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L '~S.' f- ) .i .. s I 2.1 GEOGRAPHY & DEMOGRAPHY (Cont'd.) The population within the five-mile LPZ was about 500 in 1970. The nearest population center (as defined in 10 CFR Part 100) with a population exceeding 25,000 is Gainesville, Florida, which is located 55 miles NNE of the site, i At the present time, the land bordering the Crystal River site is sparsely populated and of a rural nature. The Gulf of Mexico is used for transporta-tion, boating, and extensive co=mercial and sport fishing. The major waterways in a five-mile radius of the plant are the Cross Florida Barge Canal (only a western section has been cons ructed) and the Crystal River site entrance channel with a maximum 14-foot draft which extends 14 miles out into the Gulf of Mexico.- The public facilities within a 10-mile i radius of the plant include four schools and the Crystal River Indian Mounds Musaum Park. The major agricultural land use in the vicinity of the Crystal River site consists of approximately 60% woodlands and 20% range and pasture lands. Little of the available land is used for crop production. Recreational land and water use in the area of the Crystal River site consists of t fishing, boating, and small game hunting. According to the applicant, the 4 Crystal River Indian Mounds Museum, located approximately 6 miles south-east of the site, has an annual attendance in excess ~ of 4,000. 4 ,ea,*%.e-- a +e =w.-e_-e*w+ w+ g ~= s

... w. _ _...... -. n p s. 2.1 GEOGRAPHY & DEMOGRAPHY (Cont'd.) We have concluded that land and. water uses have been adequately considered and are not critical with respect to the operation of the plant. On the basis of the applicant's specified population center distance, minimum exclusion area distance, and low population zone distance, and potential radiological dose consequences of design basis accidents (discussed in Section 15.0 of this report), we have concluded that the exclusion area radius, low population zone, and population center distances meet the guidelines of 10 CFR Part 100, and that the Crystal River Unit 3 site is s acceptab le. 2.2 NEARBY INDUSTRIAi ff ORTATION & MILITARY FACILITIES i There is no significant manufacturing or storage of hazardous =aterials within a 10 mile radius of the plant site. There is a dolomite quarry i located approximately 4 miles from the site which uses approximately 1000 pounds of TNT equivalent per blasting event, but does not store explosives. There are oil storage facilities at Yankeetown (4.3 miles) and at Inglis (5 miles). The two' oil fired plants at the Crystal River g I site are supplied by approximately 3 oil barges per week which deliver oil to the site via a 14-mile Ibng channel and intake canal. The Seaboard Coast Line Railroad Company tracks are located approximately 3-1/2 miles east of the site. The closest road, US 19, passes approximately 3 miles from the structures of the nuclear facilities. There are no airports within a.5-alle radius of the plant site. There is a small sod covered airfield e

j I l 2.2 NEAR3Y INDUSTRIAL, TRANSPORTATION & MILITARY FACILITIES (Cont'd.) located approximately 8 miles southeast of the site which is used by small aircraft. There are no natural gas pipelines passing near the nuclear facility. There are no missile bases in the area of the Unit 3 nuclect generating station. In view of the large plant exclusion radius and the low industrial activity within 5 miles of the plant, we conclude that offsite hazardous materials will not effect the safe operation of the Crystal River Unit 3 nuclear facility. Section 6.2 CONTAINMENT SPRAY SYSTEM 'In addition to its heat removal function, the containment spray system is also used for iodine removal from the containment atmosphere following a postulated LOCA. Sodium hydroxide and thiosulf ate are added to the containment spray solution to enhance the iodine scrubbing function of the system. The system is designed to inject a sufficient quantity of j NaOH to raise the equilibrium pH in the containment sump to a minimum value 'l of 9.5. The system, if functioning as designed is expected to be effective for removal of all r.hree forms of iodine (i.e., elemental, organic, and particulate). However, no pre-operational testing of the chemical addition and miring function of the system has been proposed by the applica't. Our ev !uation of the system is based on the assumption that verification tests n -*=- .-g a w. -en=am,= e-- 3m-e,.an=s-===* .{. 9

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m, I. i Section 6.2 CONTAINMENT SPRAY SYSTEM (Cont'd.) demonstrating the capability of the system to function as designed will i be performed. Such testing, including a test to verify the additive addition function of the system, therefore, will be incorporated into the technical specifications for this system. In our evaluation of the iodine removal effectiveness of the system, we -1 -1 calculated first order removal coefficients of 7.6 hrs , 0.11 hrs , and ~1 O.45 hrs , for elemental, organic, and particulate iodine, _espectively. The equilibrium sump pH of 9.5, and the quantity of chiosulfate injected, is considered adequate to ach. eve and maintain a decontamination factor (DF) of 1000 for the elemental and organic forms of iodine in the I containment atmosphere. 6.4 HABITABILITY SYSTEMS The applicant proposes to meet General Design Criterion 19, Control Room, of Appendix A to 10 CFR Part 50, by use of adequate concrete shielding and by installing redundant 43,500 cfm recirculating full-flow charcoal filters in the control room ventilation system. These filters will be automatically activated upon an accident signal, or a high radiation 4 s.gnal. We have calculated the potential radiation doses to control room personnel following a LOCA. The resultant whole body ga=sa and thyroid doses are within the guidelines of Criterion 19. The applicant will be required to provide protective clothing and eye protection to assure that the beta dose is kept within the exposure guidelines in the event of an accident. _}}