ML20081C164

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Rev D to Procedure SD-OP-039, Operating Procedure for Mobile Cement Solidification Unit 121 (MSU-C-121)
ML20081C164
Person / Time
Site: Catawba Duke Energy icon.png
Issue date: 11/17/1983
From:
CHEM-NUCLEAR SYSTEMS, INC.
To:
Shared Package
ML20081C146 List:
References
SD-OP-039, SD-OP-39, NUDOCS 8403120161
Download: ML20081C164 (27)


Text

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KEVISIONS I REV. DESCRIPTION DATE APPROVED A

( 9/7/fL OIANGES PER O!ANGE RDDUEST SD-OP-039-01 h/ffg/

B p ef'//y/[L//_f[jd f g j OIANGES PER OIANGE REQUEST SD-OP-039-02 C

CHANCES PER CilANCE REQUEST SD-OF-039-03  ; l/3

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CliANOES PER CHANGE REQUEST 3D-OP-039-04//[/7fkA_s,

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CNSI FETY REVIEW BOARD ' OV'L Nf$ w) D 8'V BY. /2 ly' . Wraukum u >U'Mi . ., T1%. hU '

DATR 7/t[d2-NOIE:

THIS INUTION IS G)NSIDERED PROHlIETARY AND IS NOT 'IO OR OOPIED WITHOUT YdITTEN PERMISSION OF OIDI-NUCLEAR SYSTEMS, INC.

REVISION STATUS SHEET 1 2 3 4 5 6 7 3 9 10 11 12 13 14 15 16 17 REV. D A D C A A A D D 'D -D D D D D~

C-SHEET 18 19 20 %1 22 23 24 25 26 27 REV. -

D 'D A' D - - - - -

PJEPARED DATE l

@fx C D Fu 4 7-22 CHEM - NUCLEAR SYSTEMS, INC.

1/ TITLE PECJNE R ' .

OPERATING PflOCEDURE FOR TIIE

% k*N-D MlMILE CD1ENT SOLIDIFICATION UNIT NO.121 A ouauryi O!SU-C-121) 8403120161 831028 PDR ADOCK 05000413 f.kc'4 APPP AVE b*lln~12- E PDR D. .

CONTR ACT NO. DOCUMENT NO. R EV. SHEET

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TABLE OF &)NTENTS

(, Pace 1.0 SCOPE 3

REFERENCES 2.{ 3-3.b REDUIREMENTS 4

4.0 PRE-OPERATIONAL TESTING 1

9 5.0 SYSTD1 OPERATION 13

6. 0 SYSTEM SHUTDOhN 17 7.0 ACCEPTANCE CRITERIA 19 8.0 RECORDS AND REPORTS

, 19 FOlut A - Pre-Operational Gecklist 20 FQui B - Valve Line-Up Sheet 21 APPENDIX A - Material Safety Data Sheets 22 1

DOCUMENT REV. SHEET SD-OP-039 A 2 L

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1.1 Purpose

( 'Ihis is a procedure for operation of the CNSI hbbile Cement Solidification Unit Number 121. It provides instructions for proper operation of the unit af ter assembly and testing in accor-dance with lfcierence 2.14.

1.2 Applicability 3 t-

\

'Ibe instructions contained in this doctment apply only to the CNSI hbbile & ment Solidification Unit Number 121. It is to be used in conjunction with Heference 2.13 and 2.14.

2.0 REFERENCES

2.1 OA-AD-001, Quality Assurance Program 2.2 CN-AD-019, CNSI AIARA Iblicy

2. 3 EN-AD-001, Drawing Control Program 2.4 EN-AD-002, Design Gntrol Program
2. 5 NRC Hei;ulatory Guide 1.143, Design Guides For Radioactive Waste Managonent. Systcms , Structures, And Components Installed In Light-W'ater (boled Nuclear Ibwer Plants 2.6 NRC Pegulatory Guide 8.8, Information Helevant To Ehsuring 'Ihat

( Occupational Radiation Exposures At Nuclear Power Stations Will Be As Iow As Heae.onably Achievable 2.7 iiRC Regulatory Guide 8.10, Operating Philosophy For f.hintaining Occupational Radiation Exposurcs As Iow As Reasonably Achievable 2.8 10 CFR 20, Standanis For Protection Against Radiation 2.9 10 CFR 50, Appendix B, Quality Assurance Criteria For Nuc1 car Power Plants And Fuel Reprocessing Plants 2.10< 10 CFR 71, Appendix E, Packages For Radioacti' eQuality ahterialAssurance Program For Shipping f

2.11 G em-Nuclear Manual, Heference Sys2.15 te ns . Inc. Drawings As Listed In hhintenance 2.12 Gem-Nuclear Systems, Inc. Ossk handling Procedure

'4 . 2.13 Processs Control Program For CNSI Cement Solidification Units, SD-OP-003 2.14 Assembly and Disassanbly Procedure For CNSI Portable Cement Solidification Unit No.121, SD-OP 042 2.15 hSU-C-121, hhintenance hhnual

( -

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~2.16 CN2AD-001, Safety Review tbard DOCUMENT -

REV. SHEET SD-OP-039

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r 2.17 CN-AD-0 . Document Storage And Control '

2.18 CN-SF-016, Safety Procedure For Entry Into (bnfined Spaces 3.0

{ itEDUIREMENTS 3.1 prerequisites 3.1.1 Acquire a fiadiation Work Permit (or equi, valent) from the l- facility's llealth Physics Departrient.

t 3.1.2 A radiation survey is required prior , to pre-operational testing.

This may be perfonned by the utility's Health Physics personnel.

3.1.0 Pre-operational testing is required before batch solidi-ficatien in accordance with Section 4.0.

3.1.4 MSU-C-121 shall have been assembled and tested in accor-dance with fieference 2.14.

3.1.5 Inspect and use, as appropriate, protective clothing, chem-ical splash goggle-s, face shield, hard hat, safety shoes, gloves and respirator. Know where the closest eye wash and safety shower are and how to use them.

CAUTION: HOSES AND OIllER PRESSURE RETAINING COMPONEES MAY B SURIZED DURING DISASSEMILY. FACE SHIELDS AND APPROPRIATE PRUTECTIVE QDIllING SHAIL BE WORN DURING DISASSEMILY OF Ill EQUIIMNT.

3.2 Equipment The process equipnent is mounted on a bulk cement trailer, equip-ment trailer plant connection stand and fillhead. The plant con-nection stand and fillhead should be located inside the radwaste area. The majority of the equipnent and the cement trailers should be located outside the radwaste area.

3.2.1 Waste Transfer Svsten This system transfers radioactive waste from the faci-lity's radwaste system to the disposable solidification.

  • liner for 3.2.1.1 hhjor components of the waste transfer system include:

3.2.1.1.1 1-1/2" Waste Hoses and Waste Valve 3.2.1.1.2 hhnually-Operated Sample and Flush Valves 3.2.1.1.3 Fillhead Isolation Valves

( 3.2.1.2 L An alann and control circuit provide autunatic and manual operation of the waste isolation valve.

DOCUMENT REV. SHEET t SD-OP-039 D 4 j

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. CNSQ 100L%78

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  • 3.2.2 Dewatering System

.( The dewatering system removes excess water from resin slurries in the disposable liner and samples waste in the liner after che nical addition.

3.2.2.1 The ma.jor components of the dewatering system 1

include:

,7 3.2.2.1.1 1-1/2" Dewatering Hose l

3.2.2.1.2 Pillhead Isolation Valve 3.2.2.1.3 Ai r@erated Ibsitive-Displace-ment Pump 3.2.2.1.4 Filtration System in the Liner 3.2.2.2 A control circuit allows for remote opera-tions of the dewatering system.

-3.2.3 Liner Ventilation System The liner ventilation system maintains a slight vacuuai in the liner to prevent release of vapor or. articulate matter during processing.

3.2.3.1 *

. lhe ma.jor components of the liner ventilation system include:

3.2.3.1.1 2" Interconnecting Hoses between the fillhead o'd the facility's

- off-gas system.

3.2.3.1.2 A Venturi Scrubber for moisture and dust separation.

3. 2. 3.1. 3 A Refrigeration Unit for mois-ture separation by cooling hot off-gas.

3.2.3.2 This

  • system is in operation prior to waste transfer and throughout the solidification

. process.

3.2.4 CementAaime Transfer System i

The transfer system moves the required amount of cement and lime from the bulk trailer tc the disposable liner.

3.2.4.1

  • Ihe ma.1or components of the cement / lime transfer system include:

3.2.4.1.1 Rotary Feed Valves L

3.2.4.1.2 Transfer Svstem Blower cocuMENT REV.. SHEET

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e. 3.2.4.1.3 Baghout. Vent for Bulk Trailer '

3.2.4.1.4 2" Interconnecting Hoses betwen the Bulk Trailer and Fillhead on the Disposable Liner 3.2.4.1.5 Cyclone Separator, Rotary Air-lock and Cyclone Isolation 3.2.4.1.6 Load Oell '

I.. '

3.2.4.1.7 Bulk Trailer Shakers And Aera-tion Blower l ,

3.2.4.2 The aeration blower and shakers fluidize the cement / lime in the bulk trailer for transfer to the cyclone separator by the feeder valves and transfer system blower.

'Ihe cyclone separator and rotary airlock separates the air and cement posable liner. /llme which falls into the dis-3.2.5 Hydraulic System The hydraulic systetn supplies motive power to cierate the liner's mixer blade at the correct speed.

3.2.5.1 'Ihe major conponents of the hydraulic system include:

{ 3.2.5.1.1 Hydraulic Ibwer Plant 3.2.5.1.2 Hydraulic Mixer Abtor mounted on the Fillhead 3.2.5.1.3 Mixer Speed Control 3.2.5.1.4 Necessary High Pressure Hoses and Fittings 3.2.6 F111 head And F111 head Skirt Assembly The fillhead assembly channels the flow of waste, chemi-cal liner.

conditioner and cernent/llme into the disposable It also provides an off-gas ventilation path from the disposable liner, supports the hydraulic mixer motor and houses the necessary electronic controls and interlocks.

, 3.2.6.1 The major ccrnponents of the fillhead assetnbly include:

3.2.6.1.1 Waste Ibse Gnnection and Iso-lation Valve 3.2.6.1.2 Nwater Ibse Gnnection

(_ Isolation Valve and DOCUMENT REV. SHEET t SD-OP-039 A '

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Ventilas.$n tiose Cbnnection 3.2.6.1.4 Waste Conditioner and Isolation Valve

( 3.2.6.1.5 Disposable Liner Level cation G nnection Indi-3.2.6.1.6 Liner Hi-Hi Level Float Alam i l- and shutdown 3.2.6.1.7 Disposable Liner Temperature Monitor  ;

l 3.2.6.2

'Ihe fillhead skirt between the fillhead and the liner prevents splashing of the fillhead underside during operation and provides access to the connections under the fillhead.

3.2.7 waste Conditionine Svstem The suste conditioning system transfers the required amount of liquid conditioning chemicals to ensure the correct solidification reaction (if 11guld treatment is required by Peference 2.13).

3.2.7.1 The ma.jor conponents of the waste con-ditioning system include:

3.2.7.1.1 lbsitive-Displacement Pump 3.2.7.1.2 Transfer Hose Gnnecting Pump to the Fillhead 3.2.7.1.3 Pump Stroke Counter 3.2.8 Control System The control system indicates system conditions, alarm conditions and interlocks for various equipnent and con-trol systcm components.

3.2.8.1 Electrical controls and indications include:

3.2.8.1.1 Control Power On 3.2.8.1.2 Hadiation Monitor 3.2.8.1.3 liigh Level, Cement Level, Lime Level / Waste Level Indication 3.2.8.1.4 Ill-H1 Level Alarm 3.2.8.1.5 F111 head Light

( 3.2.8.1.6 haste Valve Control and Position Indicator DOCUMENT

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REV. SHEET SD-OP-039 L A 7 m].p;. ;< ,s w.:. ,;. n J

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I 3.2.8.1.7 3 Transfer System Controls 3.2.8.1.8 Load Cell Read Out And Controls

{ 3.2.8.1.9 Hydraulic Ibwer Supply Gntrols 3.2.8.1.10 Main Air G ntrols 3.2.8.1.11 Fillhead Vent System Wntrols

{' 3.2.8.1.12 Gmera Lens Air Gntrols 3.2.3.1.13 Aeration Blower And Shaker -

Controls 3.2.8.1.14 Low Oil Level Alarm 3.2.8.1.15 Mixer Speed Control 3.2.8.1.16 Dewatering Pump G ntrols 3.2.8.1.17 Bnergency Stop .

3.2.8.1.18 Liner Temperature hbnitor 3.2.8.2 'lhe pnettnatic include:

controls and indicators 3.2.8.2.1 Main Air Pressure

( 3.2.8.2.2 Transfer System Pressure l 3.2.8.2.3 Desater Pump Air Pressure Regulator 3.2.8.2.4 mmera Lens Flow Gntrol 3.2.8.2.5 F111 head Woling Flow Gntrol 3.2.8.2.6 Air Barrier 3 2.9 Radiation Monitoring System

}

The radiation monitoring system provides a secondary means of monitoring actual radwaste flow to the dispos-able liner and a means of verifying stien flush require-ments have been completed on the waste line.

3.2.9.1 System components include:

3.2.9.1.1 G1 Detector mounted on the Waste Isolation Valve .

3.2.9.1.2 G1 Detector on Pillhead L 3.2.9.1.3 Visual Display and Alann on the Main Gntrol Ihnel DOCUMENT REV. SHEET SD-OP-039 L A 8

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l Q.0 PHE-OPERATIONAL Ti~i'IEG '

NorE:

UNIT IS ASSD4 BLED, ALL CAMFS AND HOSES ARE CONNECTED IN A(XDRDANCE WITH THE ASSDdBLY IHOCEDURE, SD-JP-042. FILLHEAD IS ON DIE STRAGE STAND, PANEL IS ENERGIZED.

4.1 Perform the Pre-Operational Checklist, Form A, and the Valve Line-Up Sheet, Form B. Valve Line-Up Sheet may be completed in any order, but nust be completed prior to receiving waste.'

h 4.2 Liner Set-Up t'

Liner set-up nny be done outside the solidification area.

4.2.1 When possible, monitor chk and liner movements and opera-tions conducted by the utility.

CAtTTION: LINER MAY BE IEESSURIZED. OPEN WITH EXTRDdE CARE. IF ENTRY INIO A LINER IS REQUIRED, FDLlD# THE PRECAITTIONS OF REF. 2.18 4.2.2 Open and inspect liner for foreign materials and damage.

Record liner condition in the Daily Operations log.

4.2.3 Install the following, mininizing length to prevent splash-ing when removing the fillhead af ter solidification.

4.2.3.1 Level Tube (1) 4.2.3.2 Temperature Probe (1)

( 4.2.3.3 thwatering leg (if required for resin or D.E) 4.3 Fillhead Placement 4.3.1 Attach crane to fillhead spreader bar. Cyclone should be in the down position, if necessary. Slowly lift to check weight distribution.

4.3.2 Transfer fillheart to liner. Ensure plastic big is attached to the Hi-Hi level float to ensure it is protected from chemical and waste splashing.

NorE: THE OPERA'IDR SHALL VERIFY DE VDIT LINE IS CLEAR PRIOR 'ID PLACING die FILUIEAD ON DE LINER.

4.3.3 lbsition the Hi-hi level alarm leg in the direction of rotation to ensure proper operation, (clockwise).

4.3.4 Manually lift Hi-Hi level float, to ensure float is free to opers.te.

4.3.5 Connect the level tube, temperature probe and dewatering leg (if required) to the fillhead and lower the fillhead onto the lincr. Attach the fillhead to the liner, cask or shield using turn buckles.

k 4.3.6 Check proper connection of all hoses and cables to fillhead.

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4.4 Hydrau11 Jnit Preparations

  • 3 4.4.1 Qeck hydraulic oil' reservoir level.

half-full. Refill if less than

( 4.4.2 Qeck hydraulic oil temperature. Ensure oil temperature is above 700 F. If less than 700 F, turn on as soon as possible to wam up oil.

4.4.3 Inspect unit for evidence of leakage. If leakage is ob-

{ served, corrective action shall be taken.

4. 5 Main Control Panel NOTE.

IF SCLIDIMING HOT WASTE, THE AIR CONDITIONING UNIT, CBENT INLET AND VENT LINE HEATERS SH0lLD BE TURNED ON 30 MINUT PRIOR 'IO ADDING WASTE. IF SCLIDIWING OCLD WAhTE, THIS WILL BE ACCOMILISHED AT PARAGRAPH 4.5.17.

4.5.1 On the control panel, check control power key switch off and all push button switches in.

4.5.2 Open power panel, check all bypass switches and emergency run key switch off.

4.5.3 Close and lock power panel door and close main power breaker to energize power and control Innels.

4.5.4 Energize the radiation monitor. Geck readings from the fillhead, plant connection stand and spare against rad-( iation survey of Step 3.1 to ensure each station is reading properly.

4.5.5 Energize liner temperature monitor. Nsure reading is ambient for liner location.

4.5.6 Energize the level indication panel. Level should read approximatelv zero after a short warm-up period (approxi-mately 1 minute).

4.5.7 Check that the load cell is energized and read out switch is in the " POUNDS" position.

4.5.8 Energize control panel by turning on the control power key switch and pulling emergency stop outton. The following start-up indications should be visible:

Panel Designations Start-Un Indication

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lbwer On Indicator Ibwer On (Red)

Waste Valve Hi-Hi Level Alam Closed (Green)

Hi Level Off (Not Lit)

Cenent Level Off (Not Lit) haste Level Off (Not Lit)

Aeration Blower Of f (Not Lit)

( Venturi Ptunp Off (Green)

Off (Green)

DOCUMF.NT REV. SHEET SD-OP-039 D 10

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Panel Des ations dtart-Un Indication '

Hi-Hi Level Alarm Horn Cutout Off (Not Lit)

Hydraulic Ibwer Supply Ibwer Lockout Off (Green)

C Key Switch On Main Air Hydraulic Reverse Jeg Of f (Not Lit)

Baghcuse Purge Off (Not Lit)

Transfer System Blower Of f (Not Lit) {

Cement Feeder Off (Greep) 1 Cyclone Isolation Valve Of f (Green)

Cyclone Airlock Closed (Green) ,

Hydraulic Speed Gntrol Off (Green) htinimim Diverter Valves Lime Feeder #1 Cement (Green)

Lime Feeder #2 Off (Green)

Off (Green) 4.5.9 Pull on main air, check pressure (minimin of 100 psig + 20 psi required) and pull on baghouse purge. _

If solidifving hot waste, operation. turn on vent system and check for proper NOIE: BAGHOUSE PURGE S!!OULD BE RUN WlEN EVER POSSIILE 'IO KEEP BAGS DRY AND AS (LEAN AS IOSSIILE.

4.5.10 As soon as practical, but prior to transfer of cement, check for proper baghouse operation. Surge tank pre .ure should build-up to approximtely 14 lbs. and drop to 5 lbs. during each purge. Each putye should occur approximate 1v everv 60 seconds. Ensure each of the three sections is being pnge<1.

4.5.11 Disconnect feeder valve combined dischtrge hose and con-nect to the back manway of the cement trailer, bypassing the cyclone, allowing cement / lime to be transferred back to the trailer.

NorE:

CARE SHOULD BE TAKEN 'IO PREVEhT WATER OR 10 REIGN OB-JEETS FROM ENTERING THE CY(LONE WilILE THE HOSES ARE DISCONNECTED. DIE KAh00CK CAPS PROVIDED WITH THE UNIT SHOULD BE USED.

t 4.5.12 Energize the transfer system blower ani aeration blower and check for proper operation. Transfer system discharge pres-sure should be approximately 7 psig. 01eck hoses for air leaks. Aeration blower discharge pressure should be approx-imately 1-3 psig.

NOTE:

WHEN THE CDENT AND LIME FEEDER VALVES ARE TURNED ON,

[ , DIE CYCLONE AIFLOCK SIIOULD START WlEN TIE ISCLATION VALVE IS OPENED.

OECX FOR PROPER OPERATION DURING NEXT STEPS.

I 4.5.13 With transfer system and aeration blowers on, cycle on then off cement feeder FV-1 to check for proper op3 ration.

Diverter valves (DV-1 and DV-2) should shift to the cemmt position.

( 03eck transfer system blower pressure to ensure cement has transferred. Check shakers for proper operation.

DOCUMENT _

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F i 4.5.14 ith transfer system and aeration blowers on, cycle on '

then off lime feeder #1 (FV-3) or #2 (FV-2). G eck

' transfer system blower pressure to ensure lime trans-ferred. Geck shakers for proper operation.

( 4.5.15 Turn off the transfer system and aeration b]owers. Re-connect the feeder valve combined discharge. hose to the cyclone and cyclone discharge back to the back mansay of the bulk cement trailer.

h 4.5.16 Geck with the utility to ensure waste line is depres-surized and cycle open, then shut waste g valve WS-1 to check for proper operaton. t 4.5.17 If solidifying cold waste, turn on fillhead vent system which includes, inlet and vent line heaters, air con-ditioning unit, and Venturi pump. If solidifying hot waste, the inlet and vent line heaters and the air con-ditioning unit should be operating.

4.5.18 Turn on TV camera, TV monitor, Rustrak and fillhead light. Turn intensity rotary switch to 75% maximum.

NUTE: HIGIER TIIAN 75% WILL CUT DIE BILB LIFE APPREC-IAILY. TURN OFF LIGIT WIIENEVER POSSIILE BY TURNING INTDiSITY ROTARY SWI'ICI 'ID MINIMUM, UIEN TURN SWITQ1 0FF.

4.5.19 Adjust fillhead cooling air to 75 SCFH.

( 4.5.20 Ensure hydraulic speed control is minimum.

hydraulic power supply, increase speed control until Ibrn on rotation of shaft is observed on the TV monitor. Geck for proper Iotation (clockwise) and hydInulic hoses for leakage.

4.5.21 Decrease hydraulic speed on the speed control knob to minimum. Push reverse jcg button and check shaft rotation reverses. Release button and check reversal to forward rotation.

4.5.22 Decrease hydraulic speed control to minimtn and turn off hydraulic power supply. If oil is less than 700 F, leave hydraulic power supply in operation.

4.5.23 The load cell should be on and stabilized at some value.

Using a known weight, check if load cell is functioning properly. 'Ihis step must be repeated any time the load cell is de-energized.

4.5.24 In the level control panel, using heights specified hv the ICP, Reference 2.13:

4.5.24.1 Set Level #1 for waste.

4.5.24.2 Set Level #2 for cement. .

4.5.24.3 Set Level #3 for high level.

DOCUMENT REV. SHEET q SD-OP-039 D 12 j

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4.5.24.5 Set the density compensator for the specific gravity of the waste as determined by test or as provided by the utility.

4.5.25 Purge the level indication system with blowdown on front of level indication panel observing level increases on dis-play. Slowly crimp level hose and observe level increase on panel display, hhen levels set in , Step 4.5.24 are t- reached, acknowledge waste, cement and high levels. Ensure I levels are clear and the displav returns to approximately zero when crimped hose is released.

4.5.26 Manually lif t Hi-Hi level alarm float to check III-Hi level alarm.

5. 0 SYSTEM OPERATION 5.1 Verify the following conditions exist:

5.1.1 The utility has indicated that waste is ready to be transferred.

5.1.2 A FCP sample has been completed satisfactorily in accor-dance with Heference 2.13 and all chemicals are preloaded in accordance with Heference 2.13, if necessary.

5.1. 3 Hydraulic motor speed is adjusted to the slowest speed before starting.

( 5.1.4 Pre-Operational Checklist, Form satisfactorily.

A, has been completed 5.1. 5 Valve line-up, Form B, has been completed satisfactorily.

5.1. 6 Fillhead vent system, cement inlet and vent line heaters energized.

5.2 On the main control innel:

5.2.1 Start the mixer and adjust speed te 2.5 on speed control scale. (See NOTE)

NorE: IF A DEWATERING EV1UTION IS TO BE PERFORMED PRIOR TO SWIDIFICATION, 'IllE MIXER SHOLLD Nor BE TURNED ON -

UNTIL THE DEWATERING HAS BEEN OWRETED. IllE MIXER CAN BE J0GGED TO LEVE RESIN OR DIATOMACEOUS EARTH DURING DEWATERING EV1UTION TO OBTAIN A MORE ACCURATE LEVEL INDICATION.

5.2.2 Open waste isolation vcive WS-1.

5. 3 Contact the utility's waste operator and inform him the system is ready to receive waste.

5.4 When the waste flow begins, observe flow on the TV monitor. W-serve the radiation monitor to verify flow.

DOCUMENT REV. SHEET t SD-OP-039 D 13 y.' . j p .* . 4. . .

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  • CNSQ 1002/8 78

'r I NorE: WS 4 WILL SHUR AUIOfATICARY WHEN PRESET UASTE .; EVE IS 3

REACHED.

DIE TECHNICIAN SHOLLD ATTEMPT 10 VERIFY D E ACIDAL ValNE OF WASTE TRANSFERED BY MORE hiAN ONE SOURC1! OF IN

(, 10RMATION, I.E; TV CAMERA, LEVE INDICATION, UTILITY WASTE OPERATOR'S WASTE ITS(PING RATES. KNOEEDGE OF WASTE TRAM 3FERRED AND EirIMATED

5. 5 When the desired volume of waste has been transf' erred , ensure that the utility stops waste . low.

F CAUTION:

THE TECHNICIAN MUST COORDINATE WASTE TRANSFER SHUrDOWN WITH WASTE THE UTILITY AND MAY OPERATE WASTE VALVE OVERRIDE FO LINE EUSHING. I

5. 6 (If dewatering is necessary) Notify the utility that dewntering t is ready to begin.

NOTE:

IF WASTE ADDED IS RESIN EURRY OR DIATOMACEOUS EAirDI, PRO-CEED WITH STEP 5.7. IF WASTE ADDED IS CONCENTRATED LIQUIDS, SKIP STEPS 5.7 THROUGH 5.8 AND IEOCEED WITH STEP THE5.10.

CNSI PER WATER RATIO.

TECHNICIAN MAY NEED TO DEWATER LURRIES TO ENSURE PRO-WASTE TRANSFERRED WITH SURRY.MAY VARY AND OPERATING EXPERIENCE WILL DICTATE 1EE NUMBER OF TIMES SURRY WILL NEED DEWATERING.

5.7 (If dewatering is necessary) When the utility is ready to de-water, start the dewater ptmp. Stop the dewater pump when the resin / diatomaceous earth appears at the water level.

( 5.8 Repeat Steps 5.4 (after opening WS-1) through 5.8 until slurry is at waste level detemined by PCP. Then flush waste line to liner and shut WS-1. Af ter flush, it may be necessary to dewater to obtain level of water on top of resin / diatomaceous earth as detemined by PCP.

5.9 If liquid caustic is required by Reference 2.13, set the pump counter lon. for the nunber of strokes required at 21 strokes per gal-Add the required amount of liquid caustic and ensure the chemical conditioner pump stops. .

CAUIION: SWIUM HYDROXIDE IS EXTRDfLY CAUSTIC.PROPE PROTED-TIVE GOTHING, INCLUDING OIDlICAL SEASH GOG1ES MUST BE WORN TO PREVENT CONTACT WITH SKIN, CIOTHING, AND EYE 3 WHEN WORKING WIT!! TilIS MATERIAL. IF SODIUM HYDROXIDE CONTACTS SKIN, WASH THOROUGEY WIT 11 WATER. IF IT COMES IN OCNTACT WITH THE EYES OR OPEN WOUNDS, RUSH WITH LARGE AMOUNTS OF WATER FOR 15 MINUTES AND CONTACT MEDICL PER-SONNEL AS SOON AS IOSSILE. (SEE APPENDIX A) 5.10 Mix, recirculate prior to cement addition. and sample waste as follows to ensure proper #1 5.10.1 Connect the dewnter punp discharge hose to the waste line hydro fitting.

( 5.10.2 Start and mix the dewater pinp and mixer motor to recirculate waste and liquid caustic for 15 minutes.

DOCUMENT REV. SHEET t SD-OP-039 D 14 J

N c ' E[3 .'d " _ _ _ _ _ _ _ _ _ . . ._

'Y" '

V 1

3 5.10.3 Sample and measure pH to verify correlation of pH with conditioner added. Add amount of conditioner required C to raise pH between 10.8 and 11.5 anc repeat Steps 5.11.2 and 5.11.3.

5.11 If the chemical conditioning ptrnp is used, flush as' follows:

5.11.1 I- Place chemical conditioning pump pick-up!t ube in a con-tainer filled with water.

i 5.11. '.

Start the pump and run a minirmrn of 3 gallons of wnter through the conditioning chemical transfer hose.

5.11.3 Remove chemical conditioner pump from water container and continue to pump for an additional 2 minutes to clear the pump and hose of water.

5.11.4 Stop the chemical conditioner pump.

5.12 If solidification proceed of boric acid waste is being acccxnplished ,

to Step 5.16.

proceed to Step 5.14. When solidifying any other waste stream, 5.12.1 A periodic 30-second flush of the fillhead skirt should he conducted throughout the addition of lime and/or cement, irregardless of which order they are added. This flush should be done to minimize lime and/or cement, and

( contamination build-up on the skirt.

accordance with ALARA Policies.

The flush is in 5.13 If lime is required by Reference 2.13, reset level Number 1 at the height specified by the ICP, Reference 2.13, Mixer speed must be reduced to minimtm tofor lime level.

monitor level accurately.

5.13.1 Energize the aeration blower or shakers as regttired and turn on vent system.

NorE: TURN TV CAhERA, TV MONITOR AND F/H LIGHT OFF UNTIL COMRETION OF CEMENT AND LIME TRANSFER. THE TV CAN BE USED DURING TRANSFER, IF 1RANSFER IS SECURED FOR APPROXIMATELY 3 MINUTES TO AILOW DUST 70 GEAR. AIR AND WATER WASH CAN BE USED TO REAN LENS, BUT IS Nor ALWAYS NECESSARY.

5.13.2 Energize the transfer system blower. Pressure should ha 5-9 psi, depending on hose length.

5.13.3 Energize the cyclone isolation valve (FV-5) switch. Note cyclone isolation valve indication is open.

5.13.4 Energize the cyclone airlock.

L DOCUMENT REV. SHEET SC-CP4)s; D

( _

15

., y n.. . y ..e:<. . J

a r ,I NOTE: 3 HIGl PRESSURE ALARM SET AT 15 PSI INDICATES A POSSI BLE COG IN THE TRANSFER LINE OR A 10GGED FILLHEAD PRODUCTS IEET LINE OR AN OVER FED CYaONE.

( 5.13.5 Energize the lime feeder valve #1 (FV-3) or #2 (FV-3).

5.13.6 When the required amount of lime has been added by load cell indication, stop the lime feeder valve (FV-2) or (FV-3). Af ter approximatelv 5 minutes, stop the cyclone

[ airlock, shut the cyclone isolation valve (FV-5) and se-cure the transfer system blower.

L NorE: LIME ADDITION WILL CAUSE THE WASTE I EVEL ALARM '

ACTUATE ON THE MAIN CONTRA PANEL. LIME LEVEL IS A BACK-UP INDICATION AND THE TEDINICIAN SHOULD ATTDIPr

'IO VERIFY THE AMOUNT OF LIME ADDED BY MORE '1HAN ON INDICATION, I.E; TV CAMERA, LEVEL INDICATION, LOAD CELL WEIGHTS, KNOWN LIME FEED RATE.

MIXER SPEED MUST BE REDUCED 'IO MINIMInf 'IO MmI'IOR LEVEL AOCURATELY.

5.14 If lime was added, continue mixing for a minimtm of 15 minutes prior to cement addition. Monitor temperature rise during the mixing period as an indication that the lime has effectively neutralized acid components in the waste.

5.15 If solidification of other than horic acid waste is being accom-plished, proceed to Step 5.16.

proceed to Step 5.15.1. If solidifying boric acia waste, '

f 5.15.1 Detemine and add the amount of N-24 required by Reference

( 2.13. Do not change the density compensator specific gravity setting for the N-24 sequence solidification.

5.15.2 Disconnect the transfer system hose at the most conven-ient connection, downstream of the combined discharge di-verter valve (DV-2), but upstream of the cyclone (a-1).

5.15.3 Connect the N-24 aridition system discharge hose to the transfer system lose attached to the cyclone.

5.15.4 Open the cyclone isolation valve (FV-5).

5.15.5 Energize the cyclone airlock.

'5.15.6 Start the N-24 addition, by starting the transfer blower.

5.15.7 When the require <l amount of N-24 has been added, secure the N-24 addition system, secure the cyclone airlock, shut the

  • cyclone isolation valve (FV-5), and stop the transfer blower.

5.15.8 Reconnect the transfer system hoses in preptrat. ton for Cement addition.

5.16 Add the amount of cement required by Reference 2.13 as follows:

L DOCUMENT REV. SHEET SD-OP-039 D 16 L

3,..9... e.4 J

... M A . * , .- CNSO 1002/5 78

F 5.16.1 Enu gize the transfer system blower. '

5.16.2 Open the cyclone isolation valve (FV-5).

5.16.3 Ene.gize the cyclone airlock.

5.16.4 Energize the aeration blover or shakers as required.

5.16.5 Energize the cement feeder (FV-1). Ensure the diverter valves (DV-1 and DV-2) are in the cement position.

5.16.6 When the required amount of cement has been added as deter-mined by load cell indication, level indicator, or visual determination, stop the cement feeder and the aeration blower (if applicable).

5.16.7 Af ter appoximately 5 minutes, stop the cyclone airlock, shut the cyclone isolation valve (FV-5), and secure the transfer system blower.

5.16.8 If solidification of boric acid is being accomplished, com-plete lime addition at this time in accordance with Step 5.14.

NOTE: EfE CDENT LEVEL INDICATION IS A BACK-UP AND DIE TECHNICIAN SilOULD ATTDfPT 'IO VERIFY DIE AMOUNT OF CDENT ADDED BY MORE DIAN ONE INDICATION, I.E; TV CAMERA, LEVEL INDICATION IDAD CELL WEIGITS, AND KNOWN CNENT FEED RATE. MIFER SPEED MUST BE RE-DUCED '10 MINLMUM 'IO MONI'IOR LEVEL ACCURATELY.

( 5.17 Continue has to mix for at least 20 minutes af ter all cement and/or lime been added. If parameters (i.e; hydraulic pressure increases or mixer speed decreases) indicate solidification is being achieved, slow mixer speed to #1 on speed control or secure mixer motor as parameters dictate.

5.17.1 With no change observed in operating parameters, continue to Step 5.18.

NOTE: WHEN ALL CWENT AND LIME HAS BEEN ADDED, DIE TV CAMERA, MONI-

'IOR, AND FunmAn LIGiT CAN BE TURNED ON 'IO VIEW' DE FINISIED PRODUCT.

AT THIS TIME MIXER SPEED MAY BE INCREASED IF IT IS DEDIED NECESSARY 'IO ENSURE PROPER MIX. SIDWFR SPEEDS SHOULD BE USED 'IO MINIMIZE SPLASHINL ON DIE FILUIEAD.

5.18 Shif t SW-1 to camera lens position to washdown camera lens and under-side of fillhead. Washdcwn for 30-60 seconds.

5.19 Flush fillhead by shif ting SW-1 to skirt wash position and shift be-tween left and right spray nozzles. Wash for 30-60 seconds each.

5.20 Decrease mixer speed slowly to #1 on speed control and mix for 5 additional minutes, if applicable.

6.21 Stop the mixer.

5.22 Secure the fillhead vent system, Venturi pump, cement inlet and vent line heaters.

DOCUMENT REV. SHEET SD-OP-039 C 17 L

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I t 5.23 Secure the sevel indication system and disconnect the air supply from the bubbler panel to the fillhead.

NOTE: PROCESS IS NOW CmRETE. " CURE" TIME TO A WATER-FREE, HARD Mm1ITH SH0(LD BE 2410 72 HOURS. PROCEED DIRECILY TO SECTION 6.0.

CAUTION:IATELY. DIERE MAY BE SITUATIONS WHERE THE FILLHEAD CANNOT BE REMOVE SOME OF DIE FULOWING STEPS MAY BE DELAYED FOR SEVERAL DAYS COORDINATE WITH DIE UTILITY FOR APPROPRIATE ACTION. ,

6.0 j- SYSTEM SHUTDOWN CAUTION: i HOSES AND ODIER PRESSURE RETAINING 00fPONENTS MAY BE JRESSURIZrD DISASSEMILY.

FACE SHIELDS AND APPROPRIATE PROTECTIVE GOTIIING SHAll BE WmN DURING DISASSEMILY OF THIS EQUIW5Nr.

6.1 Perfonn shutdown portion of Valve Line-Up, Fom, B, and doctnent con-pletion in the Daily Operations Log.

6. 2 Shut off main air and the baghouse purge. 'Ibrn off TV, TV nonitor level indication panel, hyraulic power supply, fillhead light, vent system, vent line heaters, and control panel.
6. 3 If fillhead is to be removed from the liner prior to the billet going hard, release skirt from liner, cask, or shield and lift fillhead and skirt several inches off barrel-top opening of liner.

NOTE: FTIMAD SKIRT SHOLLD BE CONNECTED TO CRANE PRIOR TO RELEASING SKIRT

( 6.4 Dewater automatically.

leg, level tube, and thermocouple should disconnect 6.5 Install pIntective bag around bottom of fillhead/ skirt.

6.6 Place fillhead/ skirt assembly on the storage stand or on the next liner to be solidified.

6.7 Install ventilation lid on the disposable liner (if required) connec-ting the thennoccuple lead. (bnnect off-gas hose to the ventilation' lid and to the plant's off-gas system, if applicable.

6. 8 Cbnnect the temperature recorder to the ventilation lid (if used).

After the waste billet has cooled, de-energize recorder, remove venti-lation lid ~(if used) and seal with liner lid.

CAUTION: DfE S1IDIFIED MATRIX MUST BE LESS DIAN 1750 F AND BE STEAD!LY DE-CREASING IN TEMPERATURE PRIOR TO SEALING. ADD A SMAIL AhKXJNT OF DRY CEMENT TO S1IDIFY AFO LIQUID ON THE BILLET SURFACE TEAT HAS NOT AB-

. SORBED WITH TIE DEmEASING TEMPERATURE. THE LINER SilAIL NOT BE SEALED SOONER THAN .30 HOURS AFTER COMEETION OF MIXING.

6. 9 Initiate and complete administrative requirements of Section 8.0 of this procedure for shipnent of radioactive waste.

6.10 Proceed as indicated below; b 6.10.1 If another solidification operation will take place imed-intelv (same day), return to Section 4.3.

DOCUMENT R E V. SHEET SD-OP-039 D 18 L

. .a, ..r.

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CNSQ 100EB 78

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3 6.10.2 If another solidification will be conducted, but not on the same day, proceed as follows:

( '6.10.2.1 Turn off remote radiation monitor.

6.10.2.2 Shut off plant service water and service air valves.

E 6.10.2.3 Turn off power panel.

G.10.2.4 To restme operation, the technician should return to Section 4.0. "

7. 0 ACCEPTANCE CRITERIA 7.1 Radioactive waste solidified in a full-scale liner shall be con-sidered acceptable if the following conditions are met:

7.1.1 Visual inspecticq of the end product, nomally 24-72 hours after process completion, shows a unifom product with no free-standing water.

7.1.2 The end product, af ter satisfactory visual inspection, resists penetration when probed with an approximately 1" diameter wooden dowel.

8. 0 REOJRDS AND REPORTS 8.1 Process Memo The Process abmo shall accompany shipnent with appropriate copies mailed to the attnager, Solidification Services and the Billing i Dep1rtment.
8. 2 Contamination And Radiation Surveys A copy of the shipnent survev shall accompany the shirrtent. This -

survey on eachmay linerbetoperformed be shipped. by the utility or its designated shipper,

8. 3 Radioactive Shipment Record (RSR)

The RSR shall be filled out by the utility in accordance with the instructions contained on the reverse side of the form.

8. 4 Solidificat_ ion Records
  • The Worksheets.

technician shall maintain a copy of the CNS! Solidification A copy of the CNS! Solidification Worksheets and the temperature recording of each solidification shall be mailed to the Manager, Solidification Services upon ccmpletion of the solidification.

DOCUMENT REV. SHEET SD-OP-039 L D 19

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FORM A Prt@ perational Checklist

( RSU/PSU Date Technician _

Location 1 1.

Portland Gment Inventory

  • Tons 2
  • ( Liquid Conditioning Gemical Inventory (if applicable) bal ._ Lbs.

Verify liquid condition readyconditioning for use. chenical is in a sealed drtm and in a liquid

3. Initial Installed radiation monitor operational.

checking meter against a known source. This may be accomplishai by NUTE: NO CALIBRATION.

SAT UNSAT 4.

liose Inspection &mpleted SAT UNSAT 5.

Controlled Area Established SAT UNSAT 6.

(. 7.

Proper liner (s) on hand and inspected.

Initial Gnnect the air line(IftoApplicable) fillhead. chemical conditioning punp and ptrnp discharge hose to Initial 8.

Install ischenical barrel vented.conditioning ptmp in barrel (if applicable). Ensure Initial 9.

Pre-load liner to be used with CNSI supplied additives, if necessary .

Initial 10.

Blowdown plant air systen to renove any accumulated water.

Initial 11.

, Inventory Of Lime Hydrate (Ot(OH)2) 12.

_Lbs.

Gunicals required by Reference 2.13 Lbs.

DOCUMENT REV. SHEET SD-OP-039 L A 20 ep.p.n:m.v .< , .

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FORM B Valve Line-Up Sheet j

( _ Valve # Description Start-Up Position Shutriown Position TA-1 Cement Aeration Open Shut T-1 Cement Isolation Open Shut:

Ef-1 Ccrient Feeder Valve Off (Green) Off (Green) i DV-1 & 2 Diverter Valves Lime (Green) LiNe (Green)

TA-2 Lime Aeration Bin #2 Open (Note 1 & 5) Shut 1

TA-3 Lime Aeration Bin #2 Open (Note 1 & 5) Shut T-2 Lime Isolation Bin #1 Open (Note 1 & 5) Shut T-3 Lime Isolation Bin #2 Open (Note 1 & 5) Shut FV-2 Lime Feeder Valve #1 Off (Green) Off (Green)

FV-3 Lime Feeder Valve #2 Off (Green) Off (Green)

FV-4 Cyclone Airlock Off (Green) Off (Green)

FV-5 Cyclone Isolation Shut (Green) Shut (Green)

WS-2 Fillhead Isolation Open Shut DW-3 Fillhead Dewater Isolation Open (Note 2) Shut CPS-1 Gemical Isolation Open (Note 3) Shut CAW-1 Camera Air / Water Otmera Lens Olmera Lens WS-1 Waste Isolation Shut (Green) Shut (Green)

WS-3 & 4 Waste Hydzo Isolation Valves Shut Shut Df-1 Dewater Suction Open (Note 2)

Shut DW-2 Dewater Discturge Open (Note 2) Shut DV-5 & 6 Dewater Sample Shut Shut NOTE 1:

NOTE 2: WLY VALVES ASSOCIATED WITl! BIN 10 BE USED SHOLLD BE OPEN.

DEWATER VALVES OPEN O.'LY WHEN DEWATDI SYSTUt IS ID BE UTILIZED.

NorE 3: CPS-1 OPEN (ALY IF LIQUID CAUSTIC IS USED.

NOTE 4:

ENSURE TriAT ThE ILAfir SERVICE WATER AND SIIlVICE AIR ISRATION VALVES NurE 5: ARE SilUr WHEN UNIT IS NOT IN OPDIATION.

AIR HWE SHOILD BE CONNETITED TO THE SHAKERS FQ1 THE LIME ilOPPD1 AND THE CBIENT HOPPSI IN SERVICE.

L DOCUMENT REV. SHEET q SD-OP-039 D 21 j

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i APPENDIX A

=.

MATERIAL SAFETY DATA SHEET E Me kb d 9 CALCIUM HYDROXIDE CORPORATE RESEARCH & DEVELOPMENT 5; $

w

. SCHENECTADY, N. Y. 12305 b

  • Phone: (518 [ 385-4085 DIAL COMM 8*235-4085 AM

~

Date october 29. s SECTION 1. MATERIAL IDENTIFICATION 16TERIAL NAME: CALCIt'M HYDROXIDE *

]THER DESIGNATIONS:

Hydrated Lime, High Calcium Hydrated Lime, Caustic , Lime. Calcium Hydrate, Slaked Lime, Ca(OH)2, ACTM C259, C53, etc. CE Material D4B3, CASII 001305 620 MANUFACTURER:

K2terial available from many sources, including: '

Harshaw Chemical Company Warner Co., Ind. Mineral Divi i n 1945 E 97th Street Telephone Cleveland, OH 44106 PO Box 448 keScPhone_

(216) 721-8300 Bellefonte. PA 16823 (717) 355-4761 SECTION II. INGREDIENTS AND HAZARDS  % HAZARD DATA Typical Comeosition:*

Calcium hydroxide, Ca (OH)2 >90 8-hr TWA 5 mg/m3**

Calcium carbonate, CACO 3 . <4 M2gnesium oxide, Mg0 .

<3 Other oxides (A10 23 , Fe2O 3, SiO2 , etc.) <3

  • Commercial material prepared by hydration of lime, P a Rat, oral LD50 7340 mg/kg
    • The current level recommended by ACGIH (1978) . -

3 SECTION III. PHYSICAL DATA Decomposition point, deg C -- --- 580 Specific gravity (H 0=1) fater solubility, g '100 sat. solution: 2 -----

2.3-2.4 pH of saturated solution at 25 C -

12.5 at 0 C ---- - --

0.185 Molecular weight Ca(OH)2 - - - - -

74.1 at 25 C - - - - - - =

0.159 at 100 C --

C.071 Appearance & Odor: Crystals or sof t, white powder or granules. Odorles s.

SECTION IV. FIRE AND EXPLOSION DATA LOWERI UPPER Flasn Point and Metr.co Autoinnition Temp. Flammability Limits in A.r Cxtinguishing Media: This material is nonflammable. Use extinguishing media which is appropriate for the surrounding fire. ,

4 hen heated above 580 C, material can decompose to produce Ca0. When this material is involved in a fire situation, firefighters should wear full protective clothing, and use eye protcetion and self-contained breathing apparatus.

SECTION V. REACTIVITY DATA This is a stable solid in a scaled container at room temperature. When exposed to the air it will absorb carbon dioxide and form calcium carbonate. When heated at t empe ra tu res above 580 C, it loses water to fom calcium oxide or line.

Calcium hydroxide is a strongly alkaline r.2terial which is incompatible with acidic ma-terials.

It forms salts with nitroparaf fins in the presence of water which are explo-sive when dried. It can cause the explosive decomposition of calcic anhydride. BoilinE elemental phosphorus in a calcium hydroxide solution can liberate spontaneously flam-ruble phosphines.

GENER AL h ELECTRICe.,,,, ,,; _ , m . ,c. ..c c., ,..,

SD-OP-039 Rev. -

Sheet 22 y ,-. >.~ . -:. (gw. - . . --

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No. 39 SECTION VI. HEALTH HA?ARD INFORMATION Tt.v 5 me/m3 I.1.)

This alkaline material in the presence of noisture, is irritating and can be damagitig to E  !

human tissue. Excessive skin contact will irritate the skin and produce derrutitis.

Eye in dust contact gives a burning sensation with irritation and possible injury. Inhalation form is irritating and can be damaging to the mucous membrancs of

  • the upper regpiratory tract. Do not ingest.

FIRST AID:

  • Eye contact:

Pro =ptly flush with plenty of running water, including under eyelids, for at least 15 minutes; then, get prompt medical attention. .

Skin contact: Wash exposed skin with plenty of water. Recove contaminated clothing '

promptly. Cet medical help if exposed area is large or if irritation persists.

Inhalation: Remove to fresh air. Contact physician 1:=udi.aul . i Ingestion:

Dilute by giving 2 glasses of water er milk to drink, followed by fruit juir.e or diluted vinegar to neutralize the alkali; then, consult physician.

SECTION VII. SPILL, LEAK, AND DISPOSAL PROCEDURES Those involved in clean up of spills should use protective equip =ent (See Sect. VIII) .

Pick up spilled powder avoiding dustine conditions and place in a clean steel container for disposal. Safety personnel should be involved when large spills occur. Traces of residue can be flushed to the sewer, but neutralization before flushing may be required DISPOSAL: Follow Federal, State and local regulations for disposai. r Consider the fol-lowing methods of disposing of scrap material: Use to neutralize waste acid or spread on surface of ground in an isolated, protected area to react with CO 2 from t 2 air to form CACO 3 (limestone); or disperse in water, neutralize with hydrochloric acid cipitateliter.

MaC1/ wittr soda ash, and flush to sewer with much water to keep below 250 mg, pre-SECTION VIII. SPECIAL PROTECTION INFORMATION .,

Provide general ventilation and local exhaust ventilation for dust control (or crist con..

trol if used as a water dispersior) to meet TLV requirements. Provide approved dust or mist respirators or self-contained respirators for non-routine or emergency '-

use above the TLV.

Wear rubber gloves, protective clothing, apron, safety glasses or goggles, face shic.ld.

etc. to prevent skin or eye contact with this material as required for the conditions under winich it is used. An eyewash station and safety shower nust be readily avail-able where this material, or its water dispersions,, are used. '

SECTION IX. SPECIAL~ PRECAUTIONS AND COMMENTS -'

Store in cool, dry area in tightly closed container. Protect container from physical damage. Keep away from acidic materials and other incompatibles (See Sect. V) .

Prevent contact with the body or inhalation of dust or mist. Use due caution in mixing with water and handling the alkaline water dispersions of this material (milk of line) .

Fo(low good personal hygiene practices.

I NATA Sot:RCE(S) CODE: 1.2.4-9.14.'20 APPROVALS: hh' [lg[ __

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_ MATERIAL SAFETY DATA SHEET gg, ;> e ";

'.]: mf 9 SODIbH HYDROXIDE CORPOR ATE RESEARCH & DEVELOP /AENT gm .@

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    • "I"' " ^

SCHENECTADY, N. Y. 9 INFORMATICN Date September 1977 SECTION I. MATERIAL IDENTIFICATION

~ '

MATERIAL NAME: SODIbH HYDROXIDE drHER DESIGNATIONS: Caustic Soda, Soda Lye, NaOH, CE listerial D4B4, ASTit D456, DESCRIPTION: This material is an anhydrous solid (flake, pellet, etc.) CASP 001 310 732 MANUFACTURER: Available from many suppliers. ,

SECTION II. INGREDIENTS AND HAZARDS  !. HAZAPO DATA Typical content: Ceiling Limit Sodium Hydroxide (NaOH) 96 2 mg/m3 Impurities:

Sodium Carbonate (Na2Cu3) 0.5-2.5 Sodium Chloride (Nacl) 0.01-2.1 .

Sodium Sulfate (Na2SO4) 0.02-0.1 -

Potassium, Calcium and Magnesium 0.1 Silicon Dioxide (SiO2) 0.03 .,

Other metals (total)  ; i e o,01 -

i a e .

n:, SECTION 111. PHYSICAL DATA Boiling point, 1 atm, deg C - 1388 Vapor pressure, mm Hg G 1000 C 42 i

Specific gravity (20/4 C) --- 2.13 0 1200 C 232 volatiles non-volatile Viscosity at 350 C, cps 4.0 l

at room Water solubility, 2, 0 0C 29.6 temperature . 0100 C --- 7 7. 5 Melting point, deg C -

318 -

Appearance & odor: White or off-white, hygroscopic solid; no odor.

SECTION IV. FIRE AND EXPLOSION DATA LOWER UoPER plash Point and ethoo Autoignition Temp. Flammability Limits In Air None - not combustible N/A ,

N/A N/A N/A

.lthough it is not combustible, it can be hazardous if present in a fire area. The following should be known for fire fighting: (1) It can melt and flow when heated (m.p. 318 C). (2) Hot or molten material can react violently with water (splattering).

(3) Can react with certain metals, such'as aluminum, to generate fla=mable hydrogen gas.

(See also Reactivity Data,Section V)

SECTION V. REACTIVITY DATA ~

It is a stable material under normal conditions of storage. No self-polymerization. No

  • hazardous decomposition products. Slowly it can pick up moisture from the air and react with carbon dioxide from the air to form sodium carbonate.

Sodium hydroxide can react violently with strong acids ar.d with many organic chemicals, expecially with nitrocarbons and chlorocarbons. (Will react with trichloroethylene to form spontaneously flammable dichloroacetylene.) It generates much heat when it dis-

%, solves in water, f Avoid. contact with leather and wool and with aluminum, tin, zinc, and alloys which contair L! these metals, k

GENER AL $ ELECTRIC c , % _ m ,,,,,_ ,u , ,,,,,

SD-OP-039 Rev. -

Sheet 24

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t t No . _ 3 SECTlott VI. HEALTH HAZARD INFORMATI0tl TLV (Ceiling Value) 2 mg/m3 h

Sodium hydroxide is a strong alkali and is dangerous when improperly handled. It can be

(, destructive to all human tissue it contacts, producing severe burns. @~q duce tory tract. severe or permanent injury. Dust

- or mist inhalation can injure the entire respira-Eye contset can pr FIRST AID Eye utes,contact - Wash including eyesthe under immediately eyelids and with allplenty of running water for no less than 15 min-surfaces.

water y af ter contact is extremely important if permanentSpeed in rinsing out tiie eyes with injury is to be avoided, Contact physician as soon as possible. .

Ingest' ion - Immediately dilute chemical by drinking large amounts of water. or milk, then neutralize not induce with dilute vinegar it. Contact a physician or fruit juice. Vomiting may occur spontaneously, but do promptly. -

Inhalation - Remove from exposure to mist or dust and get prompt medical help. ~i Skin contact - Wash contact area promptly with large quantities of water. (Dilute acetic 1

acid, shower. vinegar, Prolongcan be used to neutralize.) Removu contaminated clothing under the washing in serious cases until medical help arrives - even for an ho,ur,. t. o,.r longer. Physician should see all cases other than minor exposures to small areas SECTION Vll. SPILL, LEAK, AND DISPOSAL PROCEDURES E n solic socium hyoroxice is spilleo in a cry conattlon, it can ce promptly snovelec up for recovery or disposal. (CAUTION! Avoid dusting. Avoid contact with the skin.) Control the disposal of the waste solid. (Delay in clean up may allow absor -

from the atmosphere and may increase the dif ficulties of clean up.)ption Flushof moisture contaminated surfaces final traces. with water and neutralize with dilute acid, preferably acetic acid, to remove rinse with water. (Sodium bicarbonate may also be used to partially neutralize.) Finally, Disposal of waste is greatly deperident, on local conditions and requirements. Pre-emergency plans should be made to meet legal and technical teq4irements. Waste caustic should nevc be deliberately discharged directly into sewers or surface waters. (First, convert to :-

neutral salts and dilute well with water.)

SECTI0tt VIII. SPECIAL PROTECTION INFORMATION -

!.x Provide adequate ventilation to meet TLV requirements, especially where dusting or misting '4-(- conditions needed.

can exist. Use filter-type respirator for mist and dust protection where Use chemical safety goggles! A plastic face shield can also be used.

Use rubber gloves, rubber apron or protective clothing, rubber boots where needed to pre-vent contact with sodium hydroxide, especially when solutions are prepared.

Eye wash fountains and safety showers must be immediately available!

t SECTION IX. SPECIAL PRECAUTIONS AND COMMENTS i

Morkers should not be permitted to handle this material witnout proper training or to wort with it without protective equipment.

Store leaks, in well-sealed or to formation containers.

of mist Avoidor dust.handling conditions that may lead to spills and Wherever this material is stored, unloaded, handled or used abundant water (preferably-running water) should be available for emetgency use.

Drains for storage or use areas for this material should have retention basins for pH ad-just$ent and dilution of spills and flushings before discharge.

This material is classified as a CORROSIVE by the Department of Transoortation.

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' Date October 1977 SECTION 1. MATERIAL IDENTIFICATION 3 MATERIAL NAME: SODIUM HYDROXIDE, 50% LIQUID I DESCRIPTION: A 50% solution of sodium hydroxide in water _

OTHER DESCRIPTIONS: Liquid Caustic Sods, Lye Solution, CE Material D4E4A3 MANUFACTURE: Available from many cources ,

SECTION II. INGREDIENTS AND HAZARDS

  • HAZARD DATA Sodium Hydroxide (NaOH)

Typical Major Imourities:

>48.5 TLV 2 mg/m 3 (C)"

Carbonate (as Na2CO3 ) <0.25 -

Chloride (as NaC1) <1.15 Chorste (as NaC103 ) <0.25 Sulfate (as Na2SO4 )

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g g <0.03 '

Silica (as SiO2) 0 k

<0.01 Water Balance

  • ACGIH recomends no exoosure above this ceiling level .

Q - (C). OSHA has the same TLV but no ceiling level at this time.

72 SECTION III. PHYSICAL DATA Initial boiling pt,1 atm, deg C -- ca 140 Water solubility -----Camplete Vapor pressure (water), mHg: Spec. grav., 15.6/15.6 C a t 60 C ----- 1.53 ca 13 Viscosity at 20 C, cps --

50 at 82 C - --- ca 60 Appearance & Odor: A clear liquid, no odor SECTION IV. FIRE AND EXPLOSION DATA tlasn t'otnt and Method lower upper Auto gniti_on Temp. Fla:nmantlity Limits In Air None - not combustible Use water spray to cool containers of this material which are involved in a fire situation to help prevent rupture.

Sodium hydroxide will react with metals such as aluminum, tin, and zine to generate flammable and explosive hydrogen gas.

SECTION V. REACTIVITY DATA

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This material is stable under normal storage conditiois in a sealed container. No polymerization will occur; there are not hazardous decomposition products.

It will react with CO2 in the air (when exposed) to form sodium carbonate.

It will react violently with acids and with many organic chemicals, especially nitrocarbons, and halocarbons. (Trichloroethylene will react to form spontaneous: y flac.nable dichloroacetylene).

Avoid contain these metals.

contact with leather and wool and with aluminum, tin, zinc, and alloys which GENER ALW D ELECTRIC crae.o_ime,o wo =c ,

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HEALTH HAZARD INFORMATION n.v2 mg/m3 (ceiling for' NaOH)

When improperly handled this strong alkali is dangerous human tissue it contacts, giving severe burns. It iswilldestructive produce of all or permanent inj ury. Eye contact tract. Inhalation of mist or spray can i,njure the entire r. severe espirato y FIRST AID:

Eye contact:

i including under eyelids and all surfaces. Wash eyes immediately with plenty of runnin . -

if p.trmanent injury is to be avoided. Speed in rinsing out eyes is important

_ Skin contact: Cet medical help icmediately.

or vine Promptly wash exposed area with lots of water, (Dilute acetic acid

_ shower. gar can be used to neutralize.)

Prolong washing in serious cases until doctor arrives - even f or anRemove hour or longer.. Get medical help for serious exposure.

_Innestion:

sNt$nN!!!EN. EubN nb$Uiduch Tnh$ litten! Pamove frnm e e neure to mist ac StImmediately dilute by drinking YS an promptly. Vomiting may occur h water or m SECTION VII. and ret eronne medical heln.

SPILL, LEAK, AND DISPOSAL PROCEDURES .

Planning ahead essential for handling spills.

use protettive clothing and equipment Personnel working on clean up must Pick up spill with vacuum equipmentAbundant running water should be available for e . '

holding area with water. (alkali resistant) for disposal or flush to

_ State Disposal - Dispose and Federal regulations.of scrap in accordance with pre-emergency planning and .

to sewers or surface waters. Waste caustic must nevet be discharged directly water.

Inform legal authorities of uncontrolled spills.First c onvert to neutral salts and dil '

( SECTION VI!!.

SPECIALPROTECTIbH INFORMATION '

N Provide adequate general ventilation and exhaust ventilation to meet TLV r equire-ments, especially mist respirators. where possibility of mist fomation exists.

Consider also of Use chemical safety if splashing goggles for eye protection, and, in addition ,

is probable. use a face shield Use rubber gloves, apron or protec*.ive clothing. and rubber bootsovered (copsbyc apron or clothing to prevent entrance of caustic)" .

  • Eye wash stations and saf etv showers _nust be immediately available!

SECTION IX.

SPECIAL PRECAUTIONS AND COMMENTS -*

Do not permit proper equipment. workers to handle this material without proper training or out with Store in well-sealed containers, which a a protected from physical e. Avoid damag handling conditions which can lead to spills or mist formation.

llave abundant running water availabic where stored, unloaded or handled . Drains must have retention basins for pH adjustment and neutralization of spilled ma terials and flushings before discharge. -

DOT classification

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