M.Oriunno, SLAC 1 SiD installation with horizontal access shafts Marco Oriunno, SLAC SiD/ILD Engineering Meeting SLAC, December 2011.

Slides:

Advertisements

Similar presentations

SiD Surface assembly Marco Oriunno (SLAC) MDI-CFS Meeting Sep. 4-6, 2014, Ichinoseki (Japan)

Advertisements

Magnet, Support and Infrastructure Robin Wines July 9, 2014.

01/07/2008HCAL Main Meeting- Mechanical Integration1 ILD HCAL Mechanical Integration HCAL Main Meeting Kirsten Kschioneck, DESY.

Mu2e Production Target Remote Handling By: Michael R. Campbell, Fermi National Accelerator Laboratory, , System Layout Basic.

Assembly Hall in Hybrid-A’ and ILD 2014/9/6 Yasuhiro Sugimoto 1.

SiD assembly Marco Oriunno (SLAC), May. 14, 2014 ALCW 2014, Fermilab Infrastructures & Timeline for Hybrid Access.

DH in Hybrid-A and ILD 2014/9/5 Yasuhiro Sugimoto 1.

Experimental hall in Japanese mountain site Y. Sugimoto ILD MDI/Integration 1.

1 ILD/CMS Engineering Meeting M. Joré – ILD integration philosophy Integration philosophy of ILD Matthieu Joré – January 21st Integration of the subdetectors.

SID Engineering Marco Oriunno (SLAC), Jan CLIC Workshop, CERN Toward the TDR.

M.Oriunno, SLAC ALCPG September ‘09 ILD 1 Progress on Push-Pull IR Studies Marco Oriunno, SLAC A.Herve (ETH-Zurich), K.Simran (DESY) A.Seryi, T.Marckiewicz,

1 Alternative assembly option of ILD Y.Sugimoto 2010/10/18 ILD Integration

Experimental hall in Japanese mountain site Y. Sugimoto 1.

WBS1 SBS Basic: Magnet and Infrastructure Robin Wines 11/4/ SBS DOE Review.

Hcal Geometry and Assembly CLIC Meeting - LAPP December 2008, 15th.

SiD Engineering Status Report Kurt Krempetz (Layer 5) (Layer 1) VXD.

IPN Lyon ILD Mechanical structure April 2012 DHCAL Assembly, Tooling, Cooling J.C Ianigro - IPN Lyon -

Beam Commissioning Marco Oriunno (SLAC), May 14, 2014 ALCW 2014, Fermilab Engineering Issues.

M.Oriunno, SLACALCP, Albuquerque SiD Calorimetry Mechanical Design and Engineering Issues Marco Oriunno, SLAC 2009 Linear Collider Workshop of the.

September 18, 2007H. J. Krebs1 SiD Collaboration One Piece End Door Design Concept plus Forward Equipment Interfaces H. James Krebs SLAC September 18,

SiD Engineering: Iron and Solenoid Design Kurt Krempetz (Layer 5) (Layer 1) VXD.

KEK Hiroshi Yamaoka Task list for Magnet/Iron yoke Solenoid magnet Iron yoke Experimental hall and other facilities May 11, ’05.

1 GLD and GLDc Sep. 12, 2007 Y. Sugimoto KEK. 2 Compact GLD Option Motivation –GLD and LDC will write a common LoI –The detector design should have common.

Zian Zhu Magnet parameters Coil/Cryostat/Support design Magnetic field analysis Cryogenics Iron yoke structure Mechanical Integration Superconducting Magnet.

SiD IR & MDI Engineering Progress Prelude to a Discussion of Integration with ILD and Based on Marco Oriunno’s Jan 2008 Talk at SiD CM Tom Markiewicz/SLAC.

SiD Engineering Design for the LOI Kurt Krempetz (Layer 5) (Layer 1) VXD.

Detector design optimization for push-pull IR and for surface assembly and corresponding IR requirements Tom Markiewicz/SLAC SLAC BDS Kick-Off-Meeting.

SiD Conceptual Engineering Status Report Kurt Krempetz (Layer 5) (Layer 1) VXD.

ILD Magnet & calorimeters integration meeting Questions to be addressed 01-02

ILD requirement for assembly space and time 2015/11/3 Yasuhiro 1.

The HCAL barrel absorber structure

Access Yard Assembly Marco Oriunno (SLAC), November 13, 2013 LCWS13, TOKYO.

SiD IR & MDI Status & Comments Tom Markiewicz/SLAC ALCPG, Fermilab 26 October 2007.

SiD Engineering and Solenoid Kurt Krempetz (Layer 5) (Layer 1) VXD.

GLD experimental hall and detector assembly Y.Sugimoto KEK 27 Sep

IPN Lyon ILD integration April 2015 Jean-Christophe Ianigro & Imad Laktineh - IPN Lyon -

An Hybrid QD0 for SID ? Marco Oriunno (SLAC), Nov. 14, 2013 LCWS13, TOKYO.

1. Introduction 2. Magnetic field design Optimization of yoke configuration in several conf. Boundary conditions -

March 22, –  Design Concept & Hall Layout  Access Tunnel  Top heading Tunnel  Displacement of detector hall by push-pull operation.

September 20, 2007H. J. Krebs/B. Wands/B. Cooper1 SiD Collaboration Preliminary End Door Design Concept Support of Forward Systems H. James Krebs Bob Wands.

ILD and SiD in Japanese site (from discussions in SiD/ILD E/D Interface Working Meeting) Yasuhiro Sugimoto, Marco Oriunno 2011/12/15 SiD

SiD MDI Issues Tom Markiewicz/SLAC Beijing ACFA/GDE Meeting 05 February 2007.

Summary: Detector Integration/Engineering/MDI Marco Oriunno (SLAC), May 31, 2013 ECFA Linear Collider Workshop 2013, DESY.

Experimental hall in Japanese mountain site 2011/11/30 Yasuhiro CFS Webex meeting 1.

IPN Lyon ILD Mechanical structure February 2015 Design, Integration & Services J.C Ianigro - IPN Lyon -

8/29/07K. C. Wu - Brookhaven National Lab1 Major Components in ILC IR Hall Interchangeable Detectors.

12 July 2007IRENG07 WG-A M. Breidenbach1 SiD Concept SiD is relatively modest in scale compared to the LHC detectors, and comparable to SLD: Tracker Radius.

Comments on Services Elba Comments on Services & … Bill Wisniewski SLAC.

An idea of ILD general assembly plan 2015/10/8 Yasuhiro Integration Meeting 1.

1 Update of detector hall in mountain regions Y.Sugimoto in Granada.

Experimental Hall in Mountain Regions

SiD Collaboration Meeting SLAC, December 2011

2016/9/30 Yasuhiro Infra/CFS mini-ws

Detector Hall Design and Cost Information CONVENTIONAL FACILITIES

Yasuhiro Sugimoto 2012/2/1 ILD integration meeting

Experimental hall design in Japanese site

Present status of the flux return yoke design

A. Vande Craen, C. Eymin, M. Moretti, D. Ramos CERN

PANDA Yoke of the Magnet

PANDA Collaboration Meeting , BINP Sergey Pivovarov.

SiD Muon Yoke Structure - Deformation Studies -

Update of experimental hall in Japanese mountain site

SiD Solenoid Status and Plans

Detector hall in mountain regions

Sub-Detector Assembly Area Summary of discussion at ALCW2015

ILD-0 overall dimensions C.Clerc ILD meeting, Seoul 17/02/09

SiD Engineering Status Report

Detector hall in mountain regions

ILC Detector Technology

SiD IR Layout M. Breidenbach, P. Burrows, T. Markiewicz

Presentation transcript:

M.Oriunno, SLAC 1 SiD installation with horizontal access shafts Marco Oriunno, SLAC SiD/ILD Engineering Meeting SLAC, December 2011

M.Oriunno, SLAC 2 Dampimg Ring Surface 11 m 9 m 200 t + 20 t IR hall Specifications Helium Compressors Loading Area

M.Oriunno, SLAC 3 PartTons Barrel Ecal60 Barrel Hcal450 Coil192 Barrel Iron x 8 (1/8)3287 (411) Total Barrel3990 Endcap Ecal8 Endcap Hcal38 Endcap Iron1833 Total EndCap x11878 Total SiD7746

M.Oriunno, SLAC 4 Access tunnel Large Part Heavy Part

M.Oriunno, SLAC 5 Iron Barrel Yoke layout Bolted assembly, 144 plates 200 mm thick, 40mm gap Opportunity to make blank assembly at the factory before shipping Preliminary Contacts with Kawasaki Heavy Industries Plate thickness tolerance for each: 0.1mm Plate flatness: 4mm (in a plate) Fabrication (assembling & welding) tolerance: 2mm Full trial assembly: capable (but need to study) 3990 tons

M.Oriunno, SLAC 6 ~ 8 x 410 tons trips along the transfer tunnel 200 t

M.Oriunno, SLAC 7 Solenoid with integrated dipole Dipole Solenoid Coil assembly, Surface

M.Oriunno, SLAC 8 Access Tunnel, Coil

M.Oriunno, SLAC 9 Solenoid Installation

M.Oriunno, SLAC 10 Solenoid Installation

M.Oriunno, SLAC 11 Iron Door Yoke, Bolted assembly, no vertical split Uses continuous cast steel plates rolled to 200 mm thickness 40mm gaps for muon identification chambers Plate-to-plate spacers are staggered for better muon identification coverage Bolted construction 100mm thick inner support cylinder 1878 tons

M.Oriunno, SLAC HCAL Barrel, 12 wedges x 38 tons 3 m

M.Oriunno, SLAC 13 Hcal Brl Installation ~ 12 x 38 tons trips along the transfer tunnel

M.Oriunno, SLAC 14 Cryogenics layout

M.Oriunno, SLAC 15 Cryogenics system design for push-pull Stationary cold box with flexible cryo-transfer line Minimize risks vs. a moving cold box with high pressure He flexible line Cold boxes interconnection with redundancy feature for temporary unavailability Cold box A Cold box B Detector A Detector B Flexible cryo-line Interconnection

M.Oriunno, SLAC 16 Cold box A Cryo-line Detector open on the beam line

M.Oriunno, SLAC 17 Cold box A Cold box B Solenoid Detector A Solenoid Detector B Beam Line Garage Flexible Cryo-line A Interconnection 30 m

M.Oriunno, SLAC 18 Electrical motor, low friction hinges Rotating Pacmen

M.Oriunno, SLAC Detector opening on the beam

M.Oriunno, SLAC 20 Pacmen closed: Modified to allow ILD opening ILDSiD 19 m Interface pieces born by each experiment

M.Oriunno, SLAC 21 Pacmen open ILDSiD Increased to nominal!

M.Oriunno, SLAC 22 Spare Sides

M.Oriunno, SLAC Helium compressor / cryogenics Loading area Detector services Main access tunnel 23