PU-Plant Production Hallway

ML092720491
Person / Time
Site:	07000925
Issue date:	11/02/1989
From:	Rogers W Cimarron Corp
To:	Region 3 Administrator
Shared Package
ML092720355	List: ML092720430 ML092720432 ML092720433 ML092720434 ML092720435 ML092720436 ML092720437 ML092720438 ML092720439 ML092720455 ML092720456 ML092720472 ML092720473 ML092720491 ML092720492 ML092720604 ML092730255 ML092730256 ML092730257 ML092730258 ML092730259 ML092730260 ML092730261 ML092730262 ML092730263 ML092730264 ML092730266 ML092730267
References
Download: ML092720491 (26)
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Text

Pu-Plant Production Hallway This hallway runs *North from airlock to an intersection, for its east and west legs, and on north to room 127 door. The east-west leg runs from the east i;aIl of building west past room 128 door, lab north door, vault door, rthru the intersection, past 124 door, 116 door,. 123 door, 121 door and ends at the Pu dock airlock door.

This hallway had a"ýsheetrock ceiling to isolate it from an attic area containing pipe, conduit, and supply and exhaust duct. We removed approximately 6d0% of the conduit and piping, all of the ex-haust, and a small porti-on of the supply duct from this attic area before starting our release survey. After the sheetrock ceiling and the floor coating were removed, our scan of the Walls and floor indi-cated the need to blast the wall of this hallway north and east from the intersection.

We also blasted the entire floor of this hallway.

We used Ludlum 2220 with a Ludlum 43-17 low energy gamma probe to survey all cracks and seams.

A Ludlum7220 with a Ludlum 43-68, 43-4, or 43-27 was used with P-10 gas for all alpha release surveys.

All smears were taken onWhatman smear paper and counted in a Hewlett

-Packard 5560A (low background) automatic sample counter.

W. A. Rogers

Pu PLANT RELEASE SURVEY PLAN

1. For initial decontamination all surfaces will be scanned with an Eberline PRM-6 with a Radeco alpha scintillation probe.

Back-ground will be maintained at less than 100 CPM(200 dpm).

All areas greater than twice background will be marked and reading will be taken with a release survey instrument to document cont-amination levels and random large area smears will be taken.

2. After these initial areas are decontaminated, all floor surfaces and the base of each wall will be completely surveyed with a digital readout release instrument and a Ludlum large area gas proportional alpha detector and random smear samples will be taken.

Release instrumentation shall have a minimum detectable level of at least 50 dpm/100 cm2.

3.

All hot spots greater than or equal to 100 dpm/100 cm2 ident-ified will be decontaminated.

4.

A random survey with a release instrument will be taken on the walls and ceiling to try to identify any other problem areas.

5.

If no problems are identified, each room will be gridded off into approximately 2 meter on a side square on the walls and floor and five readings will be taken in each grid.

Readings shall be taken in the center and at the midpoint from the center to each corner.

6.

Each ceiling has closely spaced rafters that will not be easily divided into 2 meter squares.

Because of this, we will take readings on the bottom of each rafter at 2 meter inter-vals and one reading centered on the ceiling between rafters.

Readings on each rafter will be staggered one meter.

7.

These release readings will be documented on a map that is drawn to approximately scale measurements in meters.

8.

Data provided on each map:

1. Survey block numbers, identifiable on a scale drawings.

a.

room or area name or number.

b. surface surveyed.

c. type of measurement and units.

2.

Name of surveyor taking measurements, date of survey, and location.

3.

Type, model number, calibration data, sensitivity limit, background, and source response of instruments used in survey.

4.

When a block surveyed is below the sensitivity of the instru-ment, the fact that such a measurement was made should be included as significant data.

9. All release survey smears will be taken on Whatman smear paper and counted in the automatic sample counters.

Each smear will cover approximately 100 cm2.

10. There will be at least 30 survey blocks in each area to be released.

11. Piping and ductwork will be surveyed on all accessable sides at 2 meter intervals.

If more than one line is running parallel in a pipe rack, readings shall be staggered at one meter intervals.

12. All readings taken that only cover part of a probe area will be corrected to dpm/100 cm2.

13.

No survey block will measure less than one meter on a side.

14.

No survey block will measure more than 3 meters on a side.

15. All portable release survey instruments will be calibrated quarterly and all instruments in use will be source checked daily.

Table I-I.

Acceptable surface contamination levels Nuclidesa AverageLL.,1 Ma xi mum 'elj Removable~ b,?

U-nat, U-23S, U-238, and associated decay products Transuranics, Ra-226, Ra-228, Th-230.

Th-228, Pa-231, Ac-227, 1-125, 1-129 Th-nat, Th-232, Sr-90 Ra-223, Ra-224, U-232, 1-126, 1-131, 1-133 Beta-gamma emitters (nuclides with decay modes other than alpha emission or spontaneous fission) except Sr-90 and other noted above.

5,000 dpm ri/lOl cm?

100 dpm/lO0 cm2 1,000 dpm/l00 cm2 5,000 dpm BY/100 cm 2 15,000 dpm a/100 cm2 301) dpm/l)R10 CI12 3,000 dpm/100 cm2 15.000 dpm 8(/100 cm?

1,000 dpm (t/100 cm2 20 dpm/1lO0 cm2 200 dpm/100 cm2 1,000 dpm 6-y/100 cm' a Where surface contamination by.both alpha-and beta-gamma-emitting nuclides exists, the lIim"its established for alpha-and beta-gamma-emitting nuclides should apply independently.

bAs used in this table, dpm (disintegrations per minute) means the rate of emis!;ion by radi,,:ictive material as determined by correcting the counts per minute observed by an appropriate detector for background, efficiency, and geometric factors associated with the instrumentation.

C Measurements of average contaminant should not he averaged over more than I square meter.

For objects of less surface area, the average should be derived for each such object.

dThe maximum contamination level applies to an area of not more than 100 cm2.

eThe amount of removable radioactive material per 100 cm2 of surface area should be determined by wiping that area with dry filter or soft absorbent paper, applying moderate pressure, and assessing the amount of radioactive material on the wipe with an appropriate instrument of known efficiency.

When removable contamination on objects of less surface area is determined, the pertinent levels should be reduced proportionally and the entire surface should be wiped.

fThe average and maximum radiation levels associated with surface contamination resulting from beta-gamma emitters should not exceed 0.2 mrad/hr at 1 cm and 1.0 mrad/hr at 1 cm, respectively, measured through not more than 7 milligrams per square centimeter of total absorber.