• Title of article

    Design of an 18 MW vortex flow water beam dump for 500 GeV electrons/positrons of an international linear collider

  • Author/Authors

    Satyamurthy، نويسنده , , Polepalle and Rai، نويسنده , , Pravin and Tiwari، نويسنده , , Vikas and Kulkarni، نويسنده , , Kiran and Amann، نويسنده , , John and Arnold، نويسنده , , Raymond G. and Walz، نويسنده , , Dieter and Seryi، نويسنده , , Andrei and Davenne، نويسنده , , Tristan and Caretta، نويسنده , , Ottone and Densham، نويسنده , , Chris and Appleby، نويسنده , , Robert B.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2012
  • Pages
    15
  • From page
    67
  • To page
    81
  • Abstract
    Beam dumps are essential components of any accelerator system. They are usually located at the end of the beam delivery systems and are designed to safely absorb and dissipate the particle energy. In the second stage of the proposed International Linear Collider (ILC), the electron and positron beams are accelerated to 500 GeV each (1 TeV total). Each bunch will have 2×1010 electrons/positrons, and 2820 bunches form one beam bunch train with time duration of 0.95 ms and 4 Hz frequency. The average beam power will be 18 MW with a peak power of 4.5 GW. The FLUKA code was used to determine the power deposited by the beam at all critical locations. This data forms the input into the thermal hydraulic analysis CFD code for detailed flow and thermal evaluation. Both 2D and 3D flow analyses were carried out at all the critical regions to arrive at optimum geometry and flow parameters of the beam dump. The generation and propagation of pressure waves due to rapid deposition of heat has also been analyzed.
  • Keywords
    Window cooling , Primary coolant circuit , pressure waves , Beam dump , International linear collider , 500  , GeV electron/positron , 18  , MW beam power , thermal design , CFD analysis , RADIOACTIVITY
  • Journal title
    Nuclear Instruments and Methods in Physics Research Section A
  • Serial Year
    2012
  • Journal title
    Nuclear Instruments and Methods in Physics Research Section A
  • Record number

    2206002