Development of a Hydrologic Model for the Wichita Falls District

Slides:

Advertisements

Similar presentations

WRAP Hydro Data Model: Its Structure and application to find Input Parameters for the Water Rights Analysis Package Centre For Research In Water Resources.

Advertisements

Standard watershed and stream delineation recipe - Vector stream (ex. NHD data) fusion into DEM raster (burning in) - Sink removal - Flow direction - Flow.

City of Austin Water Quality Master Planning - GIS Model David Maidment Francisco Olivera Mike Barrett Christine Dartiguenave Ann Quenzer CRWR - University.

CURVE NO. DEVELOPMENT STEP 8 Soils data, land use data, watershed data, and CN lookup table are used to develop curve numbers for use in the SCS Curve.

PrePro2004: Comparison with Standard Hydrologic Modeling Procedures Rebecca Riggs April 29, 2005.

Floodplain Mapping using HEC-RAS and ArcView GIS Eric Tate Francisco Olivera David Maidment

1-Degree USGS DEM Control Points Locations National Hydrography Dataset (NHD) Drainage Lines Corrected Stream Lines Filled DEM Burned DEM Flow Area Accumulation.

Hydrologic Analysis Francisco Olivera, Ph.D., P.E. Srikanth Koka

Application of HEC- HMS for Hydrologic Studies Texas A&M University Department of Civil Engineering CVEN689 – Applications of GIS in CE Instructor: Dr.

CVEN 689 Instructor: Dr. Francisco Olivera Estimating Salt Concentration at Ungaged Locations from Parameters derived using GIS Ganesh Krishnamurthy Water.

DEM-Based Stream and Watershed Delineation

CRWR-PrePro Francisco “Paco” Olivera, Ph.D. Center for Research in Water Resources University of Texas at Austin Francisco Olivera 1998 ESRI User Conference.

Texas A&M University Department of Civil Engineering Cven689 – CE Applications of GIS Instructor: Dr. Francisco Olivera Logan Burton April 29, 2003 Application.

Urban Storm-Water Management Plan Utilizing Arc View and HEC-HMS College Station, Texas Kara Corcoran CVEN 689.

NHD Watershed: Tools and Applications

“Flood monitoring and mapping for Emergency Response in San Antonio-Texas” Part I by Silvana Alcoz Source photo Term.

National Basin Delineation Project Team: Ken Howard Ami Arthur Gina Cox Dave Slayter Nathan Kuhnert Cooperative Institute for Mesoscale Meteorological.

GIS Tools for Watershed Delineation Public Policy Perspectives Teaching Public Policy in the Earth Sciences April 21, 2006 Gary Coutu Department of Geography.

U.S. Department of the Interior U.S. Geological Survey DEM Preparation Using the New England Method Streamstats Data Preparation Workshop Pete Steeves.

Flow Time Time Series Hydro FeaturesHydro Network Channel System Drainage System ArcGIS Hydro Data Model.

Topographic Maps vs DEM. Topographic Map 1:24,000 Scale 20 ft contour 100 ft contour Stream Center Line.

Watershed delineation and data preparation for groundwater modeling using GIS in the Savannah River Site GIS term project presentation November 25, 2003.

DIGITAL ELEVATION MODELING GEOG 421: DR. SHUNFU HU, SIUE Project One Steve Klaas Fall 2013.

Section 5. New England SPARROW River Reach Network Assembling the stream network Generation of reach catchments Estimation of Stream-flow and velocity.

Data Sources for GIS in Water Resources by David R. Maidment, David G. Tarboton and Ayse Irmak GIS in Water Resources Fall 2009.

National Basin Delineation Project Team: Ken Howard Ami Arthur Gina Cox Dave Slayter Nathan Kuhnert Cooperative Institute for Mesoscale Meteorological.

National Elevation Dataset - Hydrologic Derivatives (NED-H) Kris Verdin EROS Data Center

U.S. Department of the Interior U.S. Geological Survey Processing ArcHydro Datasets with NHDPlus Version 2, Emphasizing StreamStats Data Development Webinar.

Processing Elevation Data. Limitations of DEMs for hydro work Dates Static, does not evolve Matching to linear line work due to scale Processing errors.

Map-Based Flood Hydrology and Hydraulics David R. Maidment Jan 10, 1998.

Stream and Watershed Delineation from DEM’s David Maidment, Ph.D. and Francisco Olivera, Ph.D. Center for Research in Water Resources University of Texas.

Data Sources for GIS in Water Resources by David R. Maidment, David G

Introduction to GIS in Water Resources David R. Maidment Director, Center for Research in Water Resources University of Texas at Austin CRWR.

Characterization of Watersheds from DEMs using Spatial Analyst/ArcHydro Robert G. Burns, P.G. Engineering Geologist DWR – Division of Safety of Dams Watershed.

ARC GIS IN THE SANTA RIVER BASIN IN PERU GIS in Water Resources Fall 2006 Professor: Dr. David Maidment Presented by Presented by Eusebio Ingol.

Determining Watershed Parameters for Water Rights in the Cypress River Basin By: Hema Gopalan GIS in Water Resources (C E 394K) Fall 2001.

CRWR-PrePro Stream and Watershed Delineation Francisco Olivera, Ph.D. Center for Research in Water Resources University of Texas at Austin Texas Department.

Watershed Parameters for Water Rights in the Trinity River Basin Melissa Figurski CE 394K.

Water Availability Modeling in the State of Texas CE 394 K.2 - Surface Water Hydrology University of Texas at Austin David Mason.

Using the NHDPlus for drainage area delineation and site matching Kirsten Cassingham, NC Water Science Center Silvia Terziotti, NC Water Science Center.

Viewshed Analysis A viewshed refers to the portion of the land surface that is visible from one or more viewpoints. The process for deriving viewsheds.

Modeling Source-water Contributions to Streamflow

Introduction to GIS David R. Maidment

Map-Based Flood Hydrology and Hydraulics

An Analysis of the Rhône River Basin through Lyon, France

National Hydro Data Programs

STREAM NETWORK DELINEATION USING ARC HYDRO AND TauDEM: A comparison of approaches using The Upper Sevier and the Little Bear River Basins Alphonce C. Guzha.

Approaches to Continental Scale River Flow Routing

Map-Based Hydrology and Hydraulics

FEWS Stream Flow (SF) Model ~Progress Report~

Digital Elevation Model Based Watershed and Stream Network Delineation

Data Sources for GIS in Water Resources by David R

Calculating Hydrologic Parameters for Estimating Surface Water Flow at Ungaged Locations Richard Hoffpauir Water Resources Engineering.

Data Sources for GIS in Water Resources by David R

Global Hydrologic Data Development

GIS FOR HYDROLOGIC DATA DEVELOPMENT FOR DESIGN OF HIGHWAY DRAINAGE FACILITIES by Francisco Olivera and David Maidment Center for Research in Water Resources.

CRWR-PrePro HMS Schematic and Basin File

Modeling a Spatially Distributed Water Balance Using TOPMODEL

Hydrography for The Lower Rio Grande Valley A Comparison of Mapped versus Synthetic Streams By Jean Parcher GIS in Water Resources December 4, 2001.

Relating Actual Runoff to Potential Runoff

FEWS Stream Flow (SF) Model ~Progress Report~

Elaine B. Darby GIS – Fall 2005

Regional Hydraulic Model for the City of Austin

Provo River Watershed Modeling with WMS Ryan Murdock.

GIS in Water Resources: Lecture 1

From GIS to HMS U.S. Army Corps of Engineers Hydrologic Engineering Center University of Texas at Austin Center for Research in Water Resources Francisco.

Rainfall Runoff in the Guadalupe River Basin

Data Sources for GIS in Water Resources

Creating Watersheds and Stream Networks

Hydrologic modeling of Waller Creek

Presentation transcript:

Development of a Hydrologic Model for the Wichita Falls District Tanya Hoogerwerf

OBJECTIVE Develop a Hydrologic Model for a TxDOT Highway Drainage Structure (Initial Objective) Develop a Hydrologic Model for a Given Area in the Wichita Falls District (Current Objective) This is used to determine the design discharge for highway structures such as bridges, highway culverts, storm drains and water quality and quantity control structures.

WICHITA FALLS TxDOT district formed by nine counties: Archer, Baylor, Clay, Cooke, Montague, Throckmorton, Wichita, Willbarger and Young

Watershed Delineation using ArcView, Spatial Analyst and CRWR-PrePro PROCEDURE Obtaining and Preparing Data for Analysis using ArcView, Spatial Analyst and CRWR-Raster Watershed Delineation using ArcView, Spatial Analyst and CRWR-PrePro Preparing a Basin Model for use in the Hydrologic Modeling System (HEC-HMS) Calibrating the Hydrologic Model

OBTAINING THE NECESSARY DATA Cataloging Unit Digital Elevation Models NHD Data USGS Flow Gauging Locations and Data

CATALOGING UNIT 1,012,07 sq mi, 919.7 River Miles www.epa.gov/surf2/hucs/

DIGITAL ELEVATION MODEL CRWR Database, but can also be downloaded from the USGS NED website Three 1o x 1o seamless version, made up of 30m x 30m cells 33-35 deg N Latitude 98-100 deg W Longitude

NHD DATA Can be downloaded from the USGS National Hydrography Dataset Website http://nhd.usgs.gov REACH NETWORK

USGS FLOW GAGING STATIONS USGS Web Site www.usgs.gov Only 2 Stations in HUC 11130206

STATION 07312130 Contributing Area is very small

STATION 07312500

BIG Thunder Storm???

CREATING A POINT COVERAGE OF FLOW GAGING STATIONS Data from 1/1/97 to 1/1/98 Defined a table containing ID and lat/long data Loaded defgages.ave as provided by GIS homework

DATA PREPARATION Project all data into TSMS Albers Buffer the Cataloging Unit Extend and Edit the route.rch Merge the DEMs Clip DEM to buffered cataloging unit

PROJECTION PARAMETERS Texas Standard Mapping System True earth area preserved in map projections

BUFFERING THE CATALOGING UNIT This can be accomplished using the Theme/Create Buffers Command

EXTENDING THE REACH This can be done with the ArcView editing command…

EDITING THE STREAM NETWORK

MERGING THE DEMS

CLIPPING THE DEM TO THE POLYGON

WATERSHED DELINEATION CRWR-PrePro along with ArcView and Spatial Analyst can process a DEM and delineate its streams and networks

CRWR-PREPRO Developed at CRWR by Dr. Maidment’s GIS research group An ArcView preprocessor, currently only for HEC-HMS http://www.ce.utexas.edu/prof/olivera/prepro/prepro.htm prepro03a.apr

CRWR-PREPRO

BURNING IN THE STREAMS AND FILLING THE SINKS To correct for aberrations in the DEM, only tiny sinks are filled (ELEVATION RISE OF 1000 M)

COMPUTING THE FLOW DIRECTION GRID

8-DIRECTION POUR-POINT MODEL 32 128 64 16 1 8 4 2

COMPUTING THE FLOW ACCUMULATION GRID

DEFINING A THRESHOLD (Segments may also be added using the Add Streams function) 10,000! 5,000! 1,000! Define minimum stream drainage area

STREAM LINKS AND LINK OUTLETS This gives each link its own ID Outlets are the most downstream cells of the reach segments For all cells whose flow acc is greater than the threshold. 1 link per outlet

ADDING FLOW GAGE POINT COVERAGE Manually define the outlets with the O tool

DELINEATING WATERSHEDS

VECTORIZING STREAMS AND WATERSHEDS

Calibrating the Hydrologic Model TWO STEPS TO FINISH UP.... Preparing a Basin Model for use in the Hydrologic Modeling System (HEC-HMS) Calibrating the Hydrologic Model …..I have had a few minor problems….. Hydrologic Modeling System Hydrologic Engineering Center

CRWR 2nd Year Students David Anderson Dr.Olivera SPECIAL THANKS CRWR 2nd Year Students David Anderson Dr.Olivera

REFERENCES Delineating the Watershed and Stream Network of the Guadalupe Basin by David Maidment. Developed for the CE394-K3 GIS in Water Resources class at the University of Texas. Fall 1998. Developing a Hydrologic Model of the Guadalupe Basin by Francisco Olivera and David Maidment. Developed for the CE394-K3 GIS in Water Resources http://www.crwr.utexas.edu/gis/gishyd98/class/trmproj/ahrens/prepro.htm GIS-Based System of Hydrologic and Hydraulic Applications for Highway Engineering by Dr. Olivera and Dr. Maidment.