• Water Supply
  • Water collection and storage:
    • Dams
    • Reservoirs
    • Wells
    • Water tanks

  • Delivery over distances:
    • Aqueducts
    • Pumping and lift stations

• Wastewater Management
  • Sewers
  • Treatment plants
  • Discharge structures

• Power Generation
  • Hydroelectric Dams
  • Hydrothermal Power

Roman aqueducts

Map of aqueducts supplying water to Rome.

Typical cross-section of Roman aqueduct.

Typical longitudinal section of Roman aqueduct.

Roman arches and aqueducts

The Three Gorges Project centers on the construction of a hydroelectric dam on the Yangze River in central China. The Yangze is the world's third longest river, with a watershed covering 700,000 square miles, or 20% of China's land area and 25% of it's cropland. The watershed area also accounts for 33% of China's population and 40% of it's industrial capacity. The river discharges about 350 cubic miles of water per year (or 1.63 million cubic feet per second or 46,260 cubic meters per second) and transports 600 million tons of mud and silt annually. The river drops in elevation at a rate of about 6 inches per mile (or 0.09 m per km) in the Three Gorges region.

China requires additional electric power to support it's growing population and expanding industrial base. In addition, the government would like to provide for flood control on the lower reaches of the Yangze, which has experienced several extensive flooding disasters even in recent times. The Three Gorges project is designed to address these concerns. However, as the reading material below makes clear, it is by no means obvious that the project is the correct solution to either concern.

Some particulars:

• Length of reservoir: 600 km (373 miles)
• Dam width: 1924 meters (6312 ft or 1.2 miles)
• Number of hydroelectric turbines: 26
• Power output: 500 MW per turbine or 13000 MW total. (Compare to a typical convential or nuclear plant). (More recent pages give figure as 18000 MW).
• Height of dam: 175 m (575 ft)
• Displaced population: 1.2 million

The Three Gorges Project

History of Three Gorges Project.

The Three Gorges Project

Sedimentation Problems at Three Gorges Dam

IRN Three Gorges Homepage

Recent Chinese government report

Go to the Center for Applied Coastal Research web page for further info on coastal engineering at the University of Delaware and worldwide.

Based on information given above, and assuming that the dam height is 175 m and the width of the reservoir is the same as the width of the dam, calculate how long it will take to:

• Fill the reservoir volume with water.
• Subsequently fill in the reservoir volume with sediment, if none bypasses the dam. Assume that the sediment has a density of 2500 kg/cubic meter after it is deposited in the reservoir.

• Three Gorges Project: Pro's and con's.
• Water supply: future options for New Castle County.
• Historic development of some aspect of hydraulics: aqueducts, dams, etc.
• Coastal protection: Engineering intervention vs. retreat from the coast.