1. Accsys Collaboration Board February 2017
Mats Lindroos
Head of Accelerator

2. Some Highlights
Start of onsite installation activities by Powerheat of warm gas piping supports
Significant progress on the fabrication of ACCP cold box and compressors. Compressors are scheduled to arrive at ESS in the end of March.
ESS Ion source operating at nominal parameters in Catania
ESS modulator prototype long term test completed and tender released in Spain for the 3 first NC modulators
Good progress with manufacturing of NC linac parts
Good results for prototype SRF cavities at IK partners (CEA, CNRS and INFN)
First phase of Value Engineering exercise completed

3. ESS construction

4. ESS construction

5. Some Issues IK contracts:
Tri-part agreement with Elettera-INFN-ESS to resolve the Elettra VAT issue and enable the start of procurements at Elettra
Final 12 contracts (Tas) to be presented to last IKRC
Unlikely that additional IK contracts can be awarded due to schedule issues
Need for more information at IK partners to prepare for IK staff at ESS
E.g. ID06 Cards and Housing
Provision of laydown areas onsite for installation activities by vendors and In-Kind Partners and coordination of logistics
Installation activities and coordination is very resource demanding for ESS and for IK partners
Detailed installation sequence, Cable coordination, responsibility matrix, WCSP document
Release of some procurements by In- Kind partners in languages other than English are seen to pose problems.

6. Accelerator Division § ACCELERATOR DIVISION
Mats Lindroos
Beam Physics, Operation & Beam Diagnostics
Andreas Jansson – GL
Beam Physics
Mamad Eshraqi - SL
Marc Munoz
Renato de Prisco
Ryoichi Miyamoto
Yngve Levinsen
Saeid Pirani (at INFN)
Ciprian Plostinar ( )
Beam Diagnostics
Tom Shea – SL
Benjamin Cheymol
Cyrille Thomas
Hooman Hassanzadegan
Hinko Kocevar
Irena Dolenc Kittelmann
Maurizio Donna
Rafael Baron
Charlotte Roose
Slava Grishin ( )
Edvard Bergman ( )
Clement Derrez ( )
Thomas Grandsaert (EIS)
Johan Norin (C)
Engineering Resources
David McGinnis – GL
Eugene Tanke
Nick Gazis
Carl-Johan Hårdh (C)
Mats Pålsson (C)
Pontus Jönsson (C)
Marcus Green (C)
Dennis de Wit (C)
LINAC
Håkan Danared – GL
Linac Hardware
Vacant - SL
Christine Darve
Georg Hulla
Walter Wittmer
Felix Schlander
Cecilia Maiano ( )
Oystein Midttun (IK)
Nuno Elias (EIS)
Frank Hellström (C)
Fredrik Håkansson (C)
Accelerator Integration
Stephen Molloy – SL
Aurélien Ponton
Edgar Sargsyan
Iñigo Alonso
Radio Frequency
Anders Sunesson - GL
Power Converters
Carlos Martins – SL
Göran Göransson
Marko Kalafatic
Paulo Jose Torri
Anders Andersson (C)
RF Sources
Morten Jensen – SL
Rihua Zeng
Rafael Montano
Bruno Lagoguez
Chiara Marrelli
Rutambhara Yogi
Staffan Ekström
Stevo Calic
Iñigo de la Fuente
Anders Svensson
Safety
Lali Tchelidze – GL
Duy Phan
Enric Bargalló
Mikael Motyka
Frank Kornegay (C 15%)
Konstantin Batkov (Target 50%)
Spec. Technical Services
John Weisend II – GL
Wolfgang Hees
Anton Lundmark
Evangelia Vaena
Frithiof Jensen
Emilio Asensi
Gunilla Jacobsson
Akif Coku (C)
Björn Henriksson (C)
Jörgen Jönsson (C)
Fredrik Persson (C)
Cryogenics
Philipp Arnold – SL
Jaroslaw Fydrych
John Jurns
Xilong Wang
Xiaotao Su
Ila Sjöholm (C)
Piotr Tereszkowski (C)
Vacuum
Marcelo Juni Ferreira – SL
Hilko Spoelstra
Simone Scolari
Christophe Jarrige
Fabio Ravelli
Kristell Barthélemy
Richard Bebb
Peter Ladd (C 50%)
Admin & QA
Caroline Prabert
Inga Tejedor
Abril Qaraeen
Matthew Conlon
Ebbe Malmstedt (C)
Kent Wigren (C)
Hans Öster (C)
Planning
Lena Gunnarsson
Magnus Israelsson
Luisella Lari (C)
Håkan Danared – Deputy Head of Division
John Weisend II – Deputy Head of the Project
Peo Gustafsson – In-kind Manager
Accelerator Division
72 employees ( )
Consultants, IK, Students, Interns and empl from
Eng Integr Sup Div & Target, in Yellow + Planners = 27 people
Caroline Prabert

7. Design Reviews
Since the summer the following Design Reviews were held:
Target Moderator Cryoplant– PDR
Accelerator Cryoplant - CDR2 (next is an IRR in spring 2017)
Target Imaging Beam Diagnostics– PDR
Warm Gas Piping– CDR1a
660KVA Modulator – PDR
Test & Instruments Cryoplant – CDR
BPM Electronics – PDR
LWU BPM - CDR
Helium Storage Tanks – CDR
High Power RF Amplifier for MEBT - PDR
Accelerator Tunnel Water System – PDR
Beam Dynamics & Lattice Review
Cooling water tunnel and gallery PDR
Medium Beta Elliptical Cavities CDR
Test Stand 2 PDR
Electronic Rack Systems PDR
704 MHz Klystron PDR
Wire Scanner Acquisition System PDR
A total of 38 Design Reviews of various types were held in 2016
Approximately 30 Reviews are expected in 2017

8. EV Graph Current Status
The break in the PV curve is due to replanning activities creating a lower PV for December than previous month. Mainly IK related activities are affected.
The main WPs contributing to the SV are: Power Converters, Cryogenics, NCFE and Spoke Cavities & Cryomodules.
The main WPs contributing to the negative CV are: Power Converters, Beam Diagnostics, Beam Delivery, Cryogenics

9. Cumulative Variances

10. Milestones (1/2) -121 -129 -110 -38 -37 -60 4 -16 -20 -12 ID Name
Baseline
Current
Forecast
Δ since last month
(days)
Float
Impact/Action A
LEVEL2.2G.ACCSYS.WP03.Start RFQ machining
30-jul-16
1 Jan-17
-16
-121
Currently no impact as delivery date is still being maintained. However, this is being watched closely A
LEVEL1.1G.ACCSYS.WP08.Thales and Toshiba and CPI/ Klystron Prototypes delivered
1-jun-16
9 Jan-17
-20
-129
Toshiba prototype is here. Limited ability to affect Thales production speed however, this is not a critical path item yet
A50070
LEVEL1.1G.ACCSYS.WP08.CPI/Thales and L3 IOT prototypes delivered
30-sep-16
19 Apr-17
-12
-110
Impact is only on post 2019 High Beta CMs A
LEVEL1.1G.ACCSYS.WP04.WP05.Spoke & MB CM production launched
23-dec-16
1 Mar-17
-38
Obsolete. Will be split into 2 milestones A
LEVEL1.1G.ACCSYS.WP05.MB CM testing starts
2-Oct-17
22 Nov-17
-37
A50060
LEVEL1.1G.ACCSYS.WP08.Decision IOT or Klystron for High Beta Linac
3-Jan-18
28 Mar-18
-60
Impact is only on Post High Beta CMs A
LEVEL1.1G.ACCSYS.WP11.Accelerator cryoplant ready for CDS
11-jun-18
31-May-18 4

11. Milestones (2/2) -67 -65 -88 -33 -20 +27 ID Name Baseline Current
Forecast
Δ since last month
(days)
Float
Impact/Action A
LEVEL1.1G.ACCSYS.WP02.Start RFQ commissioning
16-jul-18
07 Nov-18
-67
This is a knock-on effect from the start of RFQ machining. If delivery date of RFQ is met, this will also be met A
LEVEL1.1G.ACCSYS.WP02.Beam commissioning completed for ISRC-LEBT-RFQ-MEBT
08-oct-18
23 Jan-19
-65 A
LEVEL1.1G.ACCSYS.WP02.Beam commissioning completed for NCFE but DTL5
25-feb-19
8 Jul-19
-20
-88
Replanning with INFN Legnaro underway to return to baseline date
A49760
LEVEL1.1G.ACCSYS.WP08.RF system for MB ready
13-may-19
9 Sep-19
+27
-33
Replanning of WP8 underway to optimize schedule & move this milestone back A
LEVEL1.1G.ACCSYS.First Protons on Target, 570 MeV
28-jun-19
1 jul-19 A
LEVEL1.1G.ACCSYS.WP High Beta Cryomodules installed
02-jun-21 A
LEVEL1.1G.ACCSYS.WP High Beta Cryomodules installed
04-jul-22
04-Jul-22 A
LEVEL1.1G.ACCSYS.Accelerator installed for 2.0 GeV
23-sep-22

12. Installation schedule stubs, RF gallery and Tunnel – 30 months to do all!

13. NC LINAC – first out!
The long term test of the ion source will be done in Lund to assure that the ion source arrives in time
Installation of SC linac and NC linac “independent” activities thanks to shielding wall and temporary PSS
Expected delay of RFQ (3 months) can be absorbed if no other major systems are delayed
The timely arrival of DTL tanks will permit installation and conditioning of DTL structures in parallel to RFQ and MEBT assembly and installation
Final schedule for ARR will be decided latest summer 2017

14. Accelerator Division (AD) – Site Organization
BAS-U framework
ESS management
Accelerator Division (AD) – Site Organization
Accelerator installation Manager
Nick Gazis
deputy: Edgar Sargsyan
Area Supervisor Gallery (G02) Marcus Green
Mechanical
Electrical
Utilities
Area Supervisor Tunnel (G01) and & FEB (levels 090 & 100) Dennis de Wit
Area Supervisor Cryobuildings (G04) Ila Sjoholm
Area Supervisor Test stand (in G02) Wolfgang Hees
Safety Team Duy Phan Area Supervisors and ES&H
Planning coordination Edgar Sargsyan
AD and ESS central installation services
RATS Hans Oster
QA/QC Kent Wigren el RF
other..
System Leader 1
Indeed everyone is responsible for safety
mech
util
other..
System Leader 2
AREAS
other
Other..
System Leader 3, 4..
Task masters (Installation Support Team)
16 January 2017
Catania Workshop - N.Gazis

15. Example responsibility matrix

16. Accelerator Division (AD) – Building access milestones
AD installation plan ESS
02-May-2017 Full Access to G01 Linac Tunnel and FEB level 090
27-Feb-2017 Partial Access to G02 Gallery Technical Area
01-Sep-2017 Partial Access to first part of G02 Gallery (FEB level 100) with 4 first stubs
23-Oct-2017 Partial Access to following part of G02 Gallery with the following 6 stubs
01-Jan-2018 Partial Access to following part of G02 Gallery with the following 11 stubs
31 Mar Full Access to entire G02
AD preliminary site-office needs (changing rooms included accordingly)
Starting in January 2017: 21 accelerator staff are gradualy moving on-site and 17 more hotdesks are reserved for installation people needs
Draft –in progress
16 January 2017
Catania Workshop - N.Gazis

17. Last slide for installation Status in a nutshell
Current plan for the ESS accelerator installation foresees 30 consequent months of installation (starting in Jan-2017).
The WP remain in charge of the systems until they are commissioned – the ESS installation organization is there to facilitate the installation work and assure that it is done safely and in line with Swedish legislation
The System Leaders together with IK partners and ESS staff have to fill-up the Work and Safety Coordination Plan (WSCP, ESS ) prior to any installation work - this document will help assuring that the all required resources are identified and that the work is performed safely
Currently the AD installation team utilizes the AD Test Stand safety procedures according to the “best practice” rule
16 January 2017
Catania Workshop - N.Gazis

18. Forecast EAC

19. Risk Status No Changes to the risk list!
Event
Potential Impact*
Probability
Mitigation measures
Retirement date
In-kind contributors do not meet scope and schedule requirements
Quality Schedule 4
communicate regularly with IKC inform work status to the project Yearly formal audit of WP progress
Unidentified design faults are not prototyped and fail in production
Schedule Quality
PDR/CDR prior to manufacturing
All WPs undergo a yearly audit
Suppliers do not deliver on time with right quality/quantity, e.g. klystrons, modulators, CMs,
Make sure QA/QC plans are in place
Inadequate ability to deal with on-site adjustments during construction as well as during operations 3
Improve installation planning
Follow up on needed space for workshops on site
No Changes to the risk list!
Risk WS Planed,
WP 3 NCFE (risk identification done)
WP 4 Spook Cryo (risk id started w 3)
WP 5 Elliptical Cryo (risk id started w3)
WP 7 BI
WP 8 RF
WP 16 Cooling
Will give new input to the risk list
Simplified process
Only Focus on remaining Tech Risk
Simplified Component layouts/IF
Areas/WP
Design/IF
Manufacture and V&V
Transport
Assembly
Inst
Test
Cond
Com
Going forward Turn the stake around and focus on org Functions (coming project steps)
Assign owners (hand over) - Treatment plan - Mitigations

20. Conclusions
The ESS accelerator (sub-)project is making good progress – present known delays indicates a possible 3-5 months delay but all is done to mitigate that
The ESS and AD installation organization develops a detailed integrated installation schedule, assures that necessary support for installation is available and makes certain that the work can be done safely – we are all responsible for safety
Close coordination and good communication between IK partners and ESS is paramount to be able to complete the project successfully
Thanks for your constructive collaboration and for your positive approach to the many challenges we encounter daily!

21. Extra slides

22. Schedule Variance (SV) (= Earned – Planned)
The main contributors to the cumulative SV of M€ are
NCFE (-2.7 M€) due to that the P6 plan needs to be updated. Will happen during Q
Spoke cavities & Cryomodules (-1.5 M€) due to delay in Spoke series CM parts & tooling procurement.
Cryogenics (-2 M€) due to delays in CDR-3 and CDR-4 for piping, delay in CDS-elliptical engineering and production.
Power Converters (-2.8 M€)

23. Cost Variance (CV) (= Earned – Actuals)
The main contributors to the cumulative CV of -1.2 M€ are
Beam Delivery (-400 k€)
Beam Diagnostics (-600 k€)
Cryogenics (-250 k€)
Power Converters (-800 k€)

24. Analysis of CVs Exceeding Thresholds
Work Package: 11.6 Beam Delivery Systems; CV = -431 k€; CPI = 0.53
Cause:
Impact/consequence:
Recoverable:
Corrective actions:
Work Package: 11.7 Beam Diagnostics; CV = -590 k€; CPI = 0.91
I steg 1, inkludera bara denna och kommande 2 slides som de är. Långsiktigt skulle man kunna tänka sig att denna genererades, dvs om man är utanför tröskelvärdena så la QV/nprinting till slides med SV/SPI ifyllt.

25. Analysis of CVs Exceeding Thresholds
Work Package: Power Converters; CV = -840 k€; CPI = 0.74
Cause:
Impact/consequence:
Recoverable:
Corrective actions:
I steg 1, inkludera bara denna och kommande 2 slides som de är. Långsiktigt skulle man kunna tänka sig att denna genererades, dvs om man är utanför tröskelvärdena så la QV/nprinting till slides med SV/SPI ifyllt.

26. Analysis of SVs Exceeding Thresholds
Work Package: 11.3 Normal Conducting Front End; SV = k€; SPI = 0.70
Cause: Work package will be updated during Q
Impact/consequence:
Recoverable:
Corrective actions:
Work Package: 11.4 Spoke Cavities & Cryomodules; SV = k€; SPI = 0.82
Cause: Spoke series CM parts & tooling procurement, Spoke series cavity procurement, testing of cavity package in Uppsala and later on testing of CM.
Impact/consequence: Delay due to Nb to be delivered in Sep 2017, delay on Spoke test campaign due to additional activities needed after test of cavity package in Uppsala.
Recoverable: No concerning Spoke CM parts & tooling procurement, no concerning cavity test in UU since no spare parts are available. Additional power couplers will be conditioned by April 2017.
Corrective actions: A CNRS procurement officer was hired last Sep. The Nb & cavities was ordered Jan 2017 before cavity package is tested in Mar 2017 adding a risk to the ESS project.

27. Analysis of SVs Exceeding Thresholds
Work Package: 11.5 Elliptical SRF incl. Cryomodules; SV = k€; SPI = 0.93
Cause: Medium Beta procurement of Niobium.
Impact/consequence: Possible delay in the production of the MB cavities (<3 months). The TA is signed and call-for-tender is being launched.
Recoverable: Yes
Corrective actions: LASA will accelerate the delivery of Nb to match the cavities fabrication timeline.
Work Package: 11.7 Beam Diagnostics; SV = -332 k€; SPI = 0.95
Cause:
Impact/consequence:
Recoverable:
Corrective actions:

28. Analysis of SVs Exceeding Thresholds (continued)
Work Package: 11.8 Radio Frequency Systems; SV = k€; SPI = 0.93
Cause:
Impact/consequence:
Recoverable:
Corrective actions:
Work Package: Test Stands; SV = -494 k€; SPI = 0.94
Cause: Due to restructuring/replanning of WP10 the EVM numbers are affected.
Impact/consequence: None
Recoverable: Yes
Corrective actions: None

29. Analysis of SVs Exceeding Thresholds (continued)
Work Package: Cryogenics; SV = k€; SPI = 0.92
Cause: Delays in CDR-3 and CDR-4 for piping, delay in CDS-elliptical engineering and production.
Impact/consequence: Behind schedule one to two months.
Recoverable: Yes.
Corrective actions: Rescheduling installation with stakeholders and speed up during production/installation phases.
Work Package: Vacuum; SV = -777 k€; SPI = 0.86
Cause:
Impact/consequence:
Recoverable:
Corrective actions:

30. Analysis of SVs Exceeding Thresholds (continued)
Work Package: Electrical Support; SV = -516 k€; SPI = 0.72
Cause:
Impact/consequence:
Recoverable:
Corrective actions:
Work Package: Power Converters; SV = k€; SPI = 0.47

31. Statement 1 Area Supervisors
BAS-U/P is the safety responsible person for planning and construction works in a dedicated area, according to the applicable Swedish legislation. The BAS-U/P defines and supervises the implementation of safety rules in the dedicated area.
In this framework, ESS ERIC has agreed to follow the BAS-U/P legislation and rules during all installation, testing and commissioning phases in the ESS site. Accordingly, the ESS AD assesses the safety responsibility following the (partial/full) access definition of its areas. ESS AD has appointed the Area Supervisors as BAS-U/P responsible persons for the accelerator installation, following the ESS ERIC mandate.
NOTE 1: Above mentioned statement is in full accordance with Skanska/C-101 Minor Works definition for on-site coordinated, documents on place, work instructions, BAS-U/P etc…
NOTE 2: AD has already Partial Access in part-of-G02 and G04 with Skanska/C-101 waiting for our (ESS) formal confirmation, to be provided right after this workshop in agreement with ES&H.
Roles, Responsibilities, Authorities and Accountabilities (R2A2) of the presented installation titles are available under:
16 January 2017
Catania Workshop - N.Gazis

32. Area Supervisor (also BAS-U/P responsible person)
Role appointed by the ESS AD
Maintains the area responsibility on site (he is the Territorial Safety Officer)
Physically present on site during works
Safety responsible for the works/actions performed in his area
Safety responsible for the workers working in his area
Member of the safety team
Specific safety responsibilities e.g. fire safety responsible (hot works education etc. needed)
Generates Area Hazard Analyses (AHA) included in the Safety Coordination Plan (WSCP)
Issues/revokes access to his area to all the concerned people (installation teams, IKCs, contractors, etc.)
16 January 2017
Catania Workshop - N.Gazis

33. Statement 2 System Leaders
The Area Supervisors shall act as “hosts” of their areas with the System Leaders arriving (with their teams and equipment) to perform installation of their respective components of their Work Packages (WP). The Area Supervisor shall inform/implement/supervise all safety rules and regulations related to his area(s) and maintain up-to-date the Area Hazard Analysis (AHA) included in the Work and Safety Coordination Plan (WSCP) of his dedicated area. The Area Supervisor shall check all safety training and certification of all people working in his area. The Area Supervisor will make sure that the dates and timeslots of the Installation Planning (as defined by the deputy installation manager) are respected. The System Leaders and their WPs are responsible to maintain the action schedule of the installation and comply to the Area Supervisors orders for safety and entering/evacuating the dedicated areas. It is the System Leaders’ responsibility to educate/train his teams for all safety trainings needed in order to perform installation works. The safety trainings of the teams shall be funded by the WP. The installation of the different Work Packages (WP) of AD shall be lead by the System Leaders, as appointed by each Work Package Leader. Appointed System Leaders are listed under: The System Leaders of the WP have to fill-up the Work and Safety Coordination Plan (WSCP) with help from the Area Supervisors prior to any installation work. Primary responsibility of the System Leader is to timely communicate to the Area Supervisors all WSCP documentation, related to the installation works of the System Leader’s WP. System Leader has to fund (via the relevant WP) all requests (for material/personnel/services or other) described and requested in his/hers WSCP. ESS : Work and Safety Coordination Plan (WSCP) Please contact for more details.
16 January 2017
Catania Workshop - N.Gazis

34. System Leader Also following the BAS-U/P rules and regulations
Role appointed by the WP
Leads and manages the installation team of the relevant WP
Selects and defines techs and installation team members along with their actions
Plays the role of the technical expert on site (can be physically on site) for the components of the relevant WP
Responsible for performing all on-time scheduled activities
Receives and signs (commissions) the deliveries for his/hers systems of responsibility
Generates Job Hazard Analyses (JHA)
Generates and owns the Work and Safety Coordination Plan (with help from the Area Supervisors)
16 January 2017
Catania Workshop - N.Gazis

35. AD site organization: installation hierarchy with titles
ESS LINE MANAGEMENT
SITE MANAGEMENT
COST
ESS-wide Centralized Resources
Administration
Technical
SWOCOR
SAFETY
SCHEDULE
Accelerator Installation Coordinator
Installation Area Supervisor
Installation system/package leader
Technicians, Task Masters, IKC resources, Contracted resources, etc./
16 January 2017
Catania Workshop - N.Gazis

36. Installation Services available on-site from the AD Area Supervisors
AD will provide installation services and support on-site to facilitate the WP installations. These resources will be available from the AD Area Supervisors, following the WP’s requests as documented in the WSCP by the System Leaders (for each WP).
Logistics: The System Leader(s) have to document in the WSCP all needs for logistics and transportation for the WP components. Consequently, establish contact with ESS Logistics and/or to organize the shipment of IKC components from the IKC facility to ESS Lund. All transportation and logistics of the WP shall be supervised/organized by ESS Logistics.
Alignment: The System Leader(s) have to document in the WSCP all alignment needs for the WP components. Consequently, establish contact with ESS Survey and Alignment Group to detail the realization of alignment process and steps.
Electrical installations: The System Leader(s) have to establish contact with AD electrical group for all electrical-related installation needs/support.
Controls: The System Leader(s) have to establish contact with ICS for all controls-related installation support.
Installation support*: The System Leader(s) have to document in the WSCP all all needs/support on technicians, manpower, services and tooling on-site during their installation. Consequently, establish contact with AD Installation team and/or to detail planning of the installation support needed for each WP. *Please, refer to next slide for details on the available installation support.
16 January 2017
Catania Workshop - N.Gazis

37. Catania Workshop - N.Gazis
Installation Support available on-site from the AD Area Supervisors – (1/2)
AD will provide installation support on-site to facilitate the WP installations. These resources will be available from the AD Area Supervisors, following the WP’s requests as documented in the WSCP by the System Leaders (for each WP).
Installation teams (manpower): The System Leader(s) have to document in the WSCP all needs for technicians and manpower for installation of the WP components. Following the WSCP instructions, the Area Supervisors will assign technicians and manpower directly under the command of the System Leaders, during the installation of the relevant WPs.
Installation teams (manpower): The System Leader(s) have to document in the WSCP all design needs for 2D-drawings and installation maps for the WP components. Following the WSCP instructions, Design Integration workGroup (AD-DIG) will provide the relevant drawings, upon availability of the design engineers.
Electronics, tooling and consumables support: The System Leader(s) have to document in the WSCP all needs for electronics, tooling and consumables (e.g. network analyzers, hand-tools, bolts & nuts, shims, temporary support frames, air-pads etc.). Basic electronics, tools and consumables will be available on-site, following the WSCP instructions. Please, verify their availability with the Area Supervisors. It is strongly advised to the WPs to organize and come individually with their needed electronics, tooling and consumables – keep in mind that no-workshop/no-electronics lab is available on-site (but it will be available in close proximity).
16 January 2017
Catania Workshop - N.Gazis

38. Catania Workshop - N.Gazis
Installation Support available on-site from the AD Area Supervisors – (2/2)
Industrial machinery support: The System Leader(s) have to document in the WSCP all needs for industrial machinery (pallet-jacks, lifting devices, truck-rents, scaffolding, etc.). Industrial machinery will be available on-site, following the WSCP instructions. Please, verify availability and use-process with the Area Supervisors. The WP can be requested to fund its specific requests via PCC code, after agreement with the Area Supervisors.
Industrial services support: The System Leader(s) have to document in the WSCP all needs for industrial services support (storage, workshop, lay-down areas, etc.). ESS central services will be provided by the Area Supervisors (waste management, air supply, WiFi, electricity, storage, workshop, lay-down areas, etc.), following the WSCP instructions.
Shielding and sealing materials: The System Leader(s) have to document in the WSCP all needs for shielding and sealing (fire or other) material. ESS-approved shielding and sealing materials will be provided by the Area Supervisors, following the WSCP instructions.
Training courses and certifications: The System Leader(s) have to document in the WSCP all needs for training courses and certification related to installation. The WP have to comply to the certification requested by the Area Supervisors (according to the applicable Swedish legislation and ESS local rules). The WP will fund their training courses, according to their installation needs.
16 January 2017
Catania Workshop - N.Gazis

39. Accelerator Division (AD) – Building access milestones
AD installation plan ESS
02-May-2017 Full Access to G01 Linac Tunnel and FEB level 090
27-Feb-2017 Partial Access to G02 Gallery Technical Area
01-Sep-2017 Partial Access to first part of G02 Gallery (FEB level 100) with 4 first stubs
23-Oct-2017 Partial Access to following part of G02 Gallery with the following 6 stubs
01-Jan-2018 Partial Access to following part of G02 Gallery with the following 11 stubs
31 Mar Full Access to entire G02
AD preliminary site-office needs (changing rooms included accordingly)
Starting in January 2017: 21 accelerator staff are gradualy moving on-site and 17 more hotdesks are reserved for installation people needs
Draft –in progress
16 January 2017
Catania Workshop - N.Gazis

40. Example: General steps of tunnel installation
Current tunnel installation sequence:
Marking
Hole Drilling
Water-cooling pipes installation (inclduing dedicated supports)
Cable trays and grounding bus bar installation (inclduing dedicated supports)
Phase Reference Line (PRL) installation
Stubs (trays, waveguides, cables) installation
NCL and CDS
CryoModules (CMs) and LWUs.
High level of complexity is evident so efficient coordination is explicit!
16 January 2017
Catania Workshop - N.Gazis

41. TA Status, facts & figures
The work to develop the TA progress as expected
the target (in Okt) for IKRC 11 was to present 10 TA
TA to present at IKRC 4 (se separate list)
TA Ready UK 2 (LWU and High Beta cavities manu)
TA endorsed offline 2 (Cryo dist line and test stand)
Collab. Agree. developed 2 (Lund, Grid and Aperture Monitors electronics & Aarhus, WS act)
Tot TA (more TA TBD ?)
TA assigned to a partner 41
TA signed 31
Potential IK open 8 (procurement contracts)
IKRC (all remaining)

42. Planed to be presented at IKRC 11
CEA
WP7
Beam Diagnostics
Neutron beam loss monitor (nBLM)
Signed 2
CNRS
WP11
Cryogenics
Cryogenic distribution line, spoke linac 3
INFN Milan
WP 5
Elliptical Linac
Medium-Beta Cavity Fabrication and Testing 4
ESS Bilbao
WP17
Modulators
ESS Bilbao 3 x Klystron Modulators for NC 5
Wroclaw UT
WP 11
Cryogenic distribution line, elliptical linac
endorsed 6
Cryogenic distributiontest stand 7
Daresbury
WP5
High-Beta Cavity Fabrication and Testing
Ready 8
W12
Vacuum
Test facilities, LWUs (linac warm units), other vacuum, pickups 9
WP3
MEBT
Medium Energy Beam Transport (MEBT)
draft 10
Beam Diagn.
Medium Beta Beam Stop 11
WP8 RF
RF distribution Warm Linac 12
Aarhus University
Development and fabrication o Cold Linac
WS Actuators
Colab 13
Lund Univ.
Beam instrumentation electronics for Target grid and aperture monitors

43. Open Contributions 11.7 Beam Diagnostics
Beam instrumentation for Target grid and aperture monitors (Detectors/beam line components)
Proc start, now
RF amplifiers
Medium-beta klystrons
AIK 8.8
Tender process starts , draft specs.
High-beta klystrons or IOTs
AIK 8.9
Tender latest 2017
11,15
Electrical support
Cables, power distribution cabinets
AIK 15.1
 Tender/IK Q1 2017
11,16
Cooling support
Design, construction, installation of piping
AIK 16.1
Strategy under development
Design, construction, installation of cooling skids
AIK 16.2
Modulators
High-beta modulators
AIK 17.5 VE
11.17
ESS Bilbao 9 x Klystron Modulators for M-Beta
AIK 17.6
ESS Bilbao