Flood-inundation maps for a 12.5-mile reach of Big Papillion Creek at Omaha, Nebraska

Strauch, Kellan R.; Dietsch, Benjamin J.; Anderson, Kayla J.

doi:10.3133/sir20155152

Cited by 3 publications

(5 citation statements)

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“…This compound was created to purge aqueous solutions of heavy metal ions like lead (II) and cadmium (II). FTIR, XRD, and SEM investigations were used to fully characterise the synthesised material [7]. The research findings supported the Freundlich model, [52] which postulates a heterogeneous adsorption onto a nonuniform surface, as the adsorption process adherence.…”

Section: Heavy Metal Removalmentioning

confidence: 53%

“…CS/AG membrane also shown significant DQ adsorption, however CS alone did not demonstrate removal. The findings suggest that the AG layer is responsible for all of the DQ adsorption on the CS/AG membrane [7,54].…”

Section: Herbicide Removalmentioning

confidence: 90%

“…The bimetallic oxide/chitin composite was found to be porous and F anion adsorptive. The most likely mechanism for adsorption was identified as electrostatic ion-dipole interaction between calcium and fluoride [6,7].…”

Section: Introductionmentioning

confidence: 99%

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Environmental implications of Chitosan nanostructures

Chaudhary,

Banerjee,

Gaur

et al. 2024

IJAB

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Chitosan (CS), as a biopolymer, has unrivalled chemical and mechanical modification capabilities to develop novel characteristics, functions, and applications, particularly in the manufacture of cuttingedge membrane adsorbents. Membrane adsorbents utilizing carbon starch (CS) have emerged as a viable and efficient engineering instrument for eliminating diverse pollutants from aquatic settings, including heavy metals and dyes. To date, much study has been directed towards improving the adsorptive characteristics, permeability, physicochemical stability, and sustainability of CS-based membranes through the use of various types of nanoparticles (NPs). Additionally, nanoparticles (NPs) can be applied to personalise the appearance and performance of nano-structured and nano-fibrous membranes made from chitosan (CS). This chapter focuses on the utilisation of various types of nanoparticles in CS-based membrane adsorbents, comprising four major groups of metal-based, noncarbon mineral, carbonic (carbon-based), and Metal Organic Frameworks (MOFs). The review and discussion have been broadened to cover manufacturing methods and the effects of adding nanoparticles (NPs) on the chemistry, morphology, adsorption kinetics, and removal effectiveness of membranes made of chitosan (CS). This review might help researchers choose appropriate NP modifiers and preparation procedures for synthesising Nano composite CS membrane adsorbents for varied applications. Advances in chitosan modification, primarily with nanomaterials such as multiwalled carbon nanotubes and nanoparticles (TiO2, Ag, S, and ZnO), and their application for environmental remediation.

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Section: Heavy Metal Removalmentioning

confidence: 53%

Section: Herbicide Removalmentioning

confidence: 90%

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Environmental implications of Chitosan nanostructures

Chaudhary,

Banerjee,

Gaur

et al. 2024

IJAB

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“…The maps have a range in stage from equal to or less than the "action" stage to equal to or greater than the "major" flood stage (table 1), as designated by the NWS (National Weather Service, 2021d). The geospatial datasets used in this study are available as a USGS data release (Strauch, 2023). 13.9 30.9 17.5 27.5…”

Section: Purpose and Scopementioning

confidence: 99%

“…Estimates of water depth can be obtained from the depth-grid data that are included with the presentation of the flood maps on an interactive USGS mapping application described in the following section, "Flood-Inundation-Map Delivery." The datasets (depth grids and shapefiles) used in this study are available as a USGS data release (Strauch, 2023). The flood map corresponding to the highest simulated water-surface profile, a stage of 39 ft at the Papillion Creek at Fort Crook (station 06610795) streamgage and 30.9 ft at the Papillion Creek at Harlan Lewis Road (station 06610798) streamgage, is presented in figure 2.…”

Section: Development Of Flood-inundation Mapsmentioning

confidence: 99%

Flood-inundation maps for an 8-mile reach of Papillion Creek near Offutt Air Force Base, Nebraska, 2022

Strauch¹,

Hobza²

2023

Scientific Investigations Report

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Digital flood-inundation maps for an 8-mile reach of Papillion Creek near Offutt Air Force Base, Nebraska, were created by the U.S. Geological Survey (USGS) in cooperation with the U.S. Air Force, Offutt Air Force Base. The flood-inundation maps, which can be accessed through the USGS Flood Inundation Mapping Program website at h ttps://www .usgs.gov/ mission-areas/ water-resources/ science/ flood-inundation-mapping-fim-program, depict estimates of the areal extent and depth of flooding corresponding to selected water levels (stages) at the USGS streamgages Papillion Creek at Fort Crook, Nebr. (station 06610795), and Papillion Creek at Harlan Lewis Road near La Platte, Nebr. (station 06610798). Near-real-time stages at these streamgages may be obtained from the USGS National Water Information System database at https://doi.org/ 10.5066/ F7P55KJN or from the National Weather Service Advanced Hydrologic Prediction Service at https: //water.we ather.gov/ ahps/ .Flood profiles were computed for the 8-mile stream reach by means of a one-dimensional step-backwater model. The model was calibrated by adjusting roughness coefficients to best represent the current (2022) stage-streamflow relation at the Papillion Creek at Fort Crook (station 06610795) streamgage.The hydraulic model then was used to compute watersurface profiles for 157 scenarios using a combination of stage values in 1-foot (ft) stage intervals that ranged from 27 to 39 ft at the Papillion Creek at Fort Crook (station 06610795) streamgage and from 13.9 to 30.9 ft at the Papillion Creek at Harlan Lewis Road near La Platte (station 06610798) streamgage, as referenced to the local datums. The simulated water-surface profiles then were combined by a geographic information system with a digital elevation model, which had a 3.281-ft grid to delineate the area flooded and water depths at each stage. The availability of these flood-inundation maps, along with information regarding current stage from the USGS streamgages, can provide emergency management personnel and residents with information that is critical for flood response activities and postflood recovery efforts.

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QGIS: Geografía, Computación, Matemáticas

Gutiérrez

2016

sahuarus

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En este artículo se describe a grandes rasgos una aplicación de software libre llamada QGIS, la cual es un sistema de información geográfica. Es muy fácil de aprender, es gratuita, y se puede aplicar tanto en la docencia como en la investigación. Se describen brevemente ejemplos de archivos que contienen información geográfica, algunos de ellos disponibles gracias al Instituto Nacional de Estadística y Geografía. También se da una muestra de las matemáticas que hay detrás, concretamente sobre los sistemas de coordenadas utilizados. Finalmente se comentan algunos estudios donde se han aplicado sistemas de información geográfica en diferentes contextos.

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Flood-inundation maps for a 12.5-mile reach of Big Papillion Creek at Omaha, Nebraska

Cited by 3 publications

References 1 publication

Environmental implications of Chitosan nanostructures

Environmental implications of Chitosan nanostructures

Flood-inundation maps for an 8-mile reach of Papillion Creek near Offutt Air Force Base, Nebraska, 2022

QGIS: Geografía, Computación, Matemáticas

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