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WP 12.3 Moderator & Reflector Systems D. Lyngh, M. Kickulies, J. Ringnér, J. Jurns, M. Andersson, M. Pucilowski, T. Hedlund, A. Olsson TAC11 Lund, 1 st.

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Presentation on theme: "WP 12.3 Moderator & Reflector Systems D. Lyngh, M. Kickulies, J. Ringnér, J. Jurns, M. Andersson, M. Pucilowski, T. Hedlund, A. Olsson TAC11 Lund, 1 st."— Presentation transcript:

1 WP 12.3 Moderator & Reflector Systems D. Lyngh, M. Kickulies, J. Ringnér, J. Jurns, M. Andersson, M. Pucilowski, T. Hedlund, A. Olsson TAC11 Lund, 1 st of April 2015 Presenter: Daniel Lyngh, Lead Engineer

2 Outline Schedule & Cost Update – Recent Progress – Schedule (PDR & CDR) Technical Developments – Twister Foundation Pillar and Rotation Pipes Development – Butterfly Increased Heat Deposition, Flow Pattern – Questions Double or split plug design Beam through twister shaft 2Daniel Lyngh, TAC11, 2015-04-01

3 Recent Progress Moderator & Reflector Plugs (MR Plugs) – Preliminary Design Ongoing – PDRs planned for June -15 – Detail Engineering, Make Phase and Testing issued for In- Kind Contribution (startup June) – TC-8 Twister Handling – Approved – TC-12 2x Butterfly Moderators - Approved Cryogenic Cooling System – Preliminary Design Ongoing – PDRs planned for June -15 3

4 Schedule MR Plugs Cold Moderators Thermal Moderators Reflectors Handling System Structure & Shielding Liquid Hydrogen System Concept Phase Final DesignMake Phase PDRPDR PDRPDR PDRPDR PDRPDR 2019 Q1 Q2 2015 Q1 Q2 Q3 Q4 2016 Q1 Q2 Q3 Q4 2017 Q1 Q2 Q3 Q4 2018 Q1 Q2 Q3 Q4 PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR SAT PDRPDR PDRPDR Cryogenic Cooling System He Cryoplant PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR PDRPDR DeliveryCDR PDRPDR PDRPDR PDR PDRPDR PDRPDR PDRPDR PDRPDR Site Inst. & Testing Site Work 2014 Q3 Q4

5 Technical Developments Twister Handling Developed design of twister moderator handling system – Water Cooling of Shafts – Piping Arrangement – Proton Beam Path – Double Plug Daniel Lyngh, TAC11, 2015-04-015

6 Overview 66 Proton beam window Moderator and reflector plugs Target wheel Neutron beam windows Neutron beam extraction

7 Daniel Lyngh, TAC11, 2015-04-017

8 Technical Developments Twister Handling Component Overview Daniel Lyngh, TAC11, 2015-04-018

9 Technical Developments Twister Handling Shaft Cooling Daniel Lyngh, TAC11, 2015-04-019 Bearing Cavities water

10 10 Technical Developments Twister Handling Bearings Daniel Lyngh, TAC11, 2015-04-01

11 Technical Developments Twister Handling Piping Arrangement Daniel Lyngh, TAC11, 2015-04-0111 Service Position OperatingP osition

12 Technical Developments Twister Handling Daniel Lyngh, TAC11, 2015-04-0112

13 Twister Option Proton Beam Path 13 Beam Cut-out +Simpler Pipe Design -Penetrates Foundation Pillar +Symmetric Thermal Stresses -Bigger Plugs (+) Beneficial for 1 double plug (1 rotating shaft) +Larger flexibility for beam footprint changes - Complex Pipe Routing for Bottom Plug + Smaller impact on Foundation Pillar design - Asymmetric Thermal Stresses - Asymmetric Proton Radiation - Limited design margins as shaft is restricted between proton beam and neutron extraction path - Asymmetric and therefore more challenging to manufacture Beam Through Foundation Pillar Proton Beam

14 + Simplified Piping Arrangement + Simplified Plug Structure & Shielding + Simplified Rotation Device -Bigger Cask and Handling System + Reduced number of moving parts and bearings + Independent Replacement -Complicated Piping arrangement for bottom moderator + Higher future mission flexibility Twister Option Independent or double Plugs Double Integrated Plug 14 Split Independent Plugs

15 Technical Developments Butterfly Moderator Implementation – 3cm Top Moderator – 6cm Bottom Moderator – Increased Cryoplant size 20->35 Kw – Increased Liquid Hydrogen System – Increased WP Budget (18%) and delayed schedule. Daniel Lyngh, TAC11, 2015-04-0115

16 16 Butterfly Moderators TC-12 Instrument Performance [4] K. Andersson, Pancake and Butterfly Moderators, 4-3-2015. Abstract Three new moderator assemblies are evaluated and compared to the baseline configuration. Two make use of the new “butterfly” concept, resulting in a significantly higher thermal brightness compared to the water wings of the pancake moderator. The third is a variant of the Optimised Thermal configuration, changing one of the viewed sectors from East to South. The preferred solution is to replace the top pancake moderator with a butterfly assembly of the same height. This will have a negligible impact on the cold-neutron instruments, while substantially improving the performance of the bi-spectral instruments. Replacing the bottom “optimised thermal” moderator with a butterfly assembly of the same height, viewable in all instrument sectors, will have little effect on the performance of the individual instruments, but will dramatically increase the flexibility of the instrument layout, allowing all instruments to freely choose the optimum moderator for their needs. Daniel Lyngh, TAC11, 2015-04-01

17 Technical Development Butterfly Moderator Implementation Daniel Lyngh, TAC11, 2015-04-0117 Top Pre Moderator Alternatives: Water Wing Vacuum Gap Water Cross Cold Moderator Water Disc

18 Technical Development Butterfly Design 18 3 Designs for Hydrogen Flow 1.Parallel Flow with Jet 2.Serial Star Flow 3.Serial Zeus 1 3 2

19 Technical Development Butterfly Design 19 3 Designs for Hydrogen Flow 1.Parallel Flow with Jet 2.Serial Star Flow 3.Serial Zeus 1 2 3

20 Technical Development Butterfly Design 20 3 Designs for Hydrogen Flow 1.Parallel Flow with Jet 2.Serial Star Flow 3.Serial Zeus 13 2

21 Technical Development Butterfly Design 21 60mm Bottom Moderator

22 Technical Development Butterfly Thermal Moderator 22

23 Technical Development Butterfly Design 23

24 Technical Development Butterfly Design 24

25 Technical Development Butterfly Design 25

26 Technical Development Butterfly Design 26

27 Technical Development Butterfly Design 27

28 Technical Development Butterfly Design 28

29 Technical Development Butterfly Design 29

30 Technical Development Butterfly Design 30

31 Technical Development Butterfly Design 31

32 Technical Development Butterfly Design 32

33 Technical Development Butterfly Weld Tests 33

34 Technical Development Butterfly Weld Tests 34 Ebeam welding eBeam “blindfolded” but clear position guide eBeam 2 lines Filler wire

35 Summary Changes/Developments: Twister Change Butterfly Change Questions/request for comments: Proton Beam Path Double Plug Upcoming Activities: Weld Tests PDRs in June Daniel Lyngh, TAC11, 2015-04-0135

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