Last edited by Arashizragore
Thursday, July 16, 2020 | History

2 edition of High Current Proton Linear Accelerators and Nuclear Power. found in the catalog.

High Current Proton Linear Accelerators and Nuclear Power.

Atomic Energy of Canada Limited.

High Current Proton Linear Accelerators and Nuclear Power.

by Atomic Energy of Canada Limited.

  • 388 Want to read
  • 18 Currently reading

Published by s.n in S.l .
Written in English


Edition Notes

1

SeriesAtomic Energy of Canada Limited. AECL -- 5622
ContributionsTunnicliffe, P.R., Chidley, B.G., Fraser, J.S.
ID Numbers
Open LibraryOL21970756M

from linear acceleration would require constant acceleration over distances of order V=( V m 1) ˘ m. Linear accelerators The problem we encounter with a constant electric eld is that to achieve high energies we need an enormous potential di erence. Large potential di erences tend. Get this from a library! Utilisation and Reliability of High Power Proton Accelerators: Workshop Proceedings, Mito, Japan, October [Organisation for Economic Co-operation and Development.; NEA.] -- The use of high power particle accelerators in various areas of applied nuclear science is presented with special emphasis on accelerator driven reactor systems (ADS) for .

This chapter was published on “Inuitech – Intuitech Technologies for Sustainability” on Febru 1 NUCLEAR ACCELERATORS: An Electrostatic Nuclear Accelerator is one of the two main types of particle accelerators, where charged particles can be accelerated by subjection to a static high voltage static high voltage method is contrasted with the dynamic fields used in. possible the construction of high-intensity proton accelerators (10 Milliamp current or higher) at energies exceeding 1 GeV. Fermilab is developing a design of a High Intensity Proton Linac (Project-X) to support future High Energy Physics Programs. The workshop proposes to bring together researchers working in areas as diverse as Production of.

High-current, cw linear accelerators have been proposed as spallation neutron source drivers for applications to tritium production, transmutation of nuclear waste, and safe nuclear power generation. Key features of these accelerators are high current ( mA) low emittance-growth beam propagation, cw or high duty-factor operation, high efficiency, and minimal maintenance downtime. Abstract: We seek to develop accelerator-driven subcritical (ADS) nuclear power stations operating at more than 5 to 10 GW in an inherently safe region below criticality, generating no greenhouse gases, producing minimal nuclear waste and no byproducts that are useful to rogue nations or terrorists, incinerating waste from conventional nuclear reactors, and efficiently using abundant thorium.


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High Current Proton Linear Accelerators and Nuclear Power by Atomic Energy of Canada Limited. Download PDF EPUB FB2

The high energy(MeV) range of high-intensity, CW proton linear accelerators. (3) to develop high power CW klystrons and RF systems. The tasks of recent late years are (1) to complete the front end (including the ion source, LEBT and RFQ) of the proton beam test facility.

Calculation of High-current Linear Proton Accelerator for the Energy of 80 MeV S. Dolya and I. Sarhadov Joint Institute for Nuclear Research, Joliot - Curie 6, Dubna, Russia, Abstract The article considers an opportunity of pulsed acceleration of the proton beam with current Ip = A in a spiral waveguide.

The accelerator consists. High power proton linacs for different applications are considered. CW proton linac with output energy 1 GeV and beam current mA is proposed for power production during weapon plutonium conversion inside thorium circle.

The accelerator for APT (the Accelerator Production of Tritium) Project is a mA CW proton. A possible role that high-current proton linear accelerators might play as ″electrical breeders″ in the forthcoming nuclear-power economy is outlined. A high-power beam of intermediate energy.

Suggestions for superpowerful linear accelerators for electronuclear setups and high-intensity neutron generators are reviewed. The most important technical solutions, the characteristic features, and the state of the projects for linear accelerators with average accelerated beam power from 1 to MW are examined: APT, SNS, JAERI/KEK, TRISPAL, TRASCO, ESS, KOMAC, Energy Author: N.

Lazarev, A. Kozodaev. Two high current % duty factor dc accelerators have been built and are being com­ missioned at Chalk River. One is a keV accelerator designed to investigate problems in the acceleration of dc proton beams in the mA range; the other is a 25 rnA, keV D+ dc 12 Schemes for high-power accelerators to be used in electronuclear facilities are reviewed.

The possibilities of the electronuclear method of obtaining energ The parameters of accelerators which are currently operating, under construction or being designed in the world for subcritical reactor schemes, complexes for salvaging wastes and power neutron generators are presented.

JAERI) on the Utilisation and reliability of high power accelerators, the NEA Nuclear Science Committee decided to organise a workshop on the subject.

The workshop was hosted by JAERI and was held in Mito, Japan on October These proceedings contain all papers presented at the workshop, including summaries of two. In the low energy accelerator part, a beam test with an ion source and an RFQ has been performed with a current of 80 mA and a duty factor of 10% at an energy of 2 MeV.

A 1 m long high power test model of DTL has been fabricated and tested with a duty factor of 20%. The ideas on the use of high intensity accelerators in nuclear energy Development was proposed a few decades ago which demonstrate that a commercial nuclear power plant of adequate power can also be built provided it can be fed externally with required intensity of accelerator-produced neutrons.

NITTTR Chandigarh 7. Recent advances in superconducting radiofrequency technology have made it possible to construct high-intensity proton accelerators with 10 Milliamps of current or higher and energies exceeding 1 GeV.

Fermilab is developing a design of a High Intensity Proton Linac, known as ProjectX, to support future High Energy Physics Programs. (Japan), ISIS (Great Britain) are driven with proton lin-ear accelerators. In a short time it is supposed to in-crease considerably the neutron generation at the meson factory in Los Alamos, on the linear proton accelerator, with the beam current of mA and energy of MeV using the entire accelerated beam for the neu-tron production.

Ph.D., experimental nuclear physics, U of Illinois Accelerators sinceLBNL since Designed and commissioned: 5 RFQs 2 Drift-tube Linacs 1 Heavy-Ion Wideroe Superconducting electron accelerator Many beam lines Current interests: Fiber optics-based femtosecond timing systems High pulse rate photoinjectors.

Research works on the concepts in designing of high current proton (ion) linear accelerators with the output energy of about 1 GeV for electronuclear purposes are carried out in MRTI for years [1–8]. The works are curried in two aspects: development of CW linac with current of 10–30 mA (first.

New generation high power hadron accelerators are more and more required to produce intense fluxes of secondary particles for various fields of science: radioactive ions for nuclear physics, muons. COVID campus closures: see options for getting or retaining Remote Access to subscribed content.

Pulsed linear accelerators for spallation sources pulsed spallation sources and for nuclear waste transmutation [5]. the following we discuss two specific applications of high intensity proton accelerators for application in high-brightness and high intensity proton and deuteron linear accelerators [4].

In Karlsruhe for a proton accelerator [3]. high-power proton accelerator configuration under con-sideration as composed by the following main systems and components [4]: (1) An injector, that is a proton source followed by a 5MeV Radio Frequency Quadrupole (RFQ) and a (possibly normal conducting) intermediate accelerator stage to the transition energy from 5 to 50MeV.

Possibly, as will. We highlight some of the results of an ongoing program at the National Atomic Energy Commission (CNEA) in Argentina to develop low energy ( to MeV), high current ( mA) proton and deuteron electrostatic accelerators for nuclear and medical applications.

of high-level long-lived radioactive wastes exist in spent fuel. Recently the accelerator driven subcritical nuclear power system (ADS) attracts the interest of the international nuclear community.

In ADS a heavy nucleus target in the subcritical reactor is bombarded by the high power proton beam from an accelerator and a large amount of. High Current Proton Fixed-Field Alternating-Gradient Accelerator Designs A thesis submitted to The University of Manchester for the degree of Doctor of Philosophy (PhD) in the faculty of Engineering and Physical Sciences Samuel C T Tygier School of Physics and Astronomy based on linear accelerators.

However, the CERN-group and researchers at Brookhaven propose to use a proton cyclotron. The proposed accelerator-driven energy pro-duction system at Los Alamos includes a high-energy proton beam linear accelerator, a heavy-metal target (lead or lead-bismuth), and a liquid fuel system.

Liquid fuel is attractive.Chain of accelerators: • 3 injectors (High charge state injector (EBIS source+linac), Tandem injector, proton linac) • Booster SynchrotronBooster Synchrotron • Alternating Gradient Synchrotron • RHIC miles circumference storage ring D.

Leitner, JulySlide