Conowingo Dam
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 Conowingo Dam, looking North |
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| Official name | Conowingo Hydroelectric Station |
|---|---|
| Impounds | Susquehanna River |
| Creates | Conowingo Reservoir |
| Locale | Northeastern Maryland, USA |
| Maintained by | Susquehanna Electric Company |
| Length | 4,648 feet ( 1,417 m ) |
| Height | 105 feet ( 32 m ) |
| Construction began | 1926 |
| Opening date | 1928 |
| Bridge information | |
| Carries | US Route 1 |
| Width | 2 lanes no shoulders or median |
| Geographical Data | |
| Coordinates | |
The Conowingo Dam (also Conowingo Hydroelectric Plant, Conowingo Hydroelectric Station) is a large hydroelectric dam in the Lower Susquehanna River. The dam, one of the largest nonfederal hydroelectric dams in the US, is classified as a medium height, masonry gravity type dam. The dam is located in Maryland, spanning the Cecil and Harford Counties border — 9.9 miles from the river mouth at the Chesapeake Bay, about 5 miles south of the Pennsylvania border and 45 miles northeast of Baltimore.
The dam is named for the town of Conowingo, Maryland. The original location of Conowingo is now under the waters of the reservoir created by the dam. The town was relocated during construction of the dam to its present location about 1 mile northeast of the dam's eastern end. The area, as per the 1612 John Smith map, was originally known as Smyth's Fales.
Conowingo Dam also serves as a bridge for U.S. Route 1 across the Susquehanna River. The original Route 1 cossing, Conowingo Bridge, would have been submerged after the completion of the dam, so it was demolished in 1928. The Conowingo Reservoir, and the nearby Susquehanna State Park, provide many recreational opportunities.
Note: the river immediately above and below the dam is a restricted security zone. Please consult the posted notices for more details, if visiting the area.
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[edit] Construction and hydroelectric power generation
On January 23, 1925, Philadelphia Electric Company awarded the construction contract for the dam to Stone & Webster, Inc. of Boston[1]. Construction of the dam started in 1926. (Abandonded railroad tracks for transporting heavy equipment to the dam site can be seen along the western shore of the river below the dam.) When completed in 1928 it was the second largest hydroelectric project by power output in the United States, behind only Niagara Falls. The dam was originally built by the Philadelphia Electric Company. Through subsidiaries and mergers, the dam is now operated by the Susquehanna Electric Company, part of Exelon Power Corporation.
Eleven turbine sites were constructed but only seven turbines were initially installed, driving generators each rated for 36 Megawatts. A turbine house, on the southwestern end of the dam, encloses these seven units. One unit provides 25 Hz power for the dam's electric railroad system (identical to that used by the Pennsylvania Railroad, who had an electrified line [now under Norfolk Southern ownership] running on the eastern shore). In 1978, four, higher capacity, turbines were added. Each drives a 65 Megawatt generator, increasing the dam's electrical output capacity from 252 to 548 Megawatts. The four newer turbines are in the open air section at the northeast end of the power house. The generators produce power at 13,800 Volts. This is stepped up to 220,000 Volts for transmission, primarily to the Philadelphia area. The dam currently contributes an average of 1.6 billion kilowatt hours annually to the electric grid.
The Conowingo Hydroelectric Station would be a primary black start power source if the regional power grid ever had a widespread emergency shutdown (blackout).
[edit] Flood control
The dam also has 53 flood control gates, starting at the northeastern end of the powerhouse and spanning the majority of the dam. The flood gates are operated by three overhead cranes rated for 60 tons each and built by the Morgan Engineering Company of Ohio. The cranes run on rails the length of the dam. In 1936, all the flood gates were opened. During Hurricane Agnes, in 1972, all 53 flood gates were opened, for only the second time, and explosives planted to blow a section of the weir, as the waters rose within five inches of topping the dam (a record crest of 111.5 ft[2], or 33.98 m.) At this time, on June 24, 1972, the flow sensor in the dam recorded its record discharge of 1,130,000 ft3/s (32,000 m3/s), and the flood gauge at the dam registered a record 36.85 ft[3] (11.23 m). On January 20, 1996, the gauge recorded its second-highest recorded crest of 34.18 ft[4] (10.42 m). A severe ice jam also developed behind the dam on this date. The record minimum recorded discharge was on March 2, 1969, when the flow sensor registered 144 ft3/s (4.07 m3/s).
[edit] Environmental impacts
The river water impounded by the dam forms the 14 mile long Conowingo Reservoir, know locally as Conowingo Pond. The reservoir is used as a drinking water supply for Baltimore and the Chester Water Authority; as cooling water for the Peach Bottom Nuclear Generating Station; and for recreational boating and fishing (like the dam itself, the launching ramps are adjacent to the Peach Bottom plant and subject to strict security measures). The area below the dam is excellent for bird watching – it attracts great blue herons and bald eagles – and for fishing (it was the northernmost point allowed by the Bass Anglers Sportsman Society (B.A.S.S.) for its 1991 BASSMasters Classic when it held the tournament on the Chesapeake Bay Watershed). In low rainfall or drought conditions, balancing the need to maintain the reservoir level with the water flow needs for the downstream ecology is one of the challenges faced by the dam operators[5].
The Conowingo Dam, and to a lesser extent the Holtwood and Safe Harbor Dams further upstream, severely impacted the migratory fish species, especially American shad, that would swim up the Susquehanna River to spawn. In 1984 a fish capture feature was added at Conowingo and the Shad were trucked upstream above all three dams and released. This program ended in 1999. A fish lift was installed in 1991. All three dams completed installation of fish lifts in time for the 2000 season. During the 2000 migration season, 153,000 American shad passed through the Conowingo fish lift. "However, passage rates of shad from Conowingo to Holtwood have been only 30 to 50 percent, suggesting that fish are having difficulty moving upstream in the waters of the Conowingo pool." [6].
The three dams are also involved with another ecological concern. Normally the reservoirs above each dam trap sediment and nutrients that run off from the watershed and prevent some of that from reaching the Chesapeake Bay. A recent USGS study suggest that there may be as little as 20 years left before they reach capacity and no longer function to reduce the nutrient and sediment load hitting the bay. However the scouring of major floods, and other factors, affect this.
[edit] See also
[edit] External links
- USGS - Conowingo Dam web cam and real-time water flow data
- Thinkquest Article with interior pictures and diagrams
- NWS Flood Stage Info. for Susquehanna River at Conowingo
- Maps and aerial photos
- Street map from Google Maps, or Yahoo! Maps, or Windows Live Local
- Satellite image from Google Maps, Windows Live Local, WikiMapia
- Topographic map from TopoZone
- Aerial image or topographic map from TerraServer-USA
[edit] References
- ^ PRR Chronology 1926 (citing New York Times) (PDF).
- ^ http://www.portdeposit.org/?a=history_detail
- ^ http://newweb.erh.noaa.gov/ahps2/crests.php?wfo=phi&gage=cnwm2
- ^ http://newweb.erh.noaa.gov/ahps2/crests.php?wfo=phi&gage=cnwm2
- ^ CONOWINGO POOL MANAGEMENT PLAN (PDF). Retrieved on 2006-07-22.
- ^ http://www.shwpc.com/fishlift.html
| Bridges of the Susquehanna River | |||
|---|---|---|---|
| Upstream Norman Wood Bridge  |
Conowingo Dam |
Downstream Millard E. Tydings Memorial Bridge  |
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