SiD nominal mass: Barrel 5000 T; (each) Door 2500 T Dimensions: Z = 20.0 m X = 20.0 m Delta Y = 9 m (Top of Platform to beamline) Positioning Tolerance.

Slides:

Advertisements

Similar presentations

Guards Design Specifications guards: Safety Work Instructions

Advertisements

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

Mammography Industry: Review of Proposed Accessibility Standards U.S. Access Board May 8, 2012 Atlanta, Georgia.

Replies by N.Meyners (in green) 27 August 2007ILC Questions M. Breidenbach1 ILC Detector Strategy Questions Some of us have been wondering about the fundamental.

Accessibility.  A building code is a set of rules that specify the minimum acceptable level of safety for buildings. The main purpose of building codes.

OSHA Susan Harwood Training - AGC Fall Protection Susan Harwood Grant Training Program 2013 Scaffolds, Ladders and Lifts.

MICE RF and Coupling Coil Module Integration Issues Steve Virostek Lawrence Berkeley National Laboratory MICE Collaboration Meeting October 27, 2004.

Global Design Effort Detector concept # Plenary introductory talk IRENG07 Name September 17, 2007.

NLC - The Next Linear Collider Project IR Layout Tom Markiewicz SLAC LCWS Cornell 15 July 2003.

Health and Safety Manual Section F9 Working at Height.

October 22, 2003H.J. Krebs1 LST Mechanical Design Review 2005 IR-2 Installation Discussion H.J. Krebs October 22, 2003.

Linac Coherent Light Source Stanford Synchrotron Radiation Laboratory Stanford Linear Accelerator Center LCLS Undulator Physics.

Earthquake Resistant Features in Buildings Dr. K. S. Nanjunda Rao.

December 3-4, 2007Earthquake Readiness Workshop Seismic Design Considerations Mike Sheehan.

Push Pull Considerations

Elevations, Layout and Drawing Technique.

SVD Mechanics 21th B2GM Florian Buchsteiner (HEPHY Vienna)

Electrical Safety.

Pixel Support Tube Requirements and Interfaces M.Olcese PST CDR: CERN Oct. 17th 2001.

Hall D Civil and Detector Progress Elliott Wolin 12-Sep-2002 U. Of Regina Middle of Nowhere Canada.

ATLAS Pixel Detector Discussion of Tolerances November 12, 1998 Pixel Mechanics D. Bintinger, LBNL E. Anderssen, LBNL/CERN.

1 ILC Push-Pull : Platform Marco Oriunno, SLAC ILD Workshop, Paris May 24, 2011.

Interaction Region Studies for a Linear Collider at CERN - Detector ‘push-pull’ slab design - Cavern assessment Matt Sykes.

Falls cause 15% of all accidental deaths at the workplace, second only to motor vehicles. Ladders are commonly used to accomplish elevated work tasks and.

NATURAL FREQUENCY AND BUILDING RESPONSE structural engineers are keeping us safe.

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

STAIRCASE RESTRICTIONS

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.

Occupational Safety and Health Course for Healthcare Professionals.

SiD MDI Marco Oriunno, SLAC ALCPG11 Eugene- Oregon, March 2011.

Chapter 16 Drawing Elevations Multiview projection Also called orthographic projection Front elevation Six views in a multiview drawing Rear elevation.

1 SiD Push-pull Plans Marco Oriunno, SLAC International Workshop on Linear Colliders 2010 Geneva, October 2010 M.Oriunno, IWLC10 – Geneva, Oct.2010.

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

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

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

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

Accessible Rail Coach Uwe Rutenberg, Rutenberg Design Inc. Ottawa, Canada TRB ABE60-2, 2010.

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

Status of the PANDA Magnet Yoke Presented by E. Koshurnikov GSI, February 7, 2013.

Joint Institute for Nuclear Research Deformations and stresses in the flux return yoke A.Efremov, Yu.Lobanov, A.Makarov Darmstadt,

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.

ORKA support - status report Scope of conceptual design task Develop a conceptual design for how to support the ORKA detector inside the CDF detector Develop.

IRC 2009 OVERALL. SITE PLAN PROPERTY LINES LOCATION OF BUILDING GRADES STREETS.

WORKBENCH WALL MOUNTED WALL MOUNTED OR FREE STANDING FREE STANDING SHOWN.

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

Roller/rail - System for PANDA

Walking and Working Surfaces

Ferrara MECHANICAL SUPPORT for forward tracking detectors Federico Evangelisti INFN - Ferrara GSI – 2-6 march 2009.

Updated Design of Detector Hall

Yasuhiro Sugimoto 2012/2/1 ILD integration meeting

Dead zone analysis of ECAL barrel modules under static and dynamic loads Marc Anduze, Thomas Pierre Emile – LLR CALICE Collaboration Meeting.

Experimental hall design in Japanese site

Present status of the flux return yoke design

Generic Site Preparation

PANDA Yoke of the Magnet

ME Contest Structure Plan View dia. orange circle

Laboratories in Annecy working on Vibration Stabilization

Concepts and Requirements for GIMM Structures

Additional muon stations for the Upgrade of the Elevator Regions in the ATLAS Muon Spectrometer. Integration issues Denis Diyakov, Alexander Seletskiy,

Development of models: FEM and Analytical

Electrical Safety.

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

Dynamics Friction.

Detector hall in mountain regions

Chapter 1 Theatres & Stages

Find the volume of the cuboid below

FBE04 BUILDING CONSTRUCTION AND MATERIALS

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

Elevations, Layout and Drawing Technique.

BaBar LST Upgrade Richard F Boyce

Presentation transcript:

SiD nominal mass: Barrel 5000 T; (each) Door 2500 T Dimensions: Z = 20.0 m X = 20.0 m Delta Y = 9 m (Top of Platform to beamline) Positioning Tolerance on beamline Consider points Z=+-max, X=0. Position to + 1mm wrt references in X,Y,Z Consider points Z=+-max, X=+-max: Position to +- 1 wrt references in Y. SiD Platform Functional Requirements Static Deformations: <+-2 mm Vibration Transfer Function from ground : Amplification < 1.5 between 1 and 100 Hz. Seismic stability: Appropriate for selected site. (Beamline must be designed with sufficient compliance that VXD will survive)

SiD Platform Functional Requirements Wall clearance ~10 mm. Platform comes to side wall, there is no apron or apron matches platform elevation. gap,10 mm

SiD Platform Functional Requirements Surface Features: Steel Surface near legs Steel rails for doors “Receptacles” for tie seismic tiedowns of SiD Barrel and Doors Removable Safety railings Detector Top View Platform Top View

SiD Platform Functional Requirements Reliability: Transport modularity must be such that repairs/replacement/maintenance can be accomplished in garage position and within 20 elapsed days. Any equipment required for transport shall reside below the platform surface. Transport equipment shall not eject particulates that reach platform surface (need spec on how much) Accelerations:<1 mm/s^2 Transport velocity:V>1 mm/s after acceleration Life: 100 motion cycles.