Sample Collection and Preservation

1. Sample Collection and Preservation Richard Sheibley Pennsylvania Dept of Env Protection

2. Sample Collection & Preservation • Entry Point • Representative • Composite • Total Activity

3. Sample Collection & Preservation • Containers • Sub-microgram • Plastic or Glass • Glass Only – tritium

4. Sample Collection & Preservation • Preservation • HNO3 • HCl • Done by laboratory • Within 5 days • Hold 16 hours • None – tritium and iodine

5. Sample Collection & Preservation • Holding time – Related to half life • 8 Days (131I) • 6 Months • Tritium • Alpha/Beta • Radium • Gamma • 1 – 4 Days (222Rn, 224Ra)

6. Instrumentation & Methods: Gas Proportional Counters Richard Sheibley Pennsylvania Dept of Env Protection

7. Instrumentation – Detectors • Gas proportional • Zinc sulfide (ZnS) scintillation • Liquid scintillation • Surface barrier • Lithium drifted germanium (GeLi) • High purity, germanium (HPGe)

8. Instrumentation – Shielding • Low level measurement • Decrease background • Protect from environment • Lead • Steel • Copper

9. Radioactivity Decay Review • Alpha Particles • Beta Particles • Photons

10. Alpha • Particle • Heavy – helium nucleus • Highly charged

11. Beta • Particle • Light – electron • Moderately charged

12. Gamma • Wave • No mass • No charge • Photon – like light but higher energy

13. Gas Proportional Counter • Alpha particles • Beta particles • Photons (gamma) • Optional detector

14. Gas Proportional Counter • Ion Pair formation • Voltage Pulse • Proportional response

15. Gas Proportional Counter • Components • Sample changer • High voltage power supply • Detector • Preamplifier • Amplifier • Scaler • Timer • Data collection & output device

16. Gas Proportional Counter • Two Detector System • Sample • Guard

17. Gas Proportional Counter • Sample Detector • Windowless • Sample inside counting chamber • Thin Window • Particle must penetrate window

18. Gas Proportional Counter • Guard Detector • Anti-coincidence • Cosmic radiation • Background

19. Gas Proportional Counter • Instrument Performance verification • Plateau • Instrument Background • Alpha Efficiency • Beta Efficiency

20. Gas Proportional Counter • Plateau • Operating voltage • Consistent count rate • Alpha Plateau • Beta Plateau • “Knee”

21. Gas Proportional Counter • Instrument Background • Cosmic radiation • Electronic noise • Natural radiation • Alpha • Beta • Background Subtraction

22. Gas Proportional Counter • Instrument Efficiency • Counts / disintegrations • Detector area • Geometry • Particle energy

23. Gas Proportional Counter

24. Gas Proportional Counter

25. Gas Proportional Counter • Method QC • Reagent Background • Efficiency • Method • Self adsorption • Alpha • Beta

26. Gas Proportional Counter • Sample count rate factors • Distance to detector • Window absorption • Self absorption

27. Statistics • Poisson Statistics • Random • Chi-square test • Standard deviation

28. Statistics

29. Statistics – Counting Error • Drinking water – defined in 40 CFR 141.25(c) • ± 100 % at 95% confidence interval • 1.96σ • Where σ = standard deviation of net counting rate of sample

30. Statistics – Counting Error • Standard deviation σ =  where: Rs = sample counting rate Rb = background counting rate ts = sample counting time tb = background counting time

31. Statistics – Counting Error Example Rs = 2.74 cpm Rb = 1.50 cpm ts = 50 min tb = 50 min C.E. = 1.96 [2.74/50 + 1.5/50]0.5

32. Statistics – Counting Error Example C.E. = 1.96 [2.74/50 + 1.5/50]0.5 C.E. = 1.96 [0.055 + 0.030]0.5 C.E. = 1.96 [0.085]0.5 C.E. = 0.80 cpm Result = 2.74 ± 0.80 cpm

33. Statistics – Detection Limit

34. Statistics – Detection Limit • LLD ~ (kα + kβ) σ o • kα = false negative • kβ = false positive • σ o = standard deviation of net counting rate of sample

35. Statistics – Detection Limit • Generally use 95% Confidence • kα = kβ= k = 1.645 At the LLD • Sample count rate ~ background count rate

36. Statistics – Detection Limit • σ o = [σ s2 + σ b2]0.5 • When Rs ~ Rb and ts = tb • σ s2 = σ b2 • σ o = [2]0.5σ b • LLD = 2[2]0.5 k σ b • LLD = 4.66 σ b • σ b = [Rb/tb] 0.5

37. Statistics – Detection Limit • Time • Volume • Efficiency • Self absorption • Background

38. Gas Proportional Counter • Counting interval • Time versus performance • Preset time • Preset count • Detection limit • Counting error

39. Instrumentation & Methods: Gross alpha & beta Jeff Brenner Minnesota Department of Health

40. EPA Method 900.0 • Prescribed Procedures for Measurement of Radioactivity in Drinking Water • EPA-600/4-80-032 August 1980 • Determination of Gross Alpha and Gross Beta Radioactivity in Drinking Water + + - • -

41. EPA Method 900.0What we’ll cover • Scope of the method • Summary of the method • Calibration • Determining operating voltage • Determining system background • Determining efficiency calibration • Determining self-absorption factor • Quality control • Interferences • Application • Calculations • Activity

42. EPA Method 900.0 Scope • The method is a screening technique for monitoring drinking water supplies • The solids are not separated from the sample • Solids concentration is a limiting factor in the sensitivity of the method

43. EPA Method 900.0 Alpha and Beta Procedure Summary • Sample is preserved in the field or at the lab with nitric acid • Lab preservation • Within 5 days of collection • Hold for 16 hours after acidification • Homogeneous aliquot of preserved sample • Typically 250 mL or less

44. EPA Method 900.0 Alpha and Beta Procedure Summary • Sample is evaporated to near dryness • If sample is evaporated to dryness in the beaker, re-start sample analysis • Add 10 ml 1N HNO3 to beaker to dissolve solids • Additional nitric acid is added to convert chloride salts to nitrate salts • Chloride salts attack the stainless steel planchet

45. EPA Method 900.0 Alpha and Beta Procedure • Sample is quantitatively transferred to a tared planchet • Sample is reduced to dryness on planchet • Sample residue is dried to constant weight • Analyzed for beta emissions

46. EPA Method 900.0 Alpha and Beta Procedure • Planchet is flamed and stored for 3 days to allow for the ingrowth • Flaming converts hygroscopic nitrate salts to oxides • Ingrowth for progeny of Ra-226 • Sample residue is reweighed to determine flamed residue weight • Analyzed for alpha emissions

47. EPA Method 900.0 Alpha and Beta Procedure

48. EPA Method 900.0 Calibrations (Determine Operating Voltage) • Calibration Order • Plateau • Spillover Correction or Crosstalk • Background • Efficiency • Sample Self Absorption or Mass Attenuation

49. EPA Method 900.0 Calibrations (Determine Operating Voltage) • Determine appropriate (knee) operating voltage • alpha beta plateau • A plateau is generated by counting a source several times while increasing (stepping) the high voltage to the detector. • Alpha plateau = alpha activity • Beta plateau = alpha/beta activity • Generate an alpha/beta plateau after every P10 gas exchange • Quality of the gas affects the plateaus and instrument performance

50. EPA Method 900.0 Calibrations (Determine Operating Voltage)