398:"The most economically feasible strategies for significantly reducing global carbon emissions involve substantial increases in energy production from renewable resources, which presently contribute only 10-13% in the world’s energy portfolio... Renewable energy technologies based on wind energy, marine hydrokinetic energy, and biofuel energy are integral parts of the living Earth-surface environment. The implementation of these technologies should be supported by mechanistic models, which are driven by real-time data, and should be integrated with policy, economics, human health sciences, and ecology. SAFL can provide national leadership on all of these fronts, working with a mindset to actively engage industry, government and state agencies, and other renewable energy stakeholders."
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Facilities at SAFL include the main channel, through which
Mississippi River water can be sent for large-scale sediment transport experiments; the delta basins, designed to quickly build experimental stratigraphy; the eXperimental EarthScape facility (XES, nicknamed "Jurassic Tank"), a subsiding basin for large-scale depositional modeling; the Outdoor Stream Lab, which is used to understand fluvial processes and riparian ecology at closer to a field scale; and many other pieces of equipment. The lab is known for rapidly constructing and destructing experimental apparatuses, including full-scale models of rivers to understand the effects of
372:"Mitigating the impacts of global environmental change will be at the forefront of scientific research for many decades to come. SAFL is positioned to help create real and measurable impacts through catalyzing large-scale interdisciplinary research, integrating engineering with social, behavioral, and economic sciences, leveraging big data and data-driven science, exploiting exponentially growing computational capacity, and actively engaging stakeholders, policy makers, and communities."
286:. Researchers working on channel morphology have shown the importance of vegetation in restricting braided channels to a single thread (and often sinuous) system. Research done on experimental alluvial fan deltas has highlighted the statistics of flow occupation and their potential hazard to life and property, shown autogenic cyclicity in patterns of sediment storage and release that determine short-term shoreline positions, and has been connected to
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SAFL is a leader in cardiovascular fluid mechanics research using a simulation-based research approach. Novel computational hemodynamics tools have been developed, validated, and applied to study a wide range of clinically relevant problems. Partnerships have been established and leveraged within the
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Since 2007 SAFL has developed new experimental facilities at laboratory and field scales, advanced computational tools, and new partnerships with industry and government laboratories to position itself for more capable research in fluid mechanics and renewable energy systems. This research focus aims
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A wind energy consortium that is partnered with many organizations that range from small companies to government agencies like the U.S. Department of Energy. Ongoing research projects deal with wind farm siting, condition-based monitoring, control system optimization, aeroelastic modeling, drag and
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was developed by SAFL and NCED and can be used to conduct larger experiments under controlled conditions. It is capable of creating floods and has a large range of flow rates for hydrological, ecological and biological research. the OSL allows for a range of water flow rates, sediment feed rates, a
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These two rectangular basins part of SAFL research on deltas and deltaic systems. The basins allow control of water surface, sediment feed, and water feed rates. Data acquisition includes a new SAFL-designed data carriage, topographic scanner, and various camera systems. Both basins are 16.4 x 16.4
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The main channel is SAFL's largest research channel, measuring 275 feet in length, is a straight, concrete channel that has the capability of a 300 ft³/s flow rate of water from the
Mississippi River that can be run as a pond system or a flow-through system. The channel is equipped with a wave
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In 2006, the
University of Minnesota and St. Anthony Falls Laboratory implemented a wind-energy research consortium, called EOLOS, which brought together academic partners, industry, and government laboratories with help of a grant from the Department of Energy. This new facility located just south
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From 1977 through 1993, the
Laboratory emphasized the integration of education and basic and applied research. Several new faculty were appointed to bring new research efforts to SAFL like computational fluid dynamics, water resources and energy, environmental water research, naval hydrodynamics,
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Designed for modeling of the air/land boundary layer, the wind tunnel can provide a circulating or once-through flow of air that can reach up to 148 ft/s. It is equipped with a glass observation wall, temperature and surface variation capabilities, a rotating turntable, smoke generator, and
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The St. Anthony Falls
Laboratory is a 16,000 square foot research facility on the Mississippi River. The Lab has 15 general purpose flumes, tanks, and channels that are readily configurable to the needs of a project and can indefinitely pump in water from the Mississippi at up to 300 ft³/s.
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SAFL's long-term research vision is to "develop an interconnected system of theoretical and computational models, supported by data streams from the living surface environment, that can provide testable, adaptive predictions for scenarios ranging from environmental restoration and natural hazard
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This specialized basin is used to study delta and basin morphodynamics on geologic time scales. This basin is unique to SAFL because of its design and capabilities: it can incorporate the effects of tectonism on surface processes by simulating subsidence in the basin floor and its data carriage
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The REU program is a collaboration among the
University of Minnesota, the Fond du Lac Band of the Lake Superior Chippewa, and the Confederated Salish and Kootenai tribes in Montana to study various research topics that can help problems in the community. Topics can concentrate on Earth-surface
227:
At first, SAFL focused on hydraulic and engineering research, but after Straub's death the Lab began to expand its research to broader focuses such as stratified flows, turbulence and hydrology. An atmospheric layer wind tunnel and multiple flumes were also added to the collection of research
243:
Since then, SAFL has become an internationally renown leader in the study of earth surface and fluid dynamics. Multiple new facilities have been added over the years to expand research capabilities and many have actually been created by the staff and are exclusively used by SAFL researchers.
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SAFL became involved with NCED in 2002, an NSF Science and
Technology center that focuses on developing an integrated, quantitative approach to predicting the evolution of Earth's surface. It concentrates on a full range of critical disciplines such as engineering, Earth science, biology,
236:
cavitation, wind engineering, small hydropower development, rainfall modeling, and geomorphology to name a few. The NSF made SAFL the headquarters of the
National Center of Earth-Surface Dynamics (NCED) in 2002, a center devoted to greater predictive earth surface technology and research.
266:
Research at SAFL includes the work of many fields, including civil engineering, hydraulic engineering, hydrology, ecology, and geology. Research at SAFL has been spurred on in the first decade of the 21st century by its status as the headquarters of the
411:
UMN with the
Department of Biomedical Engineering, the Department of Aerospace Engineering and Mechanics, the Medical School, and the Institute for Engineering in Medicine, as well as with the Mayo Clinic and other collaborators around the country.
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SAFL has active research programs in a number of areas to assess and quantify global change impacts and to develop science-based solutions for mitigating their consequences such as an altered atmosphere and a degradation of water resources.
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meandering river bend, channel formation, and flooding capabilities. This is used to facilitate a variety of floodplain, vegetation, and channel research opportunities. The StreamLab has a recirculating water outflow of up to a 200 L³/s
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The guiding task for biomedical fluid mechanics research in the coming years is integration of computational tools from the academic research arena to clinical practice supporting the rapidly emerging future of personalized health care.
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behavior on a smaller scale. Liquid or solid micro-particles can be dropped in at adjustable rates and are tracked by multiple high-speed cameras and a high-repetition laser. CloudIA is also fully transparent to allow live
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on various topics related to environmental, geophysical and biological fluid mechanics and engineering featuring presenters from academia, government agencies and industry. These seminars are free and open to the public.
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CloudIA is a SAFL-created facility that is composed of 256 individually controlled air jets that can generate 1 m³ of air turbulence. It is designed to replicate conditions found in the atmosphere to study particle
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The coupling between fluid mechanics and biology has led to growth in recent years of research aimed at understanding the fluid mechanics of the human body and quantifying their linkages with disease pathways.
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Martin, John; Paola, Chris; Abreu, Vitor; Neal, Jack; Sheets, Ben (2009). "Sequence stratigraphy of experimental strata under known conditions of differential subsidence and variable base level".
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mathematics, physics, and social sciences. Now SAFL is a part of NCED2, a grant that supports the continuation of the research synthesis postdoctoral and outreach programs created by NCED.
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systems are employed by geologists at SAFL to understand the causes of river channel morphologies and dynamics, as well as to reconstruct the history of events that produces particular
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Paul L. Heller,1 Chris Paola,2 In-G (2001). "Geomorphology and sequence stratigraphy due to slow and rapid base-level changes in an experimental subsiding basin (XES 96-1)".
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Kim, Wonsuck; Paola, Chris; Swenson, John B.; Voller, Vaughan R. (2006). "Shoreline response to autogenic processes of sediment storage and release in the fluvial system".
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allows data collection over the entire XES basin and assists in "slicing" for more visible cross-sections. The XES basin is home to SAFL's most advanced data carriage.
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Sheets, B. A.; Hickson, T. A.; Paola, C. (2002). "Assembling the stratigraphic record: depositional patterns and time-scales in an experimental alluvial basin".
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laser instrumentation. The tunnel has temperature control capabilities that allow for study effects of thermal stratification in atmosphere on structures.
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155:. Research is conducted by graduate students and faculty alike using the 16,000 square feet of research space and 24 different specialized facilities.
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to use research and technology to combat and study the effects of climate change such as more frequent extreme weather phenomena, and sea level rise.
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and was headed by Lorenz G. Straub until his death in 1963. Construction began in March, 1936 and the Lab was opened and dedicated in
November, 1938.
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147:, United States. Its primary research is in "Engineering, Environmental, Biological, and Geophysical Fluid Mechanics". It is affiliated with the
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The St. Anthony Falls Laboratory was added as a research facility to the University of Minnesota's College of Science and Engineering in 2011.
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Tal, Michal; Paola, Chris (2010). "Effects of vegetation on channel morphodynamics: results and insights from laboratory experiments".
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of Minneapolis brought SAFL more into the world of renewable energy research with the addition of a wind turbine among other things.
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Kim, Wonsuck; Paola, Chris (2007). "Long-period cyclic sedimentation with constant tectonic forcing in an experimental relay ramp".
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Cazanacli, Dan; Paola, Chris; Parker, Gary (2002). "Experimental Steep, Braided Flow: Application to Flooding Risk on Fans".
221:
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Tal, Michal; Paola, Chris (2007). "Dynamic single-thread channels maintained by the interaction of flow and vegetation".
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that include multiple flumes, channels, tanks and basins of varying shapes and sizes depending on the research project.
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681:"Nomination of the St. Anthony Falls Historic District to be on the National Register of Historic Places"
71:. The laboratory is located on Hennepin Island. Hidden to its right is the hydro-power plant operated by
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255:, Hamburg Ship Model Basin, the Legislative-Citizen Commission for Minnesota Resources, and many more.
131:(former name: Saint Anthony Falls Hydraulic Laboratory), or SAFL, is a research laboratory situated on
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Strong, N.; Paola, C. (2008). "Valleys That Never Were: Time Surfaces Versus Stratigraphic Surfaces".
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Funding for SAFL's expansions has come throughout the years from a number of outside sources like
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noise reduction methods, radar interactions with wind farms, power electronics, and gear boxes.
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generator, sediment flux monitoring and recirculation system, and a data acquisition carriage.
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The laboratory is unique in that its location next to Saint Anthony Falls allows it to use the
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At present, SAFL's Earth surface research revolves around the following interlinked themes:
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Contract civil and environmental engineering work, such as dam construction and removal
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1104:"Life-Sized Environmental Research: Outdoor StreamLab | St. Anthony Falls Laboratory"
1056:"Advance Your Research with Our Laboratory Facilities | St. Anthony Falls Laboratory"
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630:"National Register of Historic Places - National Register District Property Details"
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Work to understand the interactions between fluid flow and the ecology of rivers
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The experiments performed at the laboratory are varied, and may include:
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1128:"Atmospheric Boundary Layer Wind Tunnel | St. Anthony Falls Laboratory"
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Earth observations from space for assessing global environmental change
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Interplay of fluid flow, microorganism physiology, and biogeochemistry
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SAFL was designed and built in the 1930s with funding provided by the
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75:. To its left is the Outdoor StreamLab field-scale research facility.
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The Saint Anthony Falls Laboratory is also the headquarters of the
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mitigation to changes in precipitation to global sea-level rise."
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from the waterfall to provide water for many of the experiments.
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Research at SAFL is primarily concentrated in four major areas:
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Located outside of the SAFL building, this uniquely designed
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facilities. This was made possible through funding from the
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EXperimental EarthScape (nicknamed "Jurassic Tank" or XES)
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University and college laboratories in the United States
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Biomedical fluid mechanics for personalized health care
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and the processes that form the stratigraphic record.
1080:"Engineering Services | St. Anthony Falls Laboratory"
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St. Anthony Falls Laboratory Strategic Plan 2015–2020
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River networks as corridors of environmental change
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300:Mitigating impacts of global environmental change
67:A view of the Lab in downtown Minneapolis by the
329:Particles, bubbles, and other multi-phase flows
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904:: CS1 maint: multiple names: authors list (
607:Research Experience for Undergraduates (REU)
581:SAFL also has a number of other specialized
430:Research facilities and engineering services
892:10.1306/8626CA0F-173B-11D7-8645000102C1865D
636:. Minnesota Historical Society. 2007-04-25.
179:to characterize deposits in deltaic systems
908:) CS1 maint: numeric names: authors list (
394:Biofuel production from microscopic algae.
269:National Center for Earth-surface Dynamics
191:National Center for Earth-surface Dynamics
1152:"Eolos | Wind Energy Research Consortium"
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323:Multi-scale virtual aquatic environments
251:, NSF, U.S. Navy, Department of Energy,
1224:Research institutes established in 1938
800:10.1061/(ASCE)0733-9429(2002)128:3(322)
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418:Cardiovascular fluid mechanics research
384:SAFL research in this field includes:
311:Earth surface, water, and life research
253:Air Force Office of Scientific Research
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744:Earth Surface Processes and Landforms
598:During the academic year, SAFL hosts
206:Saint Anthony Falls Historic District
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634:National Register of Historic Places
421:Respiratory fluid mechanics research
344:Global environmental change research
210:National Register of Historic Places
402:Biomedical fluid mechanics research
172:Understanding river system dynamics
115:St. Anthony Falls Historic District
1234:Organizations based in Minneapolis
153:College of Science and Engineering
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679:Coddington, Donn; Hess, Jeffrey.
230:National Science Foundation (NSF)
1229:1938 establishments in Minnesota
1219:Research institutes in Minnesota
945:10.1046/j.1365-2117.2002.00185.x
788:Journal of Hydraulic Engineering
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1003:Journal of Sedimentary Research
818:Journal of Geophysical Research
332:Deltas and depositional systems
197:Science and Technology Center.
297:Earth surface, water, and life
129:Saint Anthony Falls Laboratory
38:Saint Anthony Falls Laboratory
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646:Official Website - Homepage:
352:SAFL research areas include:
222:Works Progress Administration
687:. US-DOI-NPS. p. pdf 65
514:outdoor field-scale facility
493:feet and are 2.1 feet deep.
27:United States historic place
18:St. Anthony Falls Laboratory
195:National Science Foundation
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274:Analog material models of
577:Other research facilities
376:Renewable energy research
368:Water quality and habitat
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149:University of Minnesota
1239:Hydraulic laboratories
589:Education and outreach
284:stratigraphic packages
46:U.S. Historic district
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288:sequence stratigraphy
202:contributing resource
50:Contributing property
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838:10.1029/2006JF000470
454:Engineering services
200:The laboratory is a
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757:2010ESPL...35.1014T
720:2007Geo....35..347T
583:research facilities
359:Debris flow hazards
69:Saint Anthony Falls
660:"Welcome to NCED!"
988:10.1130/G23194A.1
728:10.1130/G23260A.1
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262:Research programs
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521:Wind tunnel
448:dam removal
388:Wind energy
365:Air quality
141:Minneapolis
85:Minneapolis
73:Xcel Energy
1208:Categories
1181:93°15′18″W
1178:44°58′57″N
1161:2015-12-03
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89:Minnesota
691:April 1,
103:Engineer
81:Location
1044:. 2015.
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