270 likes | 459 Views
The Determination of 226 Ra in Water Samples. Anil H . Thakkar & Michael Fern Eichrom Technologies, Inc. David McCurdy Duke Engineering & Services. Objectives. To design a procedure for radium in water which would: be a simple, short and quick procedure
E N D
The Determination of 226Ra in Water Samples AnilH. Thakkar & Michael Fern Eichrom Technologies, Inc. David McCurdy Duke Engineering & Services
Objectives • To design a procedure for radium in water which would: • be a simple, short and quick procedure • allow to measure Ra-226 and Ra-224 via alpha spectroscopy and Ra-228 via Ac-228 measurements • eliminate the tedious steps of precipitation and metathesis
Current Procedure Used • Barium sulfate precipitation • Conversion to BaCO3- tedious and time consuming
Current Procedure Used Sample + Ba carrier + Ba-133 + Conc.H2SO4_+ Heat BaSO4 Precipitate allowed to settle for several hours or overnight Precipitate collected and converted to BaCO3
Water samples Cation exchange resin column Eichrom Ln Resin column New Approach
Preparation of Water Samples • 0.5 L / 1.0 L water samples • Acidified to pH 2 • Add 133Ba as a tracer
Eichrom Cation Exchange Column • Load solution: 0.5 L/ 1.0 L of sample • Rinse with 50 mL of 0.1M HNO3 • Strip Ra and Ba with 50 mL of 8M HNO3
Preparation of Load Solution for Ln Resin Column • Evaporate eluent from cation exchange column to dryness • Dissolve residue in 10 ml of 0.095M HNO3 acid • Load on Eichrom Ln Resin column
(1) Load: 10 mL of 0.095M HNO3, Collect (1) and (2) for Ba & 226Ra (2) Rinse: 15 mL of 0.095M HNO3 (3) Strip: 10 mL of 0.35M HNO3 collect (3) for 228Ac Ln Resin Column Separation
226Ra Via Alpha Spectrometry • Evaporate 226Ra/133Ba fraction to 10 mL volume • Add 0.1 ml of 0.75 mg/ml barium carrier • Add 3 mL of 40% sodium sulfate, 4 drops of 1:1 acetic acid. Swirl • Add 0.2 mL of seeding suspension. Mix • Place tubes in cold water bath for 30 minutes • Filter on 0.1 micron filters, count via alpha spectrometry
eichrom 133Ba Via Gamma Counter • Count 133Ba tracer yield via gamma spectrometry
228Ac Via Gas-Flow Proportional Counter • Add 50 micrograms of cerium carrier • Add 1.0 mL of HF • Filter on 0.1 micron filters • Measure for beta radiation
226Ra, 224Ra, and Daughters 224Ra 226 Ra 220Rn 218Po 222Rn
Ca and Mg Interference • 50, 100, 200, 400 and 500 ppm of Ca and Mg solutions were tested • 500 mL and 100 mL volumes tested
Summary • <1.0 pCi/L detection limits achievable • A good replacement for BaSO4 precipitation • Eliminates inconsistent metathesis steps • Reduces usage of chemicals/reagents • Provides consistency and saves time • High amounts of Ca and Mg interferences handled well with 100 mL samples • Acceptable 226Ra recoveries
Acknowledgements • Special thanks to • Dr. B. Parsa, New Jersey department of health, NJ • Dr. B. Kahn, Georgia Institute of Technology, GA