Difference between revisions of "Meeting 27 March 2018"
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(Created page with "'''PRESENTATIONS''' [https://wiki.jlab.org/cuawiki/images/f/fa/CPS_Parker_March27update.pdf Result for backward shielding and optimization of shielding overall (Parker/Bogdan...") |
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'''PRESENTATIONS''' | '''PRESENTATIONS''' | ||
| − | [https://wiki.jlab.org/cuawiki/images/ | + | [https://wiki.jlab.org/cuawiki/images/4/49/CPSParkerMarch27Revised.pdf Result for backward shielding and optimization of shielding overall (Parker/Bogdan)] |
[https://wiki.jlab.org/cuawiki/images/e/e7/Jixie_CPSDocument_03272018.pdf CPS Update (Jixie)] | [https://wiki.jlab.org/cuawiki/images/e/e7/Jixie_CPSDocument_03272018.pdf CPS Update (Jixie)] | ||
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'''NOTES''' | '''NOTES''' | ||
| + | |||
| + | '''* Action items for next meeting on Tuesday, 10 April at 3:00pm (EST):''' | ||
| + | ::* Prepare drafts for all sections of the 10-page document (all, see section assignment) | ||
| + | |||
| + | ::* Prepare figures for the 10-page paper based on Parker's 3/27 presentation (Parker/Bogdan) | ||
| + | ::::* for slide 17: figures for both "original CPS shielding" and "CPS shielding" (i.e. with the +10 cm and borated poly, the "extra" case) for combined, photon, and neutron separately. | ||
| + | ::::* for slide 18: figures labeled with: | ||
| + | ::::::* "Combined ''with'' CPS shielding" | ||
| + | ::::::* "Gamma contribution ''with'' CPS shielding" | ||
| + | ::::::* "Neutron contribution ''with'' CPS shielding" | ||
| + | ::::* and then the same plots assuming 11 GeV beam, 2.7 muA beam current and a 10% radiation length target, i.e., there is no CPS or shielding at all. | ||
| + | ::::::* "Combined ''without'' CPS and shielding" | ||
| + | ::::::* "Gamma contribution ''without'' CPS and shielding" | ||
| + | ::::::* "Neutron contribution ''without'' CPS and shielding" | ||
| + | |||
| + | ::* Update on ongoing simulations with "black hole" after stopper and figures for 10-page document (Jixie) | ||
| + | |||
| + | |||
| + | * Discussion FLUKA simulation | ||
| + | ::* Fixed issue with dose rates - it was due to an incorrect modeling of the beam dump opening. Now get more realistic radiation from that source | ||
| + | :::::* 1 MeV neutron equivalent now in good agreement with expectation from 2012 simulations performed by Pavel | ||
| + | ::::* Dose rate at 100 uA consistent with corrected Snoopy neutron detector data (900 mrem/hr) | ||
| + | ::* Optimization study with 50 cm W and 10 cm of 5% borated polyethylene for top, front and back - this is extra 10 cm of W and extra 10cm of borated polyethylene in the backward region. The extra 10 cm plastic stops spilling n the backward region | ||
| + | ::* To demonstrate effectiveness of shielding plot dose rate vs. distance with and without CPS | ||
| + | ::* Show radiation levels on pivot after nominal 1000 hrs and 1 hour waiting, and also after 100 hrs and 1 hour of waiting | ||
| + | |||
| + | * Discussion of simulation update | ||
| + | ::* Implemented "black hole" after stopper, simulation is running | ||
| + | |||
| + | * Disussion of 10-page document draft | ||
| + | ::* General concept is: 1) Introduction of subject, 2) CPS concept, 3) Results to demonstrate that CPS can be built | ||
| + | ::::* Need to include sufficient quantification, e.g. factor 1000 in section III.D - could refer to published data | ||
| + | ::::* In "Safety and Engineering" include more detail, e.g. heat density and how one can cool easily - might take 3-4 pages for this section | ||
| + | ::* Figures in main text: | ||
| + | ::::* CPS components | ||
| + | ::::* Magnetic field and why | ||
| + | ::::* Impact of plastic | ||
| + | ::::* Neutron equivalent damage | ||
| + | ::::* Prompt dose rates and boundary | ||
| + | ::::* Activation doses | ||
| + | ::* Appendix 1 - concept transfer to Hall D | ||
| + | ::::* Include figure of photon radiation with and without CPS | ||
| + | ::::* Add bullet: to reduce power density in magnet could either reduce the magnetic field or use a double raster system as done for Hall A/C | ||
| + | |||
| + | ::::* Optimization of material | ||
Latest revision as of 21:51, 9 April 2018
PRESENTATIONS
Result for backward shielding and optimization of shielding overall (Parker/Bogdan)
Initial draft 10-page document
NOTES
* Action items for next meeting on Tuesday, 10 April at 3:00pm (EST):
- Prepare drafts for all sections of the 10-page document (all, see section assignment)
- Prepare figures for the 10-page paper based on Parker's 3/27 presentation (Parker/Bogdan)
- for slide 17: figures for both "original CPS shielding" and "CPS shielding" (i.e. with the +10 cm and borated poly, the "extra" case) for combined, photon, and neutron separately.
- for slide 18: figures labeled with:
- "Combined with CPS shielding"
- "Gamma contribution with CPS shielding"
- "Neutron contribution with CPS shielding"
- and then the same plots assuming 11 GeV beam, 2.7 muA beam current and a 10% radiation length target, i.e., there is no CPS or shielding at all.
- "Combined without CPS and shielding"
- "Gamma contribution without CPS and shielding"
- "Neutron contribution without CPS and shielding"
- Update on ongoing simulations with "black hole" after stopper and figures for 10-page document (Jixie)
- Discussion FLUKA simulation
- Fixed issue with dose rates - it was due to an incorrect modeling of the beam dump opening. Now get more realistic radiation from that source
- 1 MeV neutron equivalent now in good agreement with expectation from 2012 simulations performed by Pavel
- Dose rate at 100 uA consistent with corrected Snoopy neutron detector data (900 mrem/hr)
- Optimization study with 50 cm W and 10 cm of 5% borated polyethylene for top, front and back - this is extra 10 cm of W and extra 10cm of borated polyethylene in the backward region. The extra 10 cm plastic stops spilling n the backward region
- To demonstrate effectiveness of shielding plot dose rate vs. distance with and without CPS
- Show radiation levels on pivot after nominal 1000 hrs and 1 hour waiting, and also after 100 hrs and 1 hour of waiting
- Discussion of simulation update
- Implemented "black hole" after stopper, simulation is running
- Disussion of 10-page document draft
- General concept is: 1) Introduction of subject, 2) CPS concept, 3) Results to demonstrate that CPS can be built
- Need to include sufficient quantification, e.g. factor 1000 in section III.D - could refer to published data
- In "Safety and Engineering" include more detail, e.g. heat density and how one can cool easily - might take 3-4 pages for this section
- Figures in main text:
- CPS components
- Magnetic field and why
- Impact of plastic
- Neutron equivalent damage
- Prompt dose rates and boundary
- Activation doses
- Appendix 1 - concept transfer to Hall D
- Include figure of photon radiation with and without CPS
- Add bullet: to reduce power density in magnet could either reduce the magnetic field or use a double raster system as done for Hall A/C
- Optimization of material