CCDTL 4th technical meeting for production of 7 CCDTL modules for Linac4 (ISTC contract #3888 and #3889), 15-17 June 2010 at CERN

Participants:

BINP Novosibirsk: Alexey Tribendis (ISTC Projects 3888/89 manager, deputy RF group leader BINP), Yaroslaw Kryuchkov (design group leader)
*VNIITF Snezhinsk:* Mikhail Naumenko (ISTC Projects 3888/89 sub-manager, design group leader VNIITF), Dmitry Vavasov (design engineer, VNIITF), Vladimir Lomakin (Production Supervisor)
*CERN:* Jean-Pierre Corso (responsible for integration for Linac4), Alessandro Dallocchio (responsible mechanical engineer for Linac4), Gilles Favre (Workshop Supervisor, Coordination of Linac4 Prototyping), Luca Gentini (mechanical engineer), Frank Gerigk (ISTC Projects 3888/89 coordinator at CERN, responsible for accelerating structures in Linac4), Jean-Michel Giguet (testing and installation of Linac4 accelerating structures), Mark Jones (Large Scale Metrology Linac4), Tadeusz Kurtyka (Project Office, External Relations), Luz Anastasia Lopez-Hernandez (responsible for civil engineering Linac4), Benoit Riffaud (mechanical engineer), Carlo Rossi (responsible for RFQ construction and 3 MeV test stand), Stefano Sgobba (material science, deputy group leader MME), Patricia Ugena (RF simulations Linac4), Maurizio Vretenar (Linac4 Project Leader), Rolf Wegner (responsible for PIMS design & construction)

List of talks:

Indico Meeting 97706

Supporting documents in EDMS:

Technical Summary

1. Construction Status at VNIITF
2. Construction Status at BINP
3. Water Cooling
4. Welding Qualification
5. Support Structure

1. Construction Status at VNIITF

Presentation by M. Naumenko:
  • Approximately half of the modules are pre-machined,
  • The grooves for the water channels of the 1st module are machined and the workshop is now waiting for the approval of the welding procedures by CERN,
  • The SERTO fittings, which are connected to the cavity are bought by ISTC. This resolves the problem that these fittings cannot be bought in Russia directly. The purchase order has already been launched.
  • A solution was presented to avoid the trapping of chemicals (during copper plating) in the hidden volume between cavities and coupling cells. A water channel has been added, which can be used to press water through the hidden volume and flush out any remaining chemicals. This procedure was accepted by CERN. It was suggested by S. Sgobba to measure the PH value of the water which is flushed out to judge whether all chemical remains have been removed. After the water cleaning the warm gas (e.g. Nitrogen) should be used to dry the hidden volume.

Planning for July visit at VNIITF

  • The coupling cells and the half cells of the first tank will be machined. It was agreed that some of the half tanks and coupling cells will be copper plated for the visit.
  • There was concern that the copper plating might be damaged when doing a metrology check (with a rigid bar inserted in the beam pipe along a module) on the assembled module. However, several solutions were discussed how to avoid any damage.
  • A rough alignment check will have been done before the visit.

2. Construction Status at BINP

Presentation by A. Tribendis:
  • Altogether 50 drift tubes and stems will be prepared. This includes 8 spares, which will not be final machined, and the welding of drift tube to stem will not be done the spares to allow for final machining of the drift tubes on a turning machine.
  • Several aluminum dummy drift tubes with different sizes have been prepared for the tuning. These will be used to determine the precise dimensions of the copper drift tubes to arrive at 352.2 MHz.
  • Rough machining of drift tube bodies is ongoing.
  • It was calculated that around 700 g of gold will be used for the brazings..

Further construction planning

  • June/July: turning operations on drift tubes and stems.
  • July: machining of cooling channels,
  • August: brazing of drift tube bodies, rough machining of 50 drift tubes finished, machining operations of 50 stems finished,
  • The remaining fine machining will be done after measurements with aluminum dummies on the actual cavities.

3. Water Cooling

  • CERN announced that it does not want to install large manifolds, which can be used for the cooling for high duty-cycle (SPL type) operation. Instead a simplified cooling will be installed that only covers the needs of Linac4 operation.
  • CERN decided to reserve space for large manifolds on the ground close to the structures.
  • CERN needs to verify which hoses to connect to the foreseen SERTO fittings (SO 51429-12 weld-on, and SO51121-12-3/8 screw-on), and which connectors to use.
  • For the water pressure tests at BINP, BINP will use simple hoses and no special connectors are needed.
  • The final hoses will be ordered by CERN after a first mounting at BINP. From this test the total amount of hoses will be estimated.
  • BINP will calculate the pressure drop when connecting several channels of a module in series. Ideal would be 2 circuits for the 3 tanks and 2 circuits for the drift tubes. This would result in a "symmetric" heating pattern along the modules. The maximum pressure drop should not be more than 4 bars per circuit and the water flow speed should be ~1 m/s. At the PIMS CERN has calculated a pressure drop of 1.5 bar per circuit (4 discs) when assuming a flow speed of ~1 m/s.
  • BINP will make a suggestion for the design of a 4 fold splitter (mini-manifold) that can be used for the modules.
  • It was decided to place the 4-fold splitters on the ground, in order to block the space already for future, larger manifolds.
  • CERN will bring a sample hose to the visit at VNIITF.

4. Welding Qualification

  • After the tests of the welding samples EDMS 1072458, restricted access, which have been provided at the 3d technical meeting, new welding samples were presented. Here, a new procedure was applied for the welding of the cooling channels .

5. Support Structure

-- FrankGerigk - 17-Jun-2010


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Topic revision: r1 - 2010-06-17 - FrankGerigk
 
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