment sorbent material might look like.

scholarly journals Oil spill identification in visible sensor imaging using automated cross correlation with crude oil image filters

2020 ◽  
Vol 39 (2) ◽  
pp. 579-588
Author(s):  
G. Ofualagba ◽  
D.U. Onyishi
Keyword(s):  
Crude Oil ◽  
Oil Spill ◽  
Cross Correlation ◽  
Oil Spills ◽  
Region Of Interest ◽  
Volume Estimation ◽  
Spectrum Density ◽  
Image Filters ◽  
Petroleum Development ◽  
Crude Oil Spill

An algorithm for detection of crude oil spills in visible light images has been developed and tested on 50 documented crude oil spill images from Shell Petroleum Development Company (SPDC) Nigeria. A set of three 25 x 25 pixels crude oil filters, with unique red, green, and blue (RGB) colour values, homogeneity, and power spectrum density (PSD) features were cross-correlated with the documented spill images. The final crude oil spill Region of Interest (ROI) was determined by grouping interconnected pixels based on their proximity, and only selecting ROIs with an area greater than 5,000 pixels. The crude oil filter cross correlation algorithm demonstrated a sensitivity of 84% with a False Positive per Image (FPI) of 0.82. Future work includes volume estimation of detected spills using crude oil filters, and utilizing this information in the recommendation of appropriate spill clean-up and remediation procedures for the detected spills. Keywords: Crude Oil Spill Detection, Crude oil image filters, Cross correlation, Visible sensor imaging, Oil Spill Segmentation.

IS OVEREXPOSURE TO BENZENE LIKELY DURING CRUDE OIL SPILL RESPONSE?1

1989 ◽  
Vol 1989 (1) ◽  
pp. 127-129 ◽  
Author(s):  
W. D. Eley ◽  
R. J. Morris ◽  
L. L. Hereth ◽  
T. F. Lewis
Keyword(s):  
Crude Oil ◽  
Oil Spill ◽  
Oil Spills ◽  
Field Investigation ◽  
Worst Case ◽  
Adverse Conditions ◽  
Oil Slick ◽  
Oil Spill Response ◽  
Self Protection ◽  
Crude Oil Spill

ABSTRACT This article examines the potential for benzene exposure during crude oil spill response. Literature review found that under normal conditions benzene is lost from an oil slick within 40 minutes to 8 hours. A correlation between benzene and API gravity is presented graphically. This information was used to develop worst-case scenarios. Results of a preliminary field investigation indicate that benzene overexposure may be possible during “ideal adverse” conditions. Four generic crude oil spills are described along with rationale for the suggested level of self protection.

scholarly journals Sacrificial amphiphiles: Eco-friendly chemical herders as oil spill mitigation chemicals

2015 ◽  
Vol 1 (5) ◽  
pp. e1400265 ◽  
Author(s):  
Deeksha Gupta ◽  
Bivas Sarker ◽  
Keith Thadikaran ◽  
Vijay John ◽  
Charles Maldarelli ◽  
...  
Keyword(s):  
Crude Oil ◽  
Oil Spill ◽  
Oil Spills ◽  
Cold Water ◽  
Marine Ecosystem ◽  
Hot Water ◽  
Sea Surface ◽  
Marine Biota ◽  
Polar Group ◽  
Branched Chain

Crude oil spills are a major threat to marine biota and the environment. When light crude oil spills on water, it forms a thin layer that is difficult to clean by any methods of oil spill response. Under these circumstances, a special type of amphiphile termed as “chemical herder” is sprayed onto the water surrounding the spilled oil. The amphiphile forms a monomolecular layer on the water surface, reducing the air–sea surface tension and causing the oil slick to retract into a thick mass that can be burnt in situ. The current best-known chemical herders are chemically stable and nonbiodegradable, and hence remain in the marine ecosystem for years. We architect an eco-friendly, sacrificial, and effective green herder derived from the plant-based small-molecule phytol, which is abundant in the marine environment, as an alternative to the current chemical herders. Phytol consists of a regularly branched chain of isoprene units that form the hydrophobe of the amphiphile; the chain is esterified to cationic groups to form the polar group. The ester linkage is proximal to an allyl bond in phytol, which facilitates the hydrolysis of the amphiphile after adsorption to the sea surface into the phytol hydrophobic tail, which along with the unhydrolyzed herder, remains on the surface to maintain herding action, and the cationic group, which dissolves into the water column. Eventual degradation of the phytol tail and dilution of the cation make these sacrificial amphiphiles eco-friendly. The herding behavior of phytol-based amphiphiles is evaluated as a function of time, temperature, and water salinity to examine their versatility under different conditions, ranging from ice-cold water to hot water. The green chemical herder retracted oil slicks by up to ~500, 700, and 2500% at 5°, 20°, and 35°C, respectively, during the first 10 min of the experiment, which is on a par with the current best chemical herders in practice.

Oil spill risk assessment for a Single Buoy Mooring terminal in the Port of Taranto (Southern Italy)

2021 ◽  
Author(s):  
Svitlana Liubartseva ◽  
Ivan Federico ◽  
Giovanni Coppini ◽  
Rita Lecci
Keyword(s):  
Risk Assessment ◽  
Oil Spill ◽  
Oil Spills ◽  
Cost Benefit Analysis ◽  
Cost Benefit ◽  
Oil Refinery ◽  
Plant Oil ◽  
Contamination Assessment ◽  
Subsea Pipeline ◽  
Oil Pipeline

<p>Being situated in a semi-enclosed Mediterranean lagoon, the Port of Taranto represents a transport, industrial and commercial hub, where the port infrastructure, a notorious steel plant, oil refinery and naval shipyards coexist with highly-dense urban zone, recreation facilities, mussel farms, and vulnerable environmental sites. A Single Buoy Mooring in the center of the Mar Grande used by tankers and subsea pipeline that takes oil directly from tanker to refinery are assumed to stay at risk of accidental oil spills, despite significant progress in technology and prevention.</p><p>The oil spill model MEDSLIK-II (http://medslik-ii.org) coupled to the high resolution Southern Adriatic Northern Ionian coastal Forecasting System (SANIFS http://sanifs.cmcc.it Federico et al., 2017) is used to model hypothetical oil spill scenarios in stochastic mode. 15,000+ hypothetical individual spills are generated from randomly selected start locations: 50% from a buoy and 50% along the subsea pipeline 2018–2020. Individual spill scenario is based on a real crude oil spill caused by a catastrophic pipeline failure happened in Genoa in April 2016 (Vairo et al., 2017). The model outputs are processed statistically to represent quantitively: (1) timing of the oil drift; (2) hazard maps in probability terms at the sea surface and on the coastline; (3) oil mass balance; (4) local-zone contamination assessment.</p><p>The simulations reveal that around 48% of the spilled oil will evaporate during the first 8 hours after the accident. Being transported by highly variable currents and waves, the rest is additionally exposed to multiply reflections from sea walls and concrete wharfs that dominate in the study area. As a result, the oil will be dispersed almost isotropically in the Mar Grande, indicating a rather moderate or small level of concentrations over the minimum threshold values (French McCay, 2016).</p><p>We have concluded that at a probability of 50%, the first oil beaching event will happen within 14 hours after the accident. The most contaminated areas are predicted on and around the nearest Port berths, on the coastlines of the urban area and on the tips of the breakwaters that frame the Mar Grande openings. The remote areas of the West Port and Mar Piccolo are expected to be the least contaminated ones.</p><p>Results are applicable to contingency planning, ecological risk assessment, cost-benefit analysis, and education.</p><p>This work is conducted in the framework of the IMPRESSIVE project (#821922) co-funded by the European Commission under the H2020 Programme.</p><p>References</p><p>Federico, I., Pinardi, N., Coppini, G., Oddo, P., Lecci, R., Mossa, M., 2017. Coastal ocean forecasting with an unstructured grid model in the southern Adriatic and northern Ionian seas. Nat. Hazards Earth Syst. Sci., 17, 45–59, doi: 10.5194/nhess-17-45-2017.</p><p>French McCay, D., 2016. Potential effects thresholds for oil spill risk assessments. Proc. of the 39 AMOP Tech. Sem., Environment and Climate Change Canada, Ottawa, ON, 285–303.</p><p>Vairo, T., Magrì, S., Qualgliati, M., Reverberi, A.P., Fabiano, B., 2017. An oil pipeline catastrophic failure: accident scenario modelling and emergency response development. Chem. Eng. Trans., 57, 373–378, doi: 10.3303/CET1757063.</p>

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