DOCSLIB.ORG
Explore
Sign Up
Log In
Upload
Search
Home
» Tags
» Corexit
Corexit
Chemical Dispersants and Their Role in Oil Spill
Oil + Dispersant
29-3 John.Pdf
Persistence, Fate, and Effectiveness of Dispersants Used During The
5.1.2 Dioctyl Sodium Sulfosuccinate
Deepwater Horizon and the Law of the Sea: Was the Cure Worse Than the Disease? Grant Wilson Lewis & Clark Law School,
[email protected]
Responses of Aquatic Animals in the Gulf of Mexico to Oil and Dispersants
Environmental Effects of the Deepwater Horizon Oil Spill: Focus
Toxicity of Dispersant Corexit 9500A and Crude Oil to Marine Microzooplankton
Oil Spill Dispersants
Corexit – the Facts
Corexit® Ec9527a
Bioremediation of Marine Oil Spills R
Assessment of the Potential Impact of COREXIT® Oil Dispersants on Seafood Safety
Consensus Statement on Dispersants in the Gulf July 16, 2010
The Deepwater Horizon Oil Spill and the Gulf of Mexico Fishing Industry
Carcinogenic Effects of Oil Dispersants: a KEGG Pathway-Based RNA-Seq Study of Human Airway Epithelial Cells
Literature Review of Chemical Oil Spill Dispersants and Herders in Fresh and Brackish Waters
Top View
Corexit – 2-Butoxyethanol Studienprojekt Damocles B.SPD SS 2013
Deepwater Horizon Oil Spill Final Programmatic Damage Assessment
Exxonmobil Oil Spill Dispersant Guidelines
Oil Spill Dispersant (COREXIT ®EC9500A and EC9527A) Information for Health Professionals
Chemicals Used on Spills
Eco-Toxicity and Sublethal Impacts
Oil Spill Response Field Manual
Corexit Myths Facts
Corexit 95000 Dispersant Effectiveness Testing in Cold Water
Consensus Study Report April 2019 HIGHLIGHTS
Susan D. Shaw, Dr.P.H. Education Experience: 1990 to Present
Trace Analysis of Surfactants in Corexit Oil Dispersant Formulations and Seawater
Dispersant-Degradation.Pdf
Gulf Oil Release Health and Industry Consortium
Chemical Dispersants and Their Role in Oil Spill
Mesocosm Studies: Polycyclic Aromatic Hydrocarbons (Pahs)
Determination of Dioctylsufosuccinate in Select Seafoods
Safety Data Sheet Corexit® Ec9500a
Cooperative Aquatic Toxicity Testing of Dispersed Oil and the “Chemical Response to Oil Spills: Ecological Effects Research Forum (CROSERF)”
Fate and Persistence of Oil Spill Response Chemicals in Arctic Seawater
LC/MS/MS Analysis of PAH's, Their Derivatives, and 3 Oil Dispersants
REPORT on BEST ACHIEVABLE TECHNOLOGY Applied Response Technologies (ART)
Toxicity and Dispersants
Oil Spills and Corexit
Emerging Surfactants, Sorbents, and Additives for Use in Oil Spill Clean-Up
Assessment of the Potential Impact of COREXIT® Oil Dispersants on Seafood Safety
An Analysis of Change in Policy Context Regarding COREXIT
Effects of Corexit 9500A and Corexit-Crude Oil Mixtures on Transcriptomic Pathways and Developmental Toxicity in Early Life Stage Mahi-Mahi (Coryphaena Hippurus)
Zuijdgeest-And-Huettel-2012.Pdf
Safety Data Sheet Corexit™ Ec9500a
Corexit 9527
Modification of the Dispersant Corexit® 9500 for Use in Freshwater
A Review of Literature Related to Human Health and Oil Spill Dispersants
Marine Snow Aggregates Are Enriched in Polycyclic Aromatic Hydrocarbons (Pahs) in Oil Contaminated Waters: Insights from a Mesocosm Study
Dispersants: the Lesser of Two Evils Or a Cure Worse Than the Disease?
Dispersants: the Lesser of Two Evils Or a Cure Worse Than the Disease? Catherine Kilduff
Corexit EC9580A MSDS
Oil Dispersants Are Indeed Potential Prehensive Toxicity Testing, the Establishment of Safety Hazards