Devise scientific approaches and investigations to better understand human exposure to environmental chemicals using
laboratory measurement data.
Not exact matches
Bigelow
Laboratory for Ocean Sciences researchers have developed a statistical method to quantify important ocean
measurements from satellite
data, publishing their findings in the journal Global Biogeochemical Cycles.
By comparing their gas cloud
data with equivalent
measurements made in
laboratories on Earth, Webb and his colleagues have hypothesized that the fine - structure constant today is about a thousandth of a percent larger than it was 8 billion years ago.
Data for the study was obtained from dozens of published peer - reviewed scientific studies and the Xylem Functional Traits Database, which contains
measurements of the hydraulic safety margins for each species as determined through
laboratory experiments.
This is from the journal Science:
Measurements of Energetic Particle Radiation in Transit to Mars on the Mars Science
Laboratory «These
data provide insights into the radiation hazards that would be associated with a human mission to Mars.
Atmospheric
Measurement &
Data Sciences Engineer Pacific Northwest National
Laboratory PO Box 999 MSIN: K9 - 24 Richland, WA 99352 Send Email
To find out, atmospheric experts at Pacific Northwest National
Laboratory compared six reanalyses products against observational
data from the U.S. Department of Energy's Atmospheric Radiation
Measurement (ARM) Climate Research Facility in Oklahoma.
Find out how researchers are using
data from U.S. Department of Energy's Atmospheric Radiation
Measurement (ARM) Climate Research Facility — the world's most comprehensive outdoor
laboratory and
data archive for research related to atmospheric processes that affect Earth's climate — to improving regional and global climate models.
Find out how researchers are using
data from the U.S. Department of Energy's Atmospheric Radiation
Measurement (ARM) Climate Research Facility — the world's most comprehensive outdoor
laboratory and
data archive for research related to atmospheric processes that affect Earth's climate — to improve earth system models.
They are based on in - depth
laboratory measurements with advanced scientific
data analysis using proprietary diagnostic Test Patterns in our DisplayMate Multimedia Editions with proprietary instrumentation in our world - class DisplayMate Test Lab.
Jane Burston, Head of the Centre for Carbon
Measurement at the National Physical
Laboratory, spoke to Climate Action about how the NPL is reducing uncertainty in climate
data and helping to develop low carbon technologies.
Advanced Computing, Mathematics, and
Data Alerts - PNNL Staff Information Analytics in Motion (AIM) Initiative Applied Process Engineering
Laboratory Asymmetric Resilient Cybersecurity (External website) Atmospheric Radiation
Measurement (ARM) Program Atmospheric Sciences & Global Change Division Available Technologies Awards Awards - Science and Engineering External Recognition (SEER) Program
This year, an effort was made to provide rapid - release ice thickness
data through coordinated
measurement campaign in March and April by NASA's IceBridge Team, the SIZONet Arctic Observing Network project, the Naval Research
Laboratory and industry (Fugro).
In the article «Global atmospheric particle formation from CERN CLOUD
measurements,» sciencemag.org, 49 authors concluded «Atmospheric aerosol nucleation has been studied for over 20 years, but the difficulty of performing
laboratory nucleation - rate
measurements close to atmospheric conditions means that global model simulations have not been directly based on experimental
data.....
The Court confirmed that the concept includes «
data concerning the medium to long - term consequences of those emissions on the environment, in particular information relating to residues in the environment following application of the product in question, and studies on the
measurement of the substance's drift during that application, whether those
data come from studies performed entirely or in part in the field or from
laboratory or translocation studies» (case C - 442 / 14, paragraph 96).
Environmental Engineer — Duties & Responsibilities Trained environmental engineer with experience in industrial and academic settings Oversee development and feasibility study of a new low level chlorine detection method by nanotechnology Direct identification and quantification of sulfate - reducing bacteria (SRB) and sulfur - oxidizing bacteria (SOB) by Real Time Polymerase Chain Reaction (RT - PCR) Lead research for «Control of distribution system water quality in a changing water quality environment» funded by Tampa Bay Water Authority, Water Research Foundation Responsible for analyzing biological parameters and interpreting
data from distribution system samples Manage QA / QC and sampling protocol for all biological project samples Compose and organize the entire biological sections for final project reports Develop and verify empirical models relating biofilm density and HPC
measurements to water quality Responsible for designing water, sewer, fire, and storm drainage systems for a 3 story building Composed an Operations & Maintenance Manual for drainage systems Drafted full - size CAD blue prints of drainage systems and other structures Proficient in water / waste water treatment, experimental design, and
laboratory studies Provide research for a project studying the effects of ultra-filtration on oily waste water Create a full 40 MGD water treatment plant process and design for a fictional city in North China Oversee site and source water selection, water pump stations design, treatment plant planning and pipeline layout Drafted full - size CAD blue prints and composed an Operations & Maintenance Manual Experience with hydraulic modeling and waste water plant design Consistently recognized for excellence in team leadership, project management, and academic study