In situ Corrosion Study of Copper and Copper-Alloys Exposed to Natural Seawater of the Veracruz Port (Gulf of Mexico)

TEM study of a biofilm on copper corrosion

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100163563 ◽

1996 ◽

Vol 54 ◽

pp. 220-221

Author(s):

W. A. Chiou ◽

N. Kohyama ◽

B. Little ◽

P. Wagner ◽

M. Meshii

Keyword(s):

Marine Bacterium ◽

Culture Medium ◽

Copper Alloys ◽

Pure Copper ◽

Localized Corrosion ◽

Natural Seawater ◽

Copper Corrosion ◽

New Approach ◽

The Past ◽

Copper Tolerant

The corrosion of copper and copper alloys in a marine environment is of great concern because of their widespread use in heat exchangers and steam condensers in which natural seawater is the coolant. It has become increasingly evident that microorganisms play an important role in the corrosion of a number of metals and alloys under a variety of environments. For the past 15 years the use of SEM has proven to be useful in studying biofilms and spatial relationships between bacteria and localized corrosion of metals. Little information, however, has been obtained using TEM capitalizing on its higher spacial resolution and the transmission observation of interfaces. The research presented herein is the first step of this new approach in studying the corrosion with biological influence in pure copper.Commercially produced copper (Cu, 99%) foils of approximately 120 μm thick exposed to a copper-tolerant marine bacterium, Oceanospirillum, and an abiotic culture medium were subsampled (1 cm × 1 cm) for this study along with unexposed control samples.

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Bio-corrosion Study Using In-situ Observation Technique

JOURNAL OF THE JAPAN WELDING SOCIETY ◽

10.2207/jjws.89.561 ◽

2020 ◽

Vol 89 (8) ◽

pp. 561-565

Author(s):

Yasuyuki MIYANO

Keyword(s):

In Situ Observation ◽

Corrosion Study

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Electrochemical scanning probe microscope (EC-SPM) for the in situ corrosion study of materials: an overview with examples

Corrosion Reviews ◽

10.1515/corrrev.2011.023 ◽

2011 ◽

Vol 29 (1-2) ◽

Cited By ~ 6

Author(s):

U. Kamachi Mudali ◽

N. Padhy

Keyword(s):

Scanning Probe Microscope ◽

Scanning Probe ◽

Corrosion Study ◽

Probe Microscope

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Influence of frontal cyclone evolution on the 2009 (Ekman) and 2010 (Franklin) Loop Current eddy detachment events

Ocean Science ◽

10.5194/os-10-947-2014 ◽

2014 ◽

Vol 10 (6) ◽

pp. 947-965 ◽

Cited By ~ 5

Author(s):

Y. S. Androulidakis ◽

V. H. Kourafalou ◽

M. Le Hénaff

Keyword(s):

Numerical Simulation ◽

Gulf Of Mexico ◽

Satellite Data ◽

Potential Vorticity ◽

In Situ Measurements ◽

Loop Current ◽

Positive Potential ◽

Eastern Gulf Of Mexico ◽

And Migration

Abstract. The anticyclonic Loop Current Eddy (LCE) shedding events are strongly associated with the evolution of Loop Current Frontal Eddies (LCFEs) over the eastern Gulf of Mexico (GoM). A numerical simulation, in tandem with in situ measurements and satellite data, was used to investigate the Loop Current (LC) evolution and the surrounding LCFE formation, structure, growth and migration during the Eddy Ekman and Eddy Franklin shedding events in the summers of 2009 and 2010, respectively. During both events, northern GoM LCFEs appeared vertically coherent to at least 1500 m in temperature observations. They propagated towards the base of the LC, where, together with the migration of Campeche Bank (southwest GoM shelf) eddies from south of the LC, contributed to its "necking-down". Growth of Campeche Bank LCFEs involved in Eddy Franklin was partially attributed to Campeche Bank waters following upwelling events. Slope processes associated with such upwelling included offshore exports of high positive potential vorticity that may trigger cyclone formation and growth. The advection and growth of LCFEs, originating from the northern and southern GoM, and their interaction with the LC over the LCE detachment area favor shedding conditions and may contribute to the final separation of the LCE.

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Comparison of in situ and columnar aerosol spectral measurements during TexAQS-GoMACCS 2006: testing parameterizations for estimating aerosol fine mode properties

Atmospheric Chemistry and Physics Discussions ◽

10.5194/acpd-9-17465-2009 ◽

2009 ◽

Vol 9 (4) ◽

pp. 17465-17494

Author(s):

D. B. Atkinson ◽

P. Massoli ◽

N. T. O'Neill ◽

P. K. Quinn ◽

S. Brooks ◽

...

Keyword(s):

Gulf Of Mexico ◽

Atmospheric Aerosols ◽

Regional Scale ◽

Atmospheric Composition ◽

Light Extinction ◽

Large Area ◽

Light Extinction Coefficient ◽

Spectral Models ◽

Fine Mode

Abstract. During the 2006 Texas Air Quality Study and Gulf of Mexico Atmospheric Composition and Climate Study (TexAQS-GoMACCS 2006), the optical, chemical and microphysical properties of atmospheric aerosols were measured on multiple mobile platforms and at ground based stations. In situ measurements of the aerosol light extinction coefficient (σep) were performed by two multi-wavelength cavity ring-down (CRD) instruments, one located on board the NOAA R/V Ronald H. Brown (RHB) and the other located at the University of Houston, Moody Tower (UHMT). An AERONET sunphotometer was also located at the UHMT to measure the columnar aerosol optical depth (AOD). The σep data were used to extract the extinction Ångström exponent (åep), a measure of the wavelength dependence of σep. There was general agreement between the åep (and to a lesser degree σep measurements by the two spatially separated CRD instruments during multi-day periods, suggesting a regional scale consistency of the sampled aerosols. Two spectral models are applied to the σep and AOD data to extract the fine mode fraction of extinction (η) and the fine mode effective radius (Reff f). These two parameters are robust measures of the fine mode contribution to total extinction and the fine mode size distribution respectively. The results of the analysis are compared to Reff f values extracted using AERONET V2 retrievals and calculated from in situ particle size measurements on the RHB and at UHMT. During a time period when fine mode aerosols dominated the extinction over a large area extending from Houston/Galveston Bay and out into the Gulf of Mexico, the various methods for obtaining Reff f agree qualitatively (showing the same temporal trend) and quantitatively (pooled standard deviation=28 nm).

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Use of Microautoradiography Combined with Fluorescence In Situ Hybridization To Determine Dimethylsulfoniopropionate Incorporation by Marine Bacterioplankton Taxa

Applied and Environmental Microbiology ◽

10.1128/aem.70.8.4648-4657.2004 ◽

2004 ◽

Vol 70 (8) ◽

pp. 4648-4657 ◽

Cited By ~ 70

Author(s):

Maria Vila ◽

Rafel Simó ◽

Ronald P. Kiene ◽

Jarone Pinhassi ◽

José M. González ◽

...

Keyword(s):

In Situ Hybridization ◽

Gulf Of Mexico ◽

Fluorescence In Situ Hybridization ◽

Marine Bacteria ◽

Heterotrophic Bacteria ◽

Phytoplankton Bloom ◽

Mediterranean Coast ◽

Marine Bacterioplankton ◽

Significant Uptake

ABSTRACT The fraction of planktonic heterotrophic bacteria capable of incorporating dissolved dimethylsulfoniopropionate (DMSP) and leucine was determined at two coastal sites by microautoradioagraphy (AU). In Gulf of Mexico seawater microcosm experiments, the proportion of prokaryotes that incorporated sulfur from [35S]DMSP ranged between 27 and 51% of 4′,6-diamidino-2-phenylindole (DAPI)-positive cells, similar to or slightly lower than the proportion incorporating [3H]leucine. In the northwest Mediterranean coast, the proportion of cells incorporating sulfur from [35S]DMSP increased from 5 to 42% from January to March, coinciding with the development of a phytoplankton bloom. At the same time, the proportion of cells incorporating [3H]leucine increased from 21 to 40%. The combination of AU and fluorescence in situ hybridization (FISH) revealed that the Roseobacter clade (α-proteobacteria) accounted for 13 to 43% of the microorganisms incorporating [35S]DMSP at both sampling sites. Significant uptake of sulfur from DMSP was also found among members of the γ-proteobacteria and Cytophaga-Flavobacterium groups. Roseobacter and γ-proteobacteria exhibited the highest percentage of DAPI-positive cells incorporating 35S from DMSP (around 50%). Altogether, the application of AU with [35S]DMSP combined with FISH indicated that utilization of S from DMSP is a widespread feature among active marine bacteria, comparable to leucine utilization. These results point toward DMSP as an important substrate for a broad and diverse fraction of marine bacterioplankton.

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Correlative Microstructure Analysis and In Situ Corrosion Study of AISI 420 Martensitic Stainless Steel for Plastic Molding Applications

Journal of The Electrochemical Society ◽

10.1149/2.0531704jes ◽

2017 ◽

Vol 164 (4) ◽

pp. C85-C93 ◽

Cited By ~ 19

Author(s):

Krishnan Hariramabadran Anantha ◽

Cem Örnek ◽

Sebastian Ejnermark ◽

Anna Medvedeva ◽

Johnny Sjöström ◽

...

Keyword(s):

Stainless Steel ◽

Martensitic Stainless Steel ◽

Microstructure Analysis ◽

Plastic Molding ◽

Corrosion Study ◽

Aisi 420

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Examination of AVO responses in the eastern deepwater Gulf of Mexico

Geophysics ◽

10.1190/1.1487130 ◽

2001 ◽

Vol 66 (6) ◽

pp. 1864-1876 ◽

Cited By ~ 6

Author(s):

Tad M. Smith ◽

Carl H. Sondergeld

Keyword(s):

Gulf Of Mexico ◽

Oil And Gas ◽

Shear Velocity ◽

Bright Spot ◽

Velocity Data ◽

Amplitude Variation ◽

Amplitude Variation With Offset ◽

Saturated Sands ◽

Local Shear

Exploration programs in deepwater Tertiary basins (e.g., the Gulf of Mexico) typically rely on bright‐spot and amplitude variation with offset (AVO) technology to help identify oil‐ and gas‐charged sands. The reliance on these attributes, along with the high cost of exploration programs in deepwater environments, has driven the need to examine the limitations of these technologies and to build robust models for the conditions under which AVO is useful as a fluid and/or lithology indicator. We build subregional AVO background trends for both brine‐ and gas‐saturated sands from several wells from the eastern deepwater Gulf of Mexico. These trends are built from the depth dependencies of velocities and densities for both shale and sands (brine saturated). Simple models of AVO gradient and intercept are constructed as a function of depth below the mud line. Sand and shale properties show little velocity contrast, justifying the interpretation of these data in the context of linearized AVO models. In addition to the in‐situ brine response, the response to gas is also calculated. These trend models indicate that the AVO response is suppressed (although still positive) below a depth of approximately 10 000 ft below the mud line. Even optimistic porosity modeling (sand porosity >30°) does not substantially change this conclusion. An important corollary is that the absence of a strong AVO anomaly at these deeper depths cannot be used with confidence when ruling out hydrocarbon presence. This observation also highlights the need to crossplot attributes to best predict hydrocarbon presence. Velocity data collected as part of this study are also used to generate a local shear velocity estimator for sands and shale. These shear estimators are similar in form to other published estimators, but minor differences in coefficients may become important in AVO modeling.

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