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ALBA Vakuumkammern

ALBA Vacuum Chambers

Assembly of the sector on the assembly tables.

ALBA Vacuum Chambers

Sector_after_backout.

ALBA Vacuum Chambers

Sector_after_backout.

ANKA Vacuum System und Frontends

ANKA Vacuum System und Frontends

Vacuum Chamber – Dipole and Sextupole

Radius (Dipol Chamber): 5559 mm
Total Length: 2847 mm

ANKA Vacuum System und Frontends

Vacuum Chamber – Dipole and Sextupole

Radius (Dipol Chamber): 5559 mm
Total Length: 2847 mm

ANKA Vacuum System und Frontends

Storage Ring and Front Ends during construction

ANKA Vacuum System und Frontends

Storage Ring and Front Ends during construction

ANKA Vacuum System und Frontends

Storage Ring and Front Ends during construction

ANKA Vacuum System und Frontends

Front Ends and Infrared Beamline during construction

ANKA Vacuum System und Frontends

Front End during construction

ANKA Vacuum System und Frontends

First section of a Front End
( Intensity Absorber, All Metal Gate Valve, Fast Closing Shutter, Gauges )

ANKA Vacuum System und Frontends

second section of a Front End
( Beam Position Monitor )

ANKA Vacuum System und Frontends

Beam Position Monitor for Front Ends
( BESSY License )
( Steggered Pair Monitor – SPM )

ANKA Vacuum System und Frontends

third section of a Front End
( Collimator, Radiation Protection Shutter )

ANKA Vacuum System und Frontends

third section of a Front End
( Collimator, Radiation Protection Shutter )

ANKA Vacuum System und Frontends

adjustable and water cooled Mirrorholder for Diagnostic Front Ends

ANKA Vacuum System und Frontends

Septum Vacuum Chamber and Magnet

ANKA Vacuum System und Frontends

Kicker Vacuum Chamber (ceramic) and Magnet

ANKA Vacuum System und Frontends

Kicker Vacuum Chamber (ceramic) and Magnet

ANKA Vacuum System und Frontends

Pump Port for Dipol–Vacuum Chamber
formed and EB–welded
Material: 316 LN

ANKA Vacuum System und Frontends

RF Spring

Australian Synchrotron Project

Australian Synchrotron Project


Vakuumkammern eines Sektors

Australian Synchrotron Project

Vermessen eines Standard Dipole Chamber mittels eines 3D Messarms

Australian Synchrotron Project

Montage der ersten Vakuumkammer (Intra Dipole Chamber) auf dem Montage– und Messtischen im Reinraum der ALS.

Australian Synchrotron Project

Montierte Vakuumkammern eines Sektors, vorbereitet zum Vermessen der Längstoleranz

Australian Synchrotron Project

Vermessen der Länge eines Sektors mittels Lasertracker im Reinraum der ALS.

Australian Synchrotron Project

Komplett montierter und Vermessener Sektor

Australian Synchrotron Project

Helium Lecktest eines komplett montierten Sektors im Reinraum der ALS.

Australian Synchrotron Project

Montage eines komplett montierten Sektors am Strongback mittels Edelstahlketten und Spannschlössern.

Australian Synchrotron Project

Transport des komplett montierten Sektors aus dem Reinraum mittels des Strongback.

Australian Synchrotron Project

Transport des komplett montierten Sektors zum Ausheizofen des ALS.

Australian Synchrotron Project

Geöffneter Ausheizofen.

Australian Synchrotron Project

Transport des komplett montierten Sektors in den Ausheizofen.
Einschub in den Ausheizofen von dessen Stirnseite aus.

Australian Synchrotron Project

Vorbereitung eines kompletten Sektors zum Ausheizen.

Australian Synchrotron Project

Ausheizen eines kompletten Sektors im Ausheizofen bei 200 °C über mindestens 72 Stunden mit anschließendem Vakuumtest.

Australian Synchrotron Project

Positionierung und Montage des Strongbacks mit dem kompletten Sektor unter der Hallenkrananlage.

Australian Synchrotron Project

Anheben des Strongbacks mit dem kompletten Sektor zum Transport in den Speicheringtunnel mittels der Hallenkrananlage.

Australian Synchrotron Project

Anheben des Strongbacks mit dem kompletten Sektor über die Wand des Speicheringtunnels mittels der Hallenkrananlage.

Australian Synchrotron Project

Positionierung des kompletten Sektors vor dem zu installierenden Sektorabschnitt mit geöffneten Quadrupol– und Sextupolmagneten im Speicherringtunnel.

Australian Synchrotron Project

Anheben, Verschieben, Absetzen und Positionieren des kompletten Sektors

Australian Synchrotron Project

Zwischen den geöffneten Quadrupol– und Sextupolmagneten im Speicherringtunnel.

Australian Synchrotron Project

Ein installierter Sektor auf den Gierdern und mit geöffneten Quadrupol– und Sextupolmagneten.

Australian Synchrotron Project

Eine installierte Vakuumkammer auf einem Gierder und mit geöffneten Quadrupol– und Sextupolmagneten.

Australian Synchrotron Project

Ein installierter Sektor auf den Gierdern und mit geöffneten Quadrupol– und Sextupolmagneten.

Australian Synchrotron Project

Ein installierter Sektor mit geschlossenen Quadrupol– und Sextupolmagneten.

Australian Synchrotron Project

Ein komplett installierter Sektor mit geschlossenen Quadrupol– und Sextupolmagneten sowie zwei Dipolemagneten.

CLS Vakuumkammern

CLS Vakuumkammern

Dipole Vacuum Chamber

CLS Vakuumkammern

Section of Storage Ring Vacuum System Installed in the Tunnel

CLS Vakuumkammern

Dipole Chamber of Storage Ring Vacuum System Installed in the Tunnel without a Dipole Magnet

CLS Vakuumkammern

Bellow Assembly including RF-Spring

CLS Vakuumkammern

BPM Flange and BPM Feedthroughs

Frontends for the Australian Synchrotron

Frontends für das Australian Synchrotron

Front Ends Group1

Frontends für das Australian Synchrotron

Front Ends Group1

Frontends für das Australian Synchrotron

Front End Group1

Frontends für das Australian Synchrotron

Front End Bremsstrahlungsshutter

Frontends für das Australian Synchrotron

Front End währen des Ausheizens

Frontends für das Australian Synchrotron

Front End Group1 Undulator

Frontends für das Australian Synchrotron

Front End Group1 Undulator

Frontends für das Australian Synchrotron

Front End Group1 Undulator während der Installation

Swiss Light Source Vakuum System

Swiss Light Source Vakuum System

Straight Vacuum Chamber Riva–CGM2

Swiss Light Source Vakuum System

Dipole Vacuum Chamber RIVA–CBE

Swiss Light Source Vakuum System

Straight Vacuum Chamber RIVA–CGES2

Swiss Light Source Vakuum System

assembling of one section outside the magnet girders at SLS site

Swiss Light Source Vakuum System

Section of Storage Ring Vacuum System Assembled in the Cleanroom

Swiss Light Source Vakuum System

transport of a assembled sector to the bakeout system at SLS site

Swiss Light Source Vakuum System

positioning of a sector into the opened bakeout system at SLS site

Swiss Light Source Vakuum System

preparation for bakeout of a complete sector of the vacuum system at SLS site

Swiss Light Source Vakuum System

transport of a vacuum section to the storage ring at SLS site

Swiss Light Source Vakuum System

transport of a vacuum section to the storage ring at SLS site

Swiss Light Source Vakuum System

transport of a vacuum section to the storage ring at SLS site

Swiss Light Source Vakuum System

transport of a vacuum section to the storage ring at SLS site

Swiss Light Source Vakuum System

lifting in place of a vacuum section on the aligned magnet girders at SLS site

Swiss Light Source Vakuum System

lifting in place of a vacuum section on the aligned magnet girders at SLS site

Swiss Light Source Vakuum System

one vacuum section installed on the girders and lower magnet jokes
(upper magnet jokes removed)

Swiss Light Source Vakuum System

one vacuum section installed on the girders and lower magnet jokes
(upper magnet jokes removed)

Swiss Light Source Vakuum System

one vacuum section installed on the girders and lower magnet jokes
(upper magnet jokes removed)

Swiss Light Source Vakuum System

one vacuum section installed on the girders and lower magnet jokes
(upper magnet jokes removed)

Swiss Light Source Vakuum System

vacuum chambers installed on the girders and lower magnet jokes
(upper magnet jokes removed)

Swiss Light Source Vakuum System

vacuum chambers installed on the girders and lower magnet jokes
(upper magnet jokes removed)

Swiss Light Source Vakuum System

vacuum chambers installed on the girders and lower magnet jokes
(upper magnet jokes removed)

Swiss Light Source Vakuum System

Cupper – Taper – Chamber

Swiss Light Source Vakuum System

Vacuum Chamber ARIVA CINJ5 with Scraper and Screenmonitor

Swiss Light Source Vakuum System

Watercooled Mirror

Swiss Light Source Vakuum System

Undulator Chamber

( length: 4622 mm )

Swiss Light Source Vakuum System

Beam Channel RIVA
complete bent



Descriptions

ALBA Vacuum Chambers

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Technical Description


Design, build and UHV–test of 116 ultra high vacuum chambers for the Synchrotron radiation storage ring ALBA

Technical Datas


Dipole Vacuum Chambers 33 pieces

Post Dipole Vacuum Chambers 37 pieces

Straight Chambers 24 pieces

Pre–Dipole Chambers 22 pieces

Full metal system made of: Stainless steel 316LN

spec. desorption rate: < 1 x 10-12 mbar . l . sec-1 . cm-2

He – Leakage rate: < 5 x 10-10 mbar . l . sec-1

permeability: < 1,01


Customer & Period


Customer:

Synchrotron Light Laboratory / CELLS

Period of Implementation:

July 2006 to  2008

 

ANKA Vacuum System and Frontends

Read More... | Pictures... | Downloads...



Technical Description


Konstruktion, Fertigung und UHV–Test von Ultrahochvakuumkammern für das ANKA Vacuum System and Frontends.

Customer


Kunde:

Forschungszentrum Karlsruhe



 

Australian Synchrotron Project

Read More... | Pictures... | Downloads...


Technical Description


Design, build, assembly and installation of the complete vacuum system of the Australian Synchrotron Project.

Design, build and UHV–test of 72 ultra high vacuum chambers inclusive 118 Photon Stop Absorber and 36 RF shielded Bellows for the Synchrotron radiation storage ring Boomerang
Assembly and installation of 14 Arc Sections and 13 Straight Sections inclusive bake out and UHV–test.

Technical Datas


Pre Dipole Chamber 15 pieces

First Dipole Chamber (Standard) 12 pieces

First Dipole Chamber (IR) 3 pieces

Intra Dipole Chamber 15 pieces

Second Dipole Chamber 15 pieces

Standard Straight Chamber 9 pieces

Diagnostic Straight Chamber 1 piece

Kicker Straight Chamber 2 pieces

Photon Stop Absorber mit und
ohne aperture

118 pieces

Beam Stop Absorber 28 pieces

RF shelded Bellow 36 pieces

Kicker BPM Flange 4 pieces

Full metal system made of: Stainless steel 316LN

spec. desorption rate: < 1x10-12 mbar . l . sec-1 . cm-2

He– Leakage rate: < 1x10-9 mbar . l . sec-1

final pressure of the installed Arc Sections
and Straight Sections:

< 1x10-9 mbar

permeability:: < 1,01

Customer & Period


Customer:

Australian Synchrotron Project

Period of Implementation:

May 2004 to April 2006

 

Frontends for the Australian Synchrotron

Read More... | Pictures... | Downloads...


Technical Description


10 Frontends for the Australian Synchrotron
3x Bending Magnet Frontend
1x Optical Diagnostic Frontend
4x Undulator Frontend
2x Wiggler Frontend (1x Permanent–Magnet, 1x Supra–Conducting)

Technical Datas


Scope of supply: Photon shutters
Photon collimators (masks)
Vacuum vessels
Bellows
Bremsstrahlung shutters
Bremsstrahlung collimators (masks)
Fast vacuum shutter including controller, sensor and cabling
gate valves (all metal/VITON)
Pressure gauging including controllers
Low conductivity water (LCW) distribution and gauging
Compressed air distribution
Support stands and tapped floor anchors
bake-out equipment
Installation supervision on site

Radiation source: Dipol, Undulator, Permanent-Magnet- und Supra-Conducting-Wiggler

Power Range: Dipole: 30W/mrad
Undulator: up to 6kW
Wiggler: up to 20kW

Vacuum range: UHV

Special Components Photon Collimators and Photon Shutters for high beam power up to 20kW

Customer & Period


Customer:

Major Projects Victoria (MPV) / Australian Synchrotron Project (ASP)

Period of Implementation:

April 2005 to March 2006

 

CLS Vacuum Chambers

Read More... | Pictures... | Downloads...


Technical Description


Design and build of 69 ultra high vacuum chambers for the Synchrotron radiation storage ring of the Canadian Light Source project

Technical Datas


Full metal system made of: Stainless steel 316LN

final pressure: < 2 x 10-10 mbar

spec. desorption rate: < 1 x 10-12 mbar . l . s-1 . cm-2

permeability: < 1,01

Customer & Period


Customer:

University of Saskatchewan, Saskatoon, Canada

Period of Implementation:

October 2001 to December 2002

 

Swiss Light Source Vacuum System

Read More... | Pictures... | Downloads...


Technical Description


Design and build of ultra high vacuum chambers for the Synchrotron radiation storage ring of the Swiss Light Source.

Customer & Period


Customer:

Swiss Light Source (PSI)

Period of Implementation:

1998