1. Radiation Safety & Start Up Training ���Innov-X Systems �Ken Smith�National Sales Manager�
2. Radiation Safety �Innov-X Systems�X-Ray Fluorescence Bill Caughie Regional Sales Mgr.
Office: 412-916-9286
Fax: 412-787-1552
4. Training Objective SAFETY!
Understand Radiation!
Understand Regulations
Understand Instrumentation
6. Radiation Overview Radiation - form of energy (particles/waves)
Electromagnetic Radiation Spectrum -EMR
Radio frequency
Microwave
Infra-red
Visible Light
Ultraviolet - UV
X-Ray
Gamma Radiation
7. Types of Radiation Radiation - Form of Energy
Ionizing >10eV
Cause ionization of atoms
Eject electrons atoms - Make charged atoms
non - Ionizing
Does NOT Cause ionization
8. Ionizing Radiation Particles (FAST!)
alpha particles (2 neutrons + 2 protons)
beta particles (electrons)
neutrons
Waves (High Energy Light!)
X - Rays
Gamma Rays
9. Radiation Types
11. In radiation safety, one of the primary concerns is the penetration ability of the radiations involved. As discussed, alpha particles cannot penetrate the dead layer of skin, and are not an external hazard; however, alpha radiation is a very serious internal hazard. Alpha particles are not a concern in radiation safety with XRF devices. Beta radiation is more penetrating than alpha, but less than gamma rays. Gamma radiation is the same as x-ray radiation, with the exception of the fact that it is originated in the nucleus and x-rays originate in the electron cloud surrounding the nucleus. Gamma rays and x-rays are highly penetrating radiations and they are what we must be concerned with in radiation safety for XRF use. Most of the safety concerns have been addressed already by the design of the XRF, which incorporates shielding, collimation, and shutters to minimize exposure from the radioactive sources inside.In radiation safety, one of the primary concerns is the penetration ability of the radiations involved. As discussed, alpha particles cannot penetrate the dead layer of skin, and are not an external hazard; however, alpha radiation is a very serious internal hazard. Alpha particles are not a concern in radiation safety with XRF devices. Beta radiation is more penetrating than alpha, but less than gamma rays. Gamma radiation is the same as x-ray radiation, with the exception of the fact that it is originated in the nucleus and x-rays originate in the electron cloud surrounding the nucleus. Gamma rays and x-rays are highly penetrating radiations and they are what we must be concerned with in radiation safety for XRF use. Most of the safety concerns have been addressed already by the design of the XRF, which incorporates shielding, collimation, and shutters to minimize exposure from the radioactive sources inside.
12. Radiation Safety RAD = Radiation Absorbed Dose
REM = Roentgen Equivalent Man
REM = RAD X Factor
(Factors X-ray=1, Alpha=20)
13. Roentgen Equivalent Man?? Now thats a mouthful!
14. Its Everywhere!
15. Biological Effects of Radiation Most Sensitive - Rapidly dividing cells
Bone Marrow
Lining of digestive tract
Some skin cells
Least Sensitive
Bone
Muscle
Nerves
16. Standards & Guidelines Maximum Permissible Limits (MPLs)
National Council on Radiation Protection
International Commission on Radiological Protection
ALARA
Radiation Doses
5 rems per year (whole body)
50 rems (extremity or individual organ)
0.5 rems during pregnancy
17. Exposure Calculations <0.1 mREM/hr.
X 25 hr/day
= 2.5 mREM/day
X 400 days/year
= 1,000 mREM/year
or 1 REM/year
= 2% of reportable exposure
18. Safety Factors Time, Distance, Shielding
Time - Limit Exposure Dose
Distance - Maintain Safe Distance
Inverse square law
Shielding - High Density Materials
19. Radiation Safety Summary Radiation Overview
Types of Radiation
Biological Effects of Radiation
Standards and Guidelines
Monitoring Instruments
Safety Factors (Time, Distance, Shielding)
Control Programs
20. XRF Work Practices
21. A few words about Radiation Safety The Innov-X analyzers does produce radiation and the user should be aware of this
Radiation exposure is negligible with proper use and small with occasional incorrect use
22. A few more words about radiation safety Practice ALARA. All radiation exposure should be As Low As Reasonably Achievable
This means:
Do not put fingers, or any other body part in front of the analyzer window.
Verify that no one else stands within 3 paces of the analyzer window when instrument is on.
Correct operation of instrument involves leaving one hand on handle, and making sure the other hand is away from the window.
23. Safety Factors Time, Distance, Shielding
Time - Limit Exposure Dose
Distance - Maintain Safe Distance
Inverse square law
Shielding - High Density Materials
24. Standards & Guidelines Maximum Permissible Limits (MPLs)
National Council on Radiation Protection
International Commission on Radiological Protection
ALARA
Radiation Doses
5 rems per year (whole body)
50 rems (extremity or individual organ)
0.5 rems during pregnancy
25. Typical Radiation Exposures Airline Attendant 1,000 mR/yr
Nuclear Power Worker 700 mR/yr
Grand Central Station 120 mR/yr
Medical Personnel 70 mR/yr
Lead Inspector 20 mR/yr
University Researcher <10 mR/yr
Chest X-ray 100 mR/each
26. Exposure Calculations�@ Trigger <0.1 mREM/hr.
X 25 hr/day
= 2.5 mREM/day
X 400 days/year
= 1,000 mREM/year
or 1 REM/year
= 2% of reportable exposure
27. Misuse Example #1 Dose to fingers and/or hand in this example is a maximum of 28,000 mrem/hour.
Over exposure occurs in 2 hours of window exposure at the hand.
28. Misuse Example #2 Dose at exit of sampling window is approximately 28,000 mrem/hr. A 10 second exposure in contact with Torso = 77.8 mrem
Repeat misuse 64 times/year exceeds 5,000 mrem limit.
29. Safety Features Deadman Trigger
Software trigger lock
Software proximity sensor
Test Stand
30. Deadman Trigger Trigger must be held for duration of test.
Releasing the trigger ends test
This ensure that users intentionally start each test
Prevents user from walking away and leaving instrument on
If user picks up analyzer and inadvertently pulls trigger, test will end as soon as trigger is released
31. Deadman Trigger This feature may be disabled upon customer request AFTER complete radiation safety training
It is recommended that this feature is only disabled for companies where only one or two users use the analyzer in a controlled setting
Deactivation is NOT recommended in situations where instrument is shared by many users or in spaces occupied by large numbers of people.
32. Trigger Lock User must release software trigger lock before testing
Once released, trigger lock remains disabled until 5 minutes elapse after the end of a test
33. Software Trigger Lock
34. Software Proximity Sensor Instrument will shut off after 1-2 seconds if sample is not present.
Analyzer checks count rate, if count rate is not significantly above air rate, x-rays shut off
35. Test Stand Option Allows for Hands-Free Operation of instrument
Ideal for turnings and other small parts, Soil Samples, etc.
36. Use Common Sense! Remember, when energized, X-rays come out of the front of the analyzer and act accordingly.
Prevent exposure to front of analyzer when instrument is on
Pay attention to all warning lights on instrument
37. Basic Instrument Operation Innov-X Analyzers
38. Hardware and Accessories
39. Trigger and Trigger Lock Tests can be started and stopped via either the trigger or the iPAQ.
Trigger lock should be put on immediately after pulling trigger to prevent inadvertent start of test.
40. Batteries Charge Batteries completely before use.
Only use Innov-X approved charger
Insert batteries in base of unit - Battery is keyed to fix in correct position
41. iPAQ Power Considerations iPAQ is powered by analyzer main battery.
iPAQs internal processes consume power, even when not in use.
A fully charge iPAQ can loose power sitting on a shelf for several weeks leave iPAQ plugged in when not in use.
If iPAQ battery is completely drained, it will not be possible to use iPAQ in analyzer until iPAQ is charged and date is set
Any programs added to the main memory will be deleted, but Innov-X program and data are fine.
42. Storage Card All Innov-X Data and Programs are stored in storage card. They will not be erased even if iPAQ battery
For proper operation, iPAQ must storage card firmly pushed into the card slot
43. Placing iPAQ in Analyzer iPAQ must be seated properly to communicate
Be careful with the connector!
Slide iPAQ forward (towards snout) before lifting. Do not angle iPAQ upwards until it is clear of connector
44. Instrument Start-up
45. Power on instrument Main Power on rear of analyzer below LCD display
Momentary on switch
Must hold for 3 seconds to turn off
iPAQ has separate on/off switch
46. Start Software Select Start from upper right hand corner of iPAQ screen.
Select the Innov-X Systems Software from the drop down menu.
47. Radiation Notice Read Notice and click start
48. Select Mode Select mode by clicking on name
49. Initialization Analyzer electronics warm up
Detector is cooled to proper temperature
Takes 2 minutes
50. Tap to Standardize Instrument requires standardization before measurements can be started
Place standardization mask on front of analyzer
Tap to Standardize
51. Standardization Standardization checks 316 standard
Checks detector resolution and peak position
Needs to be done when instrument is powered on or after 4 hours of use
52. Standardization finished Instrument displays result of standardization
53. Standardization Failures Make sure battery is completely charged
Reset iPAQ
Turn instrument on and off, remove battery, make sure it is seated correctly
54. Ready to Test Tap Start or pull trigger to begin test
55. Test info Click INFO
Enter data
Data is stored until changed or erased
56. Test in progress Screen displays elapsed time and Test in Progress
LED on front of analyzer blinks indicating radiation is being emitted
If view-live updates is on, results will be displayed after minimum time has elapsed
57. Results Display Results displayedresults in %.
Error displayed is 1-sigma
Press start or pull trigger to start another test
58. Results Options View menu can change the way results appear on the screen
Results shows only grade ID
Chemistry shows all data
Test info shows stored test info
59. Software Menus
60. Match Numbers When determining Grade/Fingerprint Matches, software calculates a Match Number
This unit-less number is an indication of how good a match is.
The lower the number, the better
Typical cutoffs:
3 Analytical
61. Software overview Three screens
MainSelect program, change password
AnalyticalSet analysis parameters
Resultsview all results
62. Searching Libraries Analyzer only searches selected library
Make sure library being searched contains grades of interest
63. Check the screen Match number and selected libraries are shown on screen
Analytical 3
Most general search includes all libraries
64. Menu Options File MenuStandardize & Select Libraries
Edit MenuEdit Library entries
65. Menu Options ViewOpen results screen. Turn on/off live screen updates
OptionsSet testing and Match numbers. Exact match in Analytical
66. Editing Libraries Password protected function
Modify standard library with care
67. Troubleshooting
68. When in doubt, reset! Like all computers, iPAQs can occasionally lock up or get confused
Two possible resets. Use �soft reset.
Hard reset is only used in extreme circumstances, usually when soft reset doesnt work.
69. Exit Software!! Software has three layers of menus (Main, Analysis, and results). Must close Main to exit software.
Use File-Exit to close
70. Make sure iPAQ is correctly seated iPAQ must be firmly seated in analyzer. Must be attached to connector.
iPAQ and storage card must be firmly pressed into the socket.
71. Verify settings If instrument is not matching, verify
Correct Library is being searched
Match number is set correctly
3 Analytical
Exact Match is off in Analytical
