Presentation is loading. Please wait.

Presentation is loading. Please wait.

Pressure distribution calculations for the PETS

Published byAnton Otto Modified over 5 years ago

Similar presentations

Presentation on theme: "Pressure distribution calculations for the PETS"— Presentation transcript:

1 Pressure distribution calculations for the PETS
system and the accelerating structure 1- The problem 2- The calculation method 3- Preliminary results Costa Pinto P. 4- Conclusions…and… next? 24 Recent investigations of TS-MME for the CLIC project, 10 of June 2005

2 Possible causes: gas discharges
Possible causes: gas discharges?... Electron bombardment due to field emission?... Problem: RF breakdown in CTF3. Necessary to calculate the pressure distribution inside the PETS and accelerating cavities and correlate it with pressures read by the gauges.

3 The accelerating cavity COMPLEX VACUUM CALCULATIONS

4 Fast implementation, user friendly, easy to upgrade
The calculation method Analytical solution: too many differential equations! Monte Carlo simulation: promising, but long to implement Electrical network analogy: The same differential equations as for the analytical solution… but solved numerically by dedicated software! (PSpice) Fast implementation, user friendly, easy to upgrade

5 The electrical analogy Flow of gas molecules  Flow of electrons
vacuum electric dt dQmolecules = q = C.p dQelectrons dt = I = G.V dp dt q = V. dV dt I = C. Pressure p [Torr] Potential V [V] Volume V [l] Capacitance C [F] Conductance C [l s-1] Conductivity G [W-1] Gas flow q [Torr l s-1] Current I [A]

6 The calculation method Flow of gas molecules  Flow of electrons
vacuum electric q1 q2 S2 V2 P2 I1 C2 G2 I2 V1 G12 P1 G1 C1 C12 S1 Pressure p [Torr] Potential V [V] Volume [l] Capacitance [F] Conductance [l s-1] Conductivity [W-1] Gas flow [Torr l s-1] Current [A]

7 Equivalent circuit for a standard celli
Implementation Equivalent circuit for a standard celli x4

8 Implementation Circuit for the accelerator structure and half of the wave guide to PETS Watch me

9 Steady state (bias point analysis)
Preliminary results Steady state (bias point analysis) Assumptions: Well baked system with outgassing rate of 2x10-12 Torr.l.s-1.cm-2 Gas loads are distributed (current sources) PETS PWG Wave guide Accelerator structure Simulation [Torr] Experimental [Torr] Ptank 1.7x10-10 3.8x10-9 Ptank PWG 3.5x10-10 9.0x10-9 0.49 0.42 OK!

10 Transient analysis: Preliminary results
Simulation of a pressure burst caused by a spark. Assumptions: A 40 ns spark in cell 15 induces gas desorption from a region of 100mm diameter & 1mm deep. gas from 1 monolayer: qm=6.1x10-2 Torr l s-1 gas from 5ppm of O in Cu: qO=1x10-1 Torr l s-1

11 Transient analysis: Preliminary results
Simulation of successive pressure bursts induced by 40ns sparks at 25Hz repetition rate. Assumptions: Each 40 ns spark in cell 15 induces gas desorption from a region of 100mm diameter & 1mm deep. gas from 1 monolayer: qm=6.1x10-2 Torr l s-1 gas from 5ppm of O in Cu: qO=1x10-1 Torr l s-1

12 Transient analysis: Preliminary results
Comparison with experimental data. conditions: Pressure measured by penning gauges and recorded every second. Ptank exp Ptank sim Ptank exp Ptank sim

13 Conclusions PSpice is a useful tool to perform transient vacuum calculations using the electrical network analogy. The simulation of the accelerator structure and half of the wave guide give coherent results. And next?... Complete the simulation (PETS side, HDS) Improve knowledge about the gas released: composition, quantity and time dependence. (increase acquisition rate; install RGA, measure real pumping speed in the tank, calibrated gauges). Analyze experimental data and find gas loads matching the pressure profiles.

14 For the drawings and the photos of accelerator structure.
Thanks: C. Achard For the drawings and the photos of accelerator structure. F. Tecker For the pressure data.

15 Transient analysis Preliminary results
Typical pressure burst on PTank: Pmax~1.3x10-7 Torr

16 Transient analysis Preliminary results
time q Gas load of 6x10-6 Torr.l.s-1 for 1 second in cell 15: max PCell 15~ 3.8x10-6 Torr PCell 15 PTank max PTank~ 1.3x10-7 Torr PCell 15 PTank ~ 30

17 Preliminary results PCell 15 PCell 1 PTank

18 Transient analysis time q Gas load of 6x10-6 Torr.l.s-1 for 1 second in cell 15: max PCell 15~ 3.8x10-6 Torr PCell 15 PTank max PTank~ 1.3x10-7 Torr PCell 15 PTank ~ 30

Download ppt "Pressure distribution calculations for the PETS"

Similar presentations

Tom Powers Practical Aspects of SRF Cavity Testing and Operations SRF Workshop 2011 Tutorial Session.

Tom Powers Practical Aspects of SRF Cavity Testing and Operations SRF Workshop 2011 Tutorial Session.
Introduction to Current In AP C Current I = dq/dt I: current in Amperes (A) q: charge in Coulombs (C) t: time in seconds (s)

Introduction to Current In AP C Current I = dq/dt I: current in Amperes (A) q: charge in Coulombs (C) t: time in seconds (s)
Progress on investigation of dynamic vacuum (RF structures only) Sergio Calatroni With Cedric Garion, Chiara Pasquino, Pedro Costa Pinto, Mauro Taborelli.

Progress on investigation of dynamic vacuum (RF structures only) Sergio Calatroni With Cedric Garion, Chiara Pasquino, Pedro Costa Pinto, Mauro Taborelli.
Recent 30 GHz CTF2 M. Gerbaux, S. Döbert, Jan Kovermann, R. Zennaro.

Recent 30 GHz CTF2 M. Gerbaux, S. Döbert, Jan Kovermann, R. Zennaro.
1 More on gas filled rf cavities Alvin Tollestrup RF One Day Workshop Oct 15, 2008.

1 More on gas filled rf cavities Alvin Tollestrup RF One Day Workshop Oct 15, 2008.
Beam Loss Analysis Tool for the CTF3 PETS Tank M. Velasco, T. Lefevre, R. Scheidegger, M. Wood, J. Hebden, G. Simpson Northwestern University, Evanston,

Beam Loss Analysis Tool for the CTF3 PETS Tank M. Velasco, T. Lefevre, R. Scheidegger, M. Wood, J. Hebden, G. Simpson Northwestern University, Evanston,
High Gradient and High Q R&D Topics 1- Explore Q > 10 10 for TESLA parameter flexibility –higher luminosity through higher rep rate, longer rf pulse… 2-

High Gradient and High Q R&D Topics 1- Explore Q > for TESLA parameter flexibility –higher luminosity through higher rep rate, longer rf pulse… 2-
Design of Standing-Wave Accelerator Structure

Design of Standing-Wave Accelerator Structure
DSMC simulations of Rb gas flow A. Petrenko, G. Plyushchev AWAKE PEB 12.12.2014 CERN Direct Simulation Monte Carlo method (developed by G. A. Bird in the.

DSMC simulations of Rb gas flow A. Petrenko, G. Plyushchev AWAKE PEB CERN Direct Simulation Monte Carlo method (developed by G. A. Bird in the.
VASCO (VAcuum Stability COde) : multi-gas code to calculate gas density profile and vacuum stability in a UHV system Adriana Rossi General equation VASCO.

VASCO (VAcuum Stability COde) : multi-gas code to calculate gas density profile and vacuum stability in a UHV system Adriana Rossi General equation VASCO.
LINAC-4 Ion Source Review Pumping Systems Paolo Chiggiato, Chiara Pasquino, Giovanna Vandoni Technology Department Vacuum, Surfaces and Coatings Group.

LINAC-4 Ion Source Review Pumping Systems Paolo Chiggiato, Chiara Pasquino, Giovanna Vandoni Technology Department Vacuum, Surfaces and Coatings Group.
Vacuum, Surfaces & Coatings Group Technology Department Vacuum tests for CLIC module prototypes 6 November 2013 C. Garion2 Outline: Reminder: specification.

Vacuum, Surfaces & Coatings Group Technology Department Vacuum tests for CLIC module prototypes 6 November 2013 C. Garion2 Outline: Reminder: specification.
Heat Transfer Rates Conduction: Fourier’s Law

Heat Transfer Rates Conduction: Fourier’s Law
Energy Storage Devices Prepared By : Shingala Nital (130590116012) Paghdal Radhika (130590116009) Bopaliya Mamta (130590107008) Guided By : Prof. Tank.

Energy Storage Devices Prepared By : Shingala Nital ( ) Paghdal Radhika ( ) Bopaliya Mamta ( ) Guided By : Prof. Tank.
Vacuum system in the main Linacs C. Garion CERN/TE/VSC CLIC09 workshop, 12-16 October.

Vacuum system in the main Linacs C. Garion CERN/TE/VSC CLIC09 workshop, October.
CIEMAT CONTRIBUTION TO TBL PETS (January 2009) David Carrillo on behalf of the Accelerators Team.

CIEMAT CONTRIBUTION TO TBL PETS (January 2009) David Carrillo on behalf of the Accelerators Team.
EXTREME THEORETICAL PRESSURE OSCILLATIONS IN CORONARY BYPASS Ana Pejović-Milić, Ryerson University, CA Stanislav Pejović, University of Toronto, CA Bryan.

EXTREME THEORETICAL PRESSURE OSCILLATIONS IN CORONARY BYPASS Ana Pejović-Milić, Ryerson University, CA Stanislav Pejović, University of Toronto, CA Bryan.
High Current Density Advanced Cold Cathode Facility * ECE Department, University of Wisconsin, Madison a ; University of Michigan , Ann Arbor b * Research.

High Current Density Advanced Cold Cathode Facility * ECE Department, University of Wisconsin, Madison a ; University of Michigan , Ann Arbor b * Research.
Prof. David R. Jackson ECE Dept. Fall 2014 Notes 27 ECE 2317 Applied Electricity and Magnetism 1.

Prof. David R. Jackson ECE Dept. Fall 2014 Notes 27 ECE 2317 Applied Electricity and Magnetism 1.
Lecture 13 Direct Current Circuits

Lecture 13 Direct Current Circuits

Similar presentations

Ads by Google