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Operation Tomodachi Individual Radiation Monitoring

Operation Tomodachi Individual Radiation Monitoring. LCDR Thad Sharp, USN Joint Forces Land Component Command (JFLCC) – III MEF(F). Outline. Radiation Monitoring Program intro CONOPS Execution Challenges Recommendations. Assignment Introduction.

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Operation Tomodachi Individual Radiation Monitoring

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  1. Operation TomodachiIndividual Radiation Monitoring LCDR Thad Sharp, USN Joint Forces Land Component Command (JFLCC) – III MEF(F)

  2. Outline • Radiation Monitoring Program intro • CONOPS • Execution • Challenges • Recommendations

  3. Assignment Introduction • OPCON to Marine Corps Forces Pacific (MARFORPAC) • TACON to JFLCC (III MEF (Fwd)) • Augmented Force Surgeon and G-3 at MARFORPAC and Command Surgeon at JFLCC • Requested to support Operation Tomodachi as a radiation and decontamination SME

  4. Radiation MonitoringProgram Background • Commandant of the Marine Corps directed “all Marines in the effected area be monitored for radiation with a dose of record device” • MARFORPAC to perform radiation monitoring for Marines working ISO Operation Tomodachi • Requested approval from LTG Theissen for radiation monitoring plan prior to pushing forward to JFLCC in Japan

  5. Planned CONOPS • Provide dose of record radiation monitoring for all Marines and DoD civilians working in the effected area • Monitor housing areas with posted dosimetry • Potentially monitor dependents • Navy DT-702 TLDs for use as primary dosimeter and Navy EPDs as secondary dosimeter for use in the hot zone

  6. Challenges to Planned CONOPS • JFLCC is a Joint command with all Services represented • Plans developed by MARFORPAC were NOT coordinated with the forward command elements • MARFORPAC didn’t have all the information going forward • Air Force Radiation Assessment Team (AFRAT) arrived 2 days before my team

  7. Revised Plan Execution • AFRAT issued NVLAP EPDs to all Service members per CG JFLCC direction • Instead of replacing Marine’s EPD with Navy TLDs, continued use of AFRAT EPDs • EPDs provide real-time digital readout • Psychological impact of replacing EPD with TLD (no real-time info) • AFRAT fell under JFLCC and provided dosimetry services

  8. Revised Plan Execution Thermo MK2 EPD Navy DT-702 TLD

  9. Challenges • Personnel Movement • EPD vice TLD • Service Specific Dosimetry • Higher HQ Guidance

  10. Challenges – Personnel Movement • For Navy RHOs • Many RHOs are in 1 of 1 billets • Some resistance to give up RHOs for deployment • No clear plan once the members arrived in country, for example: • Where they were to be assigned • Who exactly to report to • What their mission was going to be • Medical Planners did not seek requirements guidance from forward command elements

  11. Challenges – Personnel Movement • AFRAT and USTRANSCOM problems • The AFRAT sat at Wright Patterson AFB for several days waiting on transportation

  12. Challenges – Personnel Movement • Travel orders/DTS/GOVCC/SATO issues • Original orders were for ship conditions • Mission changed before even getting to Hawaii • Not all SATO offices can help with TAD travel • Orders amendment required for partial payment to GOVCC (TAD >45 days) • GOVCC credit limit not high enough for extended overseas TAD

  13. Challenges – EPD vs. TLD • Thermoluminescent Dosimeter (TLD) • Very common device for recording a radiation “dose of record” (primary dosimeter) • Provides no real-time readings to the user • Must be sent back to home lab to be read • Much lower cost per unit compared to EPD

  14. Challenges – EPD vs. TLD • Electronic Personal Dosimeter (EPD) • Becoming more widely used as a primary dosimeter if NVLAP accredited • Provides digital, real-time information to the user • Can be confusing with regards to NVLAP accredited device or not • It’s the process and not just the EPD that is accredited • CBRN Marine’s DMR-2000 EPD is neither a calibrated nor accredited dosimeter • To date, only AFRAT has NVLAP accredited EPDs

  15. Challenges - Service SpecificDosimetry • Army, Navy, and Air Force all have different dosimetry systems (OSL, Harshaw, Panasonic) • All work very well for specific Service requirements • All Services have different methods of storing the permanent radiation dose in medical records and archives • Not conducive to a Joint operation in a radiological environment

  16. Challenges - Service SpecificDosimetry • Resistance from all three Service Dosimetry Centers on the use of one common primary dosimeter for all Service members assigned to the JFLCC • One Service still badged personnel with their specific dosimetry • Created a “double badging” problem

  17. Challenges – Higher HQ Guidance • Guidance was 300 mrem/operation • Most JTF personnel had TLDs not EPDs • Dosimetry guidance: • Confusing • Delayed • Conflicting • JFLCC had to develop and execute plans without higher command guidance

  18. Recommendations • Develop and deploy a Joint radiation dosimeter for use in Joint operations • Needs to be NVLAP accredited • Easily integrated by all Services • Lightweight • Rugged and EMP hardened • LLD in the microrem range, i.e. ~10 urem/h • Provide real-time and long term exposure info

  19. Recommendations • Evaluate and update training on equipment for radiation and nuclear events for CBRN Marines • Specific training for proper contamination surveys • More in-depth radiation safety training • Biological effects of ionizing radiation • Radiation and contamination detection principles and equipment • Basic health physics and math related to radiation safety

  20. The Way Ahead • The JRO-CBRND has begun the collaborative efforts for writing a Capabilities Development Document (CDD) for a Joint Expeditionary Radiation Dosimetry System

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