DOCSLIB.ORG

Tennessee River (Tour)

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Tennessee River (Tour) LAR 553 – Fall 2016 River Tour DRAFT Itinerary tennessee river (tour) wednesday, September 7: 130 Depart for UTIA Research Station, Forks of the River (Confluence of French Broad/Holston Rivers) Lenoir City (River City, Ft. Loudoun Dam) Confluence of TN River and Clinch River (TVA Kingston Fossil Plant, Site of 2008 Coal Ash Spill) Spring City (River City, TVA Watts Bar Nuclear Facility + Decommissioned Fossil Plant) Calhoun TN (Hiwassee River City, Resolute Forrest Products Paper Mill) Chickamauga Dam (TVA Hydroelectric Facility) 700 Arrive at Chattanooga, TN (Dinner at 21st Century Waterfront, Overnight) thursday, September 8: 830 Meeting with River City Corporation (21st Century Waterfront Redevelopment Story) 1100 Lunch Meeting with Southeast Tennessee Development District (Rural Watershed Challenges) 130 Meeting with TN Aquarium Conservation Institute 330et Depart Chattanooga Raccoon Mountain TVA Hydro-electric Facility + TN River Gorge (Driving) Nickajack Reservoir Rest Area Guntersville, AL (River City +TVA Hydroelectric Facility) 600ct Huntsville, AL (River City, Overnight) friday, September 9: 800ct Driving Tours of Huntsville, Decatur, AL (River Cities) NASA Marshall Space Flight Center Lunch in Decatur, AL Wheeler Dam (TVA Hydroelectric Facility) Driving Tours of Florence, Muscle Shoals AL (River Cities) Pickwick Landing + Dam (TVY Hydroelectric Facility) Shiloh National Military Park 600 Crump/Savannah, TN, Dinner meeting with (former) State Representative Vance Dennis (River City, Overnight) saturday, September 10: 900 TN River Museum, Savannah, TN Meet with TN River Floodplain Farmer Lunch Clifton, TN (River City) New Johnsonville, TN (River City) Danville Grain Elevator and Bridge (River Ruins) Land Between the Lakes State Park (Driving Tour) Barkley Canal and Kentucky Dam (TVA Hydroelectric Facility) Grand Rivers (River City) 700 Paducha, KY, Confluence of Tennessee and Ohio River (Overnight) sunday, September 11: 900 Paducah, KY Driving Tour River Discovery Center Meeting + Tour Lunch 100ct Depart for Knoxville by way of Nashville (4.5 hr drive) 630et Return to A+A .
Load more

Recommended publications
  • Tva 2016- Tn5103--Tva
    TVA - Wheeler Tennessee Valley Authority About TVA Newsroom Careers Index Energy Environment Economic Development You are here: Home / Energy / Our Power System / Hydroelectric Share this page Wheeler Wheeler Dam in northern Alabama has 11 generating units with a net dependable capacity of 361 megawatts. The reservoir helps cover the Muscle Shoals, rock formations that had blocked navigation on the Tennessee River, which means the lake level can vary only by a matter of feet from winter to summer. Wheeler Reservoir is named for Joseph Wheeler, a general in the army of the Confederacy, leader of U.S. volunteers in the Spanish-American War and U.S. congressman. Wheeler is one of nine reservoirs that create a stairway of navigable water on the Tennessee River from Knoxville, Tennessee, to Paducah, Kentucky. Wheeler, along with Wilson and Pickwick reservoirs downstream, helps cover the Muscle Shoals. Today, Wheeler Reservoir is a major recreation and tourist center. Along with camping, boating and fishing, visitors enjoy the Wheeler National Wildlife Refuge several miles upstream from the dam. The refuge features Alabama’s only significant concentration of wintering Canada geese. Barge traffic on Wheeler has made it one of the major centers along the Tennessee waterway for shoreline industrial development. Private industry has invested about $1.3 billion in the waterfront plants and terminals at Decatur, Alabama, the largest city on the reservoir. Wheeler: Facts + Figures Construction of Wheeler Dam began in 1933 and was completed in 1936. It was the second dam TVA built, finished only seven months after Norris. https://www.tva.gov/Energy/Our-Power-System/Hydroelectric/Wheeler-Reservoir[6/21/2016 7:56:56 AM] TVA - Wheeler Wheeler Dam is 72 feet high and stretches 6,342 feet across the Tennessee River.
    [Show full text]
  • Norris Dam: to Build Or Not to Build? a Museum Outreach Program Jeanette Patrick James Madison University
    James Madison University JMU Scholarly Commons Masters Theses The Graduate School Spring 2015 Norris Dam: To build or not to build? A museum outreach program Jeanette Patrick James Madison University Follow this and additional works at: https://commons.lib.jmu.edu/master201019 Part of the Cultural History Commons, Other Education Commons, Public History Commons, Social History Commons, and the United States History Commons Recommended Citation Patrick, Jeanette, "Norris Dam: To build or not to build? A museum outreach program" (2015). Masters Theses. 44. https://commons.lib.jmu.edu/master201019/44 This Thesis is brought to you for free and open access by the The Graduate School at JMU Scholarly Commons. It has been accepted for inclusion in Masters Theses by an authorized administrator of JMU Scholarly Commons. For more information, please contact [email protected]. Norris Dam: To Build or Not to Build? A Museum Outreach Program Jeanette Patrick A thesis submitted to the Graduate Faculty of JAMES MADISON UNIVERSITY In Partial Fulfillment of the Requirements for the degree of Master of Arts History May 2015 Acknowledgments This project would not have been possible without all of the support I received throughout. I would like to thank my family and friends; while I chose to immerse myself in Norris Dam and the Tennessee Valley Authority, they were all wonderful sports as I pulled them down the river from one dam project to the next. Additionally, I do not believe I would have made it through the past two years without my peers. Their support and camaraderie helped me grow not only as a historian but as a person.
    [Show full text]
  • TVA's Dams Provide Hydropower, Flood Control, Water Quality, Navigation
    TVA’s dams provide hydropower, ood Catawba Rhododendron (Rhododendron catawbiense) control, water quality, navigation and ample Lexington Destination water supply for the Tennessee Valley. Did you know that they also provide fun? Come summer, TVA operates its dams to ll the reservoirs for recreation. Boating, shing, swimming, rafting and blueway paddling are all supported Bald Eagle KENTUCKY by TVA with boat ramps, swim beaches and put ins. There are plenty of hiking (Haliaeetus leucocephalus) and biking trails, picnic pavilions, playgrounds, campsites, scenic overlooks SOUTH and other day-use areas, too. So plan a TVA vacation this year—you’re sure HO W.V. ILLINOIS LSTON 77 to have a dam good time. o R i v i e Rainbow Trout South Holston Dam - 1951 h r (Oncorhynchus mykiss) Because of its depth and clarity, South Holston Lake is a O FORT premier destination for inland scuba diving. The aerating Paducah PATRICK weir below the dam has many benets—among them NRY creating an oxygen-rich environment that’s fostered a HE world-class trout shery. ORRIS 75 MISSOURI N Hopkinsville 65 Kentucky – 1944 24 Norris - 1936 CKY Norris Dam—the rst built by a newly VIRGINIA KENTU Around Kentucky Lake there are Ft. Patrick Henry - 1953 55 formed TVA—is known for its many Fort Patrick Henry Dam is an ideal shing over 12,000 acres of state wildlife hiking and biking trails. The Norris River management areas, that offer small destination. The reservoir is stocked with rainbow Bluff Trail is a must-see destination for trout each year, and is also good for hooking and large game and waterfowl wildower enthusiasts each spring.
    [Show full text]
  • Tennessee Riverline Experiences
    001 002 003 004 005 006 007 008 009 010 011 012 013 014 015 016 017 018 019 020 021 022 Tennessee RiverLine Experiences 00A 00A National Park and U.S. Forest Service Units Wildlife Refuges Points of Interest 1 Land Between the Lakes National Recreation Area 17 Tennessee National Wildlife Refuge, Big Sandy Unit 36 River Discovery Center 2 Fort Donelson National Battlefield 18 Tennessee National Wildlife Refuge, Duck River Unit 37 Golden Pond Visitor Center, Planetarium and Observatory 3 Shiloh National Battlefield 19 Camden Wildlife Management Area 38 Old Danville Grain Elevator River hio 4 Natchez Trace Parkway 20 Tennessee National Wildlife Refuge, Busseltown Unit 39 Tennessee River Folklife Interpretive Center and Museum O 5 Chickamauga & Chattanooga National Military Park 21 Cypress Pond Wildlife Management Area 40 Tennessee Freshwater Pearl Farm and Museum 00B TENNESSEE RIVERLINE 00B IL 6 Manhattan Project National Historical Park 22 Lauderdale Wildlife Management Area 41 Tennessee River Museum MILE 0 23 Key Cave National Wildlife Refuge 42 Florence Indian Mound Museum Paducah State Parks 24 Swan Creek Wildlife Management Area 43 Muscle Shoals Sound Studios 7 Kentucky Dam Village 25 Mallard Fox Creek Wildlife Management Area 44 Cook Museum of Natural Science Kentucky Dam 36 8 Kenlake State Resort Park 26 Wheeler National Wildlife Refuge 45 U.S. Space and Rocket Center 7 9 Paris Landing State Park 27 Mud Creek Public Shooting Area 46 Guntersville Museum 00C 00C 10 Nathan Bedford Forrest State Park 28 Prentice Cooper State Forest and Wildlife Management Area 47 Nickajack Cave 1 11 Johnsonville Historic State Park Snooper's Rock, Tennessee River Gorge Overlook 48 Hales Bar Lock and Dam Ruins 12 Mousetail Landing State Park 29 Hiwassee Wildlife Refuge 49 TVA Raccoon Mountain Visitor Center 13 Pickwick Landing State Park 30 Chickamauga Wildlife Management Area 50 Tennessee Aquarium Conservation Institute MO 8 37 14 J.P.
    [Show full text]
  • The Tennessee Valley Authority During World War II
    University of Tennessee, Knoxville TRACE: Tennessee Research and Creative Exchange Doctoral Dissertations Graduate School 5-2005 A River for War, a Watershed to Change: The Tennessee Valley Authority During World War II William Wade Drumright University of Tennessee, Knoxville Follow this and additional works at: https://trace.tennessee.edu/utk_graddiss Part of the History Commons Recommended Citation Drumright, William Wade, "A River for War, a Watershed to Change: The Tennessee Valley Authority During World War II. " PhD diss., University of Tennessee, 2005. https://trace.tennessee.edu/utk_graddiss/4321 This Dissertation is brought to you for free and open access by the Graduate School at TRACE: Tennessee Research and Creative Exchange. It has been accepted for inclusion in Doctoral Dissertations by an authorized administrator of TRACE: Tennessee Research and Creative Exchange. For more information, please contact [email protected]. To the Graduate Council: I am submitting herewith a dissertation written by William Wade Drumright entitled "A River for War, a Watershed to Change: The Tennessee Valley Authority During World War II." I have examined the final electronic copy of this dissertation for form and content and recommend that it be accepted in partial fulfillment of the equirr ements for the degree of Doctor of Philosophy, with a major in History. Robert J. Norrell, Major Professor We have read this dissertation and recommend its acceptance: William Bruce Wheeler, Kurt Piehler, Charles S. Aiken Accepted for the Council: Carolyn R.
    [Show full text]
  • Hydroelectric Dams
    Estimated 2015 Water Use and Surface Water Availability in Alabama Appendix H Hydroelectric Dams Table H-1 provides the name, county and community location, year completed, generating capacity in kilowatt-hours, reservoir surface area, and length of shoreline for each hydroelectric power plant. Figure H-1 is a map of Alabama showing the locations of the hydroelectric dams and the major river systems in Alabama. Alabama Power Company, PowerSouth Energy Cooperative, the Tennessee Valley Authority, and the US Army Corps of Engineers manage 21 hydroelectric dams on the Tennessee. Black Warrior, Coosa, Tallapoosa, Alabama, and Conecuh Rivers. Georgia Power Company, and The US Army Corps of Engineers manage six hydroelectric dams on the Chattahoochee River separating Alabama and Georgia. Page left intenionally blank Estimated 2015 Water Use and Surface Water Availability in Alabama Table H-1. Hydroelectric dams in Alabama, 2010 [Location indicates the nearest city to the dam, not necessarily the location of the dam or the business offices; kWh, kilowatt-hour; AL, Alabama; TVA, Tennessee Valley Authority; APC, Alabama Power Company; USACE, U.S. Army Corps of Engineers; GA, Georgia; GPC, Georgia Power Company; PSEC, PowerSouth Energy Cooperative] Ye ar Generating Area(surface Length of Hydroelectric dam County Location Operator Completed Capacity (kWh) acres) Shoreline (miles) Tennessee River Guntersville Dam Marshall Guntersville, AL 1939 140,400 67,900 890 TVA Wheeler Dam Lauderdale Decatur, AL 1936 411,800 67,070 1,027 TVA Wilson Dam Lauderdale Florence, AL 1924 675,400 15,500 166 TVA Black Warrior River Smith Dam Walker, Cullman Jasper, AL 1961 157,500 21,200 500 APC Bankhead Lock and DamTuscaloosa Northport, AL 1963 53,985 9,200 400 APC Holt Lock and Dam Tuscaloosa Northport, AL 1968 49,000 3,296 45 APC Coosa River Weiss Dam Cherokee Leesburg, AL 1961 87,750 30,200 447 APC Neely Henry Dam Calhoun, St.
    [Show full text]
  • Report Table Contents the Challengeof of Managing Change
    TVA Locations W.V. IL. R o i v i e Lovers Lane KENTUCKY h r Soccer Complex O Paradise Fossil Plant Shawnee Fossil Plant VIRGINIA Kentucky MISSOURI Marshall Dam & Lock Clear Creek Dam Combustion Turbine Duffield Primary School Beaver Creek Dam r e Ft. Patrick Henry Dam South Holston Dam v Boone Dam C i Doakes Wilbur Dam u Creek Dam John Sevier m Fossil Plant & Dam R Cumberland Watauga Fossil Plant b Adventure Gallatin Fossil Plant Dam ARK. Gleason e Morgan County i Combustion Turbine r Science Center &Combustion Turbine Buffalo Vocational Technical Norris Dam l Mountain a Cherokee p Nolichucky n School Dam d Bull Run Dam p Ijams Johnsonville R American Museum of Science and Energy Fossil i v Plant Nature Cocke County i Fossil Plant & e Douglas r Center Dam High School s Combustion Turbine Melton Kingston Fossil Plant Hill Dam s & Lock i Cedar Ft. Loudoun Dam & Lock TENNESSEEDam s Tellico NORTH Pin Oak Dam Great Falls Dam Dam s Beech Dam Redbud Dam Dollywood CAROLINA i Lagoon Dogwood Dam Watts Bar Watts Bar Pine Dam Dam & Lock M Creek Lost Creek Dam Nuclear Plant Combustion Sycamore Dam Fontana Dam Turbine Brownsville Normandy Dam Combustion Turbine BRIDGES Center R i v e r Apalachia Sequoyah Nuclear Plant Dam Tims Ford Dam Hiwassee Dam Allen Fossil Plant, Ocoee #1 Dam Combustion Turbines, & Methane Facility Chickamauga Dam & Lock Ocoee #2 Dam Chatuge Dam Pickwick Landing Dam & Lock Nickajack Dam & Lock Ocoee #3 Dam Nottely Dam Florence Water Raccoon Finley Stadium Southaven Widows Creek Mountain SOUTH Magnolia Treatment Facility Combined-Cycle
    [Show full text]
  • Multiple Reservoir Land Management Plans Final Environmental Impact Statement Volume VIII Wheeler Reservoir
    WHEELER RESERVOIR FINAL RESERVOIR LAND MANAGEMENT PLAN Volume VIII MULTIPLE RESERVOIR LAND MANAGEMENT PLANS FINAL ENVIRONMENTAL IMPACT STATEMENT August 2017 This page intentionally left blank Document Type: EIS Administrative Record Index Field: Final EIS Project Name: Multiple RLMPs & CVLP EIS Project Number: 2016-2 WHEELER RESERVOIR Final Reservoir Land Management Plan VOLUME VIII MULTIPLE RESERVOIR LAND MANAGEMENT PLANS FINAL ENVIRONMENTAL IMPACT STATEMENT Prepared by Tennessee Valley Authority August 2017 This page intentionally left blank Contents TABLE OF CONTENTS ACRONYMS AND ABBREVIATIONS .................................................................................................. VIII-V CHAPTER 1. INTRODUCTION ...........................................................................................................VIII-1 1.1 Tennessee Valley Authority History ......................................................................... VIII-2 1.2 Overview of TVA’s Mission and Environmental Policy ............................................ VIII-2 1.2.1 TVA’s Mission ................................................................................................... VIII-2 1.2.2 Environmental Policy ........................................................................................ VIII-3 1.2.3 Land Policy ....................................................................................................... VIII-3 1.2.4 Shoreline Management Policy .........................................................................
    [Show full text]
  • The Influence of Engineering Organization on Design and Construction Processes at Tennessee Valley Authority Dams of the 1930S
    The Influence of Engineering Organization on Design and Construction Processes at Tennessee Valley Authority Dams of the 1930s A.B. Liel1 1Assistant Professor, University of Colorado, Boulder, CO 80309; PH (303) 492- 1050; email: [email protected] ABSTRACT This study examines engineering design processes and organization at the Tennessee Valley Authority in its early years from 1933 to 1936. During this time, Norris and Wheeler dams were constructed and plans and designs were begun for several additional dams. The TVA experience provides insights into how design processes evolved and were managed in this large engineering organization. A particularly innovative decision was the choice to build TVA dams by force account, i.e. by hiring their own employees, rather than by selecting contractors through a traditional bidding process. TVA engineers believed this approach would reduce overall design and construction costs, as well as reduce time to completion. Case studies of civil engineering history, like this one, provide an important tool for introducing students to design processes and engineering decision making. DAM DESIGNERS Unlike many of the landmark civil engineering works of the 20th century, which can largely be attributed to the engineering know-how and imagination of one individual, the construction of each of the massive federal dams during the 1930s and 1940s largely represents a collaboration of engineering design expertise among many individuals. This collaboration likely resulted from the unique challenges of dam design, which require integration of design of structures, water passage systems, turbines, transmission, and mechanical systems and involve all of the major branches of engineering. As a result, both the expertise and creativity of individual engineers and their interactions to integrate different aspects of the design are critical to the design process.
    [Show full text]
  • TVA Transmission Map 2011 R2.Pdf
    I n d i a n a W e s t V i r g i n i a I l l i n o i s @A*#Paradise *#Aberdeen K e n t u c k y @A *# Shawnee USEC *# *# Coleman Rd McCracken*# *# County Paducah National Carbide Calvert M i s s o u r i *# Jason, Ky *# E Calvert *# *# Hopson, Ky *# @A*# Kentucky Dam *# Marshall *#!( *# Fruit *#Bristow Barkley Hill, Ky *# *# Bowling#* *# * East Glasgow*# Lost Green S Bowling Green *# Bowling Green Lewisburg City *#E Glasgow *# *#*# *# Logan V i r g i n i a Hopkinsville *# Memphis *# Aluminum *# North Junction Mill Summer Shade Cadiz # *# Wolf Creek *#Benton * *# Casky, Ky Russellville, Ky *# *# *# *# *# Elkton Russellville *# Pineville,Ky Tompkinsville PS *# *#Commerce Park *# Hardin Wayne Co Golo *# *# Scottsville*# *# Mayfield Franklin*# *#S Scottsville Stella N Bristol*# Moscow Sw Sta *# *# Adairville Ky*# *# Edgoten*# Barkers Clinton *#Mill Hemlock *# U Carbide *# Mitchellville Kyles Ford Murray *# St Bethlehem *# *# Blountville Screaming *# MONTGOMERY *# Sw Sta Hickman District *# N St Bethlehem *# *# *# Eagles,Tn *# Rossview *# Jellico !( New Kirkwood*# Cross Portland Dunbar *#Lafayette Winfield S Holston Dam Providence*# *# Plains *# Ft Patrick Henry Dam *# Indian *# Oakwood # Fountain Head*# *# *# !( Bluff *# *# *# * East Mound Woodlawn Clarksville Westmoreland *# City Sumner Oneida Sweet Gum Pandora Pierce *# Boone Dam Shouns *#N Union City Dover Savage *# Springfield *# Flats *# PHIPPS BEND *# *# *# Sw Sta*# Rotary *# White *#!( *# SULLIVAN Park *# House *# E Union City Coopertown *# Tazewell Oak *# Fordtown *# *# South *# *# Plains
    [Show full text]
  • Species Status Assessment Report for the Longsolid (Fusconaia Subrotunda)
    Species Status Assessment Report for the Longsolid (Fusconaia subrotunda) Photo credit: Dick Biggins/Service October 2018 Version 1.3 U.S. Fish and Wildlife Service Region 4 Atlanta, GA Primary Contributors • Andrew Henderson - Asheville Field Office, Lead Biologist (Region 4) • Heidi Crowell - Pacific Southwest Regional Office, SAT Project Manager (Region 8) • Gary Peeples - Asheville Field Office (Region 4) • Josh Hundley - Missouri Field Office (Region 3) Additional Contributors • Mark Endries - Asheville Field Office (Region 4) – mapping support • David Martinez - Oklahoma Field Office (Region 2) • Megan Kelhart - Headquarters Peer Reviewers ● Bob Butler (USFWS, retired) ● Dr. Nathan Johnson (USGS) ● Dr. Rusty Boyles (USGS) Contributors & Partner Agency Reviewers (underlined) • Leroy Koch, Angela Boyer, Stephanie Chance, Barbara Douglas, Bob Anderson, Jason Mays, Andy Ford, Tamara Smith, Lori Pruitt, Patty Morrison (retired), Jordan Richard, Rose Agbalog, Jennifer Pritchett (USFWS) • Chuck Howard, Tim Keeling (Tennessee Valley Authority) • Kierstin Carlson (Western Pennsylvania Conservancy) • Dr. David Smith, Steve Ahlstedt (retired) (US Geological Survey) • Art Bogan, Jamie Smith (NC Museum of Natural Sciences) • Jeremy Tiemann, Rachel Vinsel, Kevin Cummings (IL Natural History Survey) • Heidi Dunn, Emily Grossman (Ecological Specialists, Inc.) • Brian Watson, Karen Horodysky, Tim Lane (VA Department of Game and Inland Fisheries) • Dr. Paul Johnson, Jeff Garner, Michael Buntin, Todd Fobian, Ashley Peters (AL Department of Conservation
    [Show full text]
  • “Analysis of Water Consumption Associated with Hydroelectric Power Generation in the United States”
    “Analysis of Water Consumption Associated with Hydroelectric Power Generation in the United States” David J. Lampert, Uisung Lee, Hao Cai, and Amgad Elgowainy Energy Systems Division, Argonne National Laboratory Abstract Hydroelectric power generation constituted approximately 6% of the electricity generation in the United States in 2013. Hydropower generation often requires the creation of an artificial reservoir and an associated evaporative flux to the atmosphere that consumes water resources that might otherwise have been used downstream in river networks. The impact of hydropower generation on the hydrologic cycle and water resource consumption was analyzed using data for all hydropower producing reservoirs in the United States. Hydropower facilities were divided into three categories—facilities generating power using the run-of-the-river, facilities generating power from artificial multipurpose reservoirs, and facilities generating power from artificial dedicated reservoirs. Water consumption in run-of-the-river facilities is negligible as they require no increased exposed water surface area. Water consumption in dedicated and multipurpose reservoirs was determined to consume 10.2 and 22.7 gallons per kWh of power produced, respectively. Water consumption in the multipurpose reservoirs was then allocated between hydropower and the other purposes by assuming similar water consumption requirements to dedicated facilities (10.2 gallons per kWh). A production-weighted average amongst the three categories was used to arrive at a final estimate of 9.85 gallons of water consumption on average in the United States to produce a kWh of electricity in hydroelectric power plants. Introduction Hydroelectric power plants supply a significant share of the electricity in the United States by capturing gravitational potential energy from the movement of water across land surfaces.
    [Show full text]