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In contrast to the previous photo, this one to me represents a dawning of a new age, as well as a compression of the human and natural elements into one overall system. A simple shot taken outside of a car window at sunrise during a sixteen-hour road trip, to me this shot communicates everything about this project in its simplest forms. The lone tree standing out on the clear-cut field, the grainy texture and faded colors, and the blurred but distinctive array of a fence being raced past at sixty miles per hour all show me one thing: that humans and nature are inextricably intertwined.
Like yin and yang, there are always elements of one in the other, and although they may push against each other in what appears to be a struggle, they are truly one and the same. And as we move into the future, the ways in which this relationship is expressed will change and mutate in unpredictable ways, but I'm confident I will be there for it, both observing and contributing to the changes I feel inside and want to see projected in front of me.
Robert Smith, United States Department of Energy Office of Fossil Energy and Carbon Management
Wednesday, November 20, 2024, 11:50 am – 12:55 pm
Albany, OR
LABORATORY TOUR AGENDA
TimeTour StopSpeakerLocation
11:50 amResearch & Innovation Center Safety Briefing & PhotoB1-327
11:55 amAdvanced Alloys Signature CenterPaul JablonskiMelt Processing Laboratory, B4 / Thermo-Mechanical Processing Laboratory, B30
12:15 pmMaterials Performance: Corrosion & Oxidation, Hydrogen ResistanceZineb BelarbiCorrosion-Electrochemistry Laboratory, B26-201
12:35 pmMaterials Performance: Mechanical BehaviorOmer DoganFracture Mechanics Testing Laboratory, B31-110
TOUR STOP DESCRIPTIONS
Advanced Alloys Signature Center
NETL’s metallurgists and materials scientists are responsible for developing affordable, high-performance alloys to enable numerous energy and industrial applications. This includes alloys with increased temperature capabilities that can enable highly efficient advanced energy systems, alloys for aerospace and defense applications, and a world leading biomedical alloy for coronary stents through a cost reimbursement agreement with an industrial partner. NETL utilizes an integrated computational materials engineering approach, which combines computational and experimental methods for translating materials science concepts into practical technologies. Key to this strategy are targeted experiments that evaluate performance in realistic service conditions and demonstrate manufacturing at scales and by methods that readily translate to industrial practice. NETL conducts research into a wide range of alloys including aluminum, high-conductivity copper, steels, superalloys, refractory alloys, and high-entropy alloys. NETL’s alloy development capability is anchored by its substantial ingot metallurgy manufacturing facilities (vacuum induction melting, vacuum arc remelting, and electro-slag remelting capabilities) that are unique within the national laboratory complex and the nation. Current research is focusing on affordable alloys and materials with improved resistance to hydrogen to enhance the safety, reliability and resiliency of hydrogen production from carbonaceous sources with carbon capture, transport in pipelines, and large-scale storage, as well as the utilization of hydrogen for power generation.
Materials Performance: Corrosion & Oxidation, Hydrogen Resistance
Corrosion, oxidation and hydrogen embrittlement have caused catastrophic failures of metallic components in many applications. Understanding a material’s response to environmental factors is critical for improving the reliability of systems and developing new corrosion resistant alloys and corrosion protection strategies. The Corrosion and Electrochemistry Lab (CEL) and related facilities are used to quantify and understand materials degradation in extreme service conditions. CEL has electronic potentiostats/galvanostatsmeters for conducting electrochemical experiments to measure corrosion rates using different electrochemical methods, for predicting susceptibility to pitting corrosion by determining pitting potential, and for determining conditions for corrosion protection. NETL also has test beds for assessing corrosion and oxidation at elevated temperatures and pressures. Current research focuses on materials performance in hydrogen environments; hydrogen-containing fuels and hydrogen combustion products; assessing materials, coatings and liners; and electrochemical sensor performance for applications in natural gas, hydrogen and CO2 pipelines.
Materials Performance: Mechanical Behavior
Scientists and engineers utilize the Mechanical Testing Laboratory to determine the mechanical behavior and performance of advanced materials under temperatures and pressures commonly associated with fossil energy systems. The focus of this work is to develop novel materials with enhanced performance characteristics. The laboratory is equipped to test a material’s ability to withstand cyclical mechanical loads for many cycles and resulting crack growth behavior of materials at temperatures up to 1200° C. The laboratory has the capability to evaluate a material’s ability to withstand mechanical loads for long periods of time at temperatures up to 1100 °C. Additionally, the lab can test a material’s compressive and tensile strength—the resistance to breaking under tension—from room temperature to 1200 °C, as well as impact testing and hot-hardness testing.
Art History Trip in Jordan
© Yasmin Bseiso - All rights reserved
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for all public transporation vehicles... making delhi (slightly) less polluted... More cities should follow suit!!
Week 24: Depth of field
I had this picture in mind for this week: A landscape full of trees or even better, mountains and valleys; taken with a long lens (hello, extra credit!) and with a small aperture to create beautiful compression. Unfortunately for me, I live in a flatland, so this is the closest I could do. No valleys but some trees in a looong park (about 900ft long) close to home. I made the mistake of not calculating my hyperfocal distance correctly and I realized I didn't have the tree closest to the foreground in focus until it was too late. It was taken with a focal length of 149mm in my crop sensor (effective of 238mm)
Camera: Canon SL1
Shutter: 1/250th of a second
Aperture: f/16
ISO: 800
Lens: Canon 70-300 f/4-5.6L IS@238mm
Location: Park of Rose