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Sung, Ki-Bang Reduction Method of Spent Resin Generated from

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1 Sung, Ki-Bang Reduction Method of Spent Resin Generated from
SG BD  Ion Exchangers of PWR NPPS SEP. 12, 2007 Sung, Ki-Bang

2 Contents 1. Introduction
2. Review of the early SGBD IX Replace Criteria 3. Experiment of IX Resin Capacity 4. Review of Experimental Results 5. Conclusions

3 KHNP’s R&D Institute (1)

4 KHNP’s R&D Institute (2)

5 KHNP’s R&D Institute (3)

6 1. Introduction (1) ○ Background
In Project of Kori #3,4 NPP PSR, Main system of LLW Resin : SG BD Demineralizer Cause : Secondary Side water pH control agent : NH3 ⇒ ETA-AVT The SGBD cation loads was increased about 2~3 times Spent Resin Radwaste : Large volume and no Industrial waste… Not easy to treat the ash, though spent resin is almost disposal object itself PSR Team treated as safety issue item PSR Team(NETEC) and Kori 2 Chemistry Section agreed to the problems and solved the sophisticated problems

7 Block the leaked Activities Recovery BD Bleed water
1. Introduction (2) SG BD system’ functions Block the leaked Activities Recovery Heat Capacity : 5000ℓ×2ea Design flow : 45ℓ/sec Normal flow : 45ℓ/sec Recovery BD Bleed water

8 1. Introduction (3) 15.4ton/Yr (65%) Spent IX Resin Source SG BD Demin
SFP IX 2.0ton (9.4%) CVCS IX 3.3ton (18.9%) 15.4ton/Yr (65%) SG BD Demin LRW System IX 1.7ton (7.1%) 22.4 ton/Yr 2.12 t 3.71 t 7.95 t

9 1. Introduction (4) Ion Exchange Resin ? Model of Ix Resin
Bead of amorphous and sphere type high polymers 100billions IX sites / bead IX Mechanism

10 2. Review of the early SGBD IX Replace Criteria (1)
In Domestic Plants,  IX Resin Replacement Procedures of SGBD IX - No standard Criteria of SGBD IX - Na was a typical ion to determine the IX removal capacity in many plants. - However, Na was not a typical ion to determine IX removal capacity other plants ( See the next page table ) In USA NPPs, (from EPRI report)  IX Resin Replacing Procedures of SGBD IX - 22 of 73 PWR plant didn’t consider the Na ion as IX replacement Criteria

11 2. Review of the early SGBD IX Replace Criteria (2)
Table : IX Exchanger Replacement Criteria of Domestic Plants Criteria Plnat IX Replacing Criteria note Operation Demin. After Demin. A Plant Na+ ≥ 5ppb C.C ≥0.5 μS/㎝ Na, Cl-, SO4-2 ≥ 2 ppb B Plant Na+. DF ≤1 Na+. Cl-, C.C  DF ≤1 DF = Inlet Conc.       Outlet Conc. C Plant SO4-2 DF ≤1 D Plant C.C increase or Na+≥2ppb C.C≥0.2 μS/㎝ Na+, Cl-, SO4-2 ≥ 2ppb E Plant C.C≥0.5μS/㎝  Na+, Cl-, SO4-2 ≥ 2 ppb NA 1 Operation, 1 Stand-by F Plant C.C≥0.1μS/㎝ G Plant Na+≥3 ppb Cl-, SO4-2≥5ppb

12 3. Experiment of IX Resin Capacity (1)
Scheme and Shots

13 3. Experiment of IX Resin Capacity (2)
Ion selectivity experiment with H-type IX resin ETA NH4 Na Cs Volume Flow

14 3. Experiment of IX Resin Capacity (3)
ETA, NH4, Na Ion selectivity experiment with Cs-type IX resin ETA Na NH4 Cs

15 Same characteristics of new IX Resin
4. Review of Experimental Results (1) NH4 Na ETA Cs Saturated IX Resin Same characteristics of new IX Resin ETA NH4 Na Cs

16 4. Review of Experimental Results (2)
Ion Absorbing Capacity on Resin Experiment : 1/80000 of 2.5 ㎥ which was equal to 30㎖ of resin capacity and experiment was achieved for resin which is 30 times of addicted chemical material   Experimental result (ion selectivity on resin) : H+  <  NH4 + ≤  ETA+ <  Na+  < Cs+   Ion molecular weight ion concentration system concentration (ppm) ratio with system ion (ppm)     (meq/l) ETA+ 61.08 122.16 2 3.5 35 NH3+ 17 34 0.2 170 Na+ 23 46 0.001 46000 Cs+ 133 266 total 101.08 202.16 8 3.701

17 4. Review of Experimental Results (3)
Ion Breakthrough Curve Characteristics   ETA       0.5 [Output conc./Input conc.] Breakthrough time(T) ->      (ETA+NH3) : Na : Cs = 2T : 3T : 4T     This phenomenon came from ETA/NH3, Na and Cs ‘s different selectiveness.   NH3         NH3 was eluted after ETA and exchange reaction was faster than ETA.    ※ NH3 was produced from ETA or N2H4 which removes Oxygen.   Na      Na’s sensitivity was stronger than NH3 or ETA. So, Na was eluted after NH3 or ETA.   High Peak position of Na Conc. was overrode on Cs’s conc. 1.0 meq/ℓ(half input Conc.) ⇒  Cs extrude Na   Cs      Cs has S-shape breakthrough characteristics like single ion and it was absorbed on IX resin. Cs was not affected by other ions, and Its behavior look like single ion solution.

18 4. Review of Experimental Results (4)
The resin replacement criteria of cation resin   - ETA was not impurity in system, and should not be removed at deminerlizer (On the contrary it should be circulated)   - The small Na leakage from new resins was not controlled and excluded at demineralizer exchange criteria.   - Even impurities by outside influx was suddenly increased, the impurities concentration should be decreased in proportion to circulating volume as time passes. Impurities, concentration should be decreased.     Table. The SG blowdown water quality of PWR Operation Operation mode Na criteria (ppb) Cl criteria Startup operation reload→ cold standby (mode 6-5) ≤ 100 hot shutdown (mode 4) hot standby (mode 3) startup operation (mode 2) Reactor power reactor power (5~30%) reactor power ( 30%) ≤ 20

19 4. Review of Experimental Results (5)
The resin replacement criteria of IX resin Na concentration should be less than 100ppb at maximum or stop operation. If the limited concentration at the second step is less than Na 100ppb, the concentration at Na DF 10 should be 10ppb. DF 10 of Na Spec value (20ppb) is 2ppb, and Max conc. of Na is 3ppb at operation over 30% generation. Therefore sum of them is less than 5ppb.    The water quality level is less than Na concentration(5ppb). Therefore, improvement of cation resin change criteria is that the Na outlet conc. is reasonable to be selected less than 5ppb. Cl , SO4-2 and Conductivity would be derived from system parameters as below. ◆ The resin exchange criteria of SG blowdown demineralizer -  exchange criteria of mixed bed : [Na, Cl ≥ 5 ppb ]  -  reference exchange criteria : [SO4-2 ≥ 5 ppb,  C.C ≥ 0.3㎲/㎝ ]

20 4. Review of Experimental Results (6)
The SGBD Ion Exchanger’s cation/anion mixing ratio Table : Ion load for water quality of flow water Item Ion Max.conc (ppb) M.W (g./mol) Ion load ( x 10-9 eq/ℓ) Considered ETA, NH4 not considered ETA, NH4 ETA 5,000 61.08 81.86 NA NH4+ 500 17.00 29.41 N2H4 50 32.00 1.56 Na+ 20 23.00 0.87 total 115.05 3.78 Anion Max organic acid x 1 Max organic acid x 5 Cl- 35.50 0.56 SO4-2 96.06 0.42 SiO2- 100 60.08 1.66 Acetic acid 60.05 0.333 1.67 Glycolic acid 76.05 0.263 1.31 Formic acid 46.02 0.435 2.17 3.67 7.80

21 Calculated Resin Volume capacity
4. Review of Experimental Results (7) The SGBD Ion Exchanger’s cation/anion mixing ratio Table.  Calculated Resin Volume with system ion loads Item Resin Ion Load of System (x10-9 eq/ℓ) Removal Capacity of Resin * (eq /ℓ resin) Calculated Resin Volume capacity (x 10-9 ℓ resin) ETA considering ETA not considering Cation 115 3.78 1.8 63.9 6.5 Anion Max organic acid x 1 3.67 1.2 3.1 Max organic acid x 5 7.80 2.1 ◆ SG BD demineralizer’s cation/anion resin mixing ratio   - the ratio of cation and anion resin was 10 : 1 considered ETA load    - the ratio of cation and anion  resin was 1 : 3 excluded ETA load    - The Mixing ratio of Resin (margin : ETA elution effects) 3 : 1

22 5. Conclusions (1) Saturated IX with ETA Capture the Na and Cs ion Satisfaction of PWR FSAR’s Requirements Confirm the cation IX Resin Selectivity in ETA solution Cs+ > Na+ >  ETA+ ≥ NH4+ > H+ Verify the Cs ion Selectivity of H-, ETA-saturated IX No load IX Resin for ETA or NH4 Confirm the Na ion Selectivity in ETA solution Satisfaction of EPRI secondary water Guidelines

23 2 1 3 4 5. Conclusions (2) Technical Effects
Standardization Spent Resin Criteria and Mixing IX Resin 2 Establish Spent Resin change Criteria 1 Technical Effects Obtain ion Selectivity for H-type ion 3 Examined Na’s behavior in system 4

24 5. Conclusions (3) Other Effects Reduce works on Radiation area
Reduce Spent IX resin(370t/yr) Save the Cost(3.3billionWon/total Reduce works on Radiation area Min. Low Level Radioactive Wastes Min. Radiation Exposure Other Effects Water quality treatment tech. Co-works Max. removal Capacity of Resin Solving Problem example with another team

25 Thank you for your attentions !


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