B. IMPACTS OF SITE PREPARATION AND PLANT CONSTRUCTION. VIII. THE RELATIONSHIP BETWEEN SHORT-TERM USES OF THE 98 Fig. I-2 Fig. I-3 Fig. II-1 Fig. II-2 Fig. II-3 Fig. II-4 Fig. II-5 Fig. II-6 Fig. II-7 Fig. III-1 Lake Keowee in the vicinity of the Oconee Nuclear Station. Available capacity and peak load forecast of the Duke Power Oconee Nuclear Station and environs to 50 miles. Distances of population centers within a 100-mile radius from General area of Oconee Nuclear Station. Population distribution in 1965 and projected distribution in 2010 within 20-mile radius of the Oconee Nuclear Station. Points of interest in environs of Oconee Nuclear Station for dose-rate calculations. Annual surface-wind rose for Greeneville, South Carolina, Forecast of high-pollution-potential days in the United States. View of site of Oconee Nuclear Station. Fig. III-2 Visitor center at Oconee Nuclear Station. Fig. III-3 Power transmission lines at Oconee Nuclear Station site. Fig. III-4 Schematic flow diagram of heat-removal system at Oconee Nuclear Fig. III-5 Lake Keowee surface temperatures. Fig. III-6 Fig. III-7 Condenser intake canal at Oconee Nuclear Station. Schematic layout of condenser cooling water lines at Oconee Fig. III-8 Cooling water intake structure at Oconee Nuclear Station. Fig. III-9 Cooling water discharge structure at Oconee Nuclear Station. Fig. III-10 Fig. III-11 Fig. V-1 Fig. X -1 Radwaste liquid and solid discharge system at Oconee Nuclear Gaseous exhaust systems at Oconee Nuclear Station. Pathways for external and internal exposure of man by radioactive materials released to the atmosphere and hydrosphere at Oconee Nuclear Station. Number of construction employees, 1968 to 1974, at Oconee |