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H
N.K. KA
Abstract Budker InRussian Acaactivity in thaccelerators oand researchELV-type acunified systethe specific parameters sof extractionelectron accerange from 0electrons of 400 kW. Thelong term anunder the coThe ELV acnot only in R
Radiochemaccelerators developed instrongly conthereby, conuniqueness. electron beastimulation purification, etc., are wiaccelerators and researchThat leads production technologiesnew and, som Budker InBranch of Rworld leaderand applicati(such as DChigh-voltage accelerators)of which arsome of thequality allowindustrial acc
HIGH VOAPPL
Kuksanov, YA.I. Korchag
stitute of Nucademy of Sc
he developmenof the ELV-tyh radiation-teccelerators w
ems and units requirementsuch as the enn window, eelerators of th0.3 to 2.5 Mup to 400 mAe design and nd round-the -onditions of icelerators are
Russia, but in C
INTROmical technolas ionizing ran the early solidated in wnfirmed theirThe technoloams for poor initiation waste water
idely used inare installed ah centers and
to growth and develop, where elect
metimes, uniqustitute of Nuc
Russian Acaders in the devion of electron
C accelerators rectifier, high, the accelera
re much morem. Their comwed BINP to celerators mar
OLTAGELICATIO
TENY.I. Golubengin, D.S. Ko
clear Physics Science (SB Rnt and manufaype for their uechnological
were designedenabling thu
s of the custonergy range, betc.. INP proe ELV-type ceV with a be
A and maximuschematic sol-clock operatiindustrial proe especially poChina, Korea,
ODUCTIONogies with thadiation sourcsixties. By
world industrir efficiency gical processlymer radiatof chemical
s treatment, n modern inand operated id applied-rese
of radiationpment of ntron beams aue properties.
clear Physics (emy of Scien
velopment, den acceleratorsof continuou
h-frequency aated electron re. ELV-seriempact size anstand as a learket as in Russ
ELV ACN (FAMI
NDENCY nko, P.I. Neogut, A.V. S
Siberian BranRAS) continuacturing of eleuse in the indu
installations. d with use ous to adapt theomer by the eam power, leposes a serieovering the en
eam of acceleum power of lutions providion of accelerduction proceopular acceler and etc.
N he use of eleces were generecent, they
ial productionas well as es with the ution modifica
reactions, smgrain disinfec
ndustry. A loin different scearch laboraton-modified gnew matters are used to o (BINP) of Sibnces is one oesign, manufas of different sus action baseaccelerators, penergy and p
es acceleratornd high functading institutisia and abroad
CCELERAILY OF AOF DEV
emytov, R.ASemenov, B
nch of ue its ectron ustrial
The of the em to main ength es of nergy erated up to
de the rators esses. rators
ectron erally
y had n and,
their use of ation, moke ction, ot of
cience tories. goods
and obtain
berian of the acture series ed on
pulsed power rs are tional ion at d.
ELVparalinstawindtranscoil
on ivoltarecticonntermtherelocat Alfilledaccethis allowThe fixedcathohave
ATORS FACCELERELOPME
A. Salimov,BINP SB RA
DESIGV high voltage
llel inductivealled inside ding is supplisistors. The opof secondary
its ends 20 kage doubling fying section
nected either iminated with th
e is the injectoted inside the ll these elemed with SF6.lerators are thclass. Accele
w to recoveryvacuum syste
d to the bottoode, placed one the total
FOR INDURATORSENT) S.N. FadeevAS, Novosi
GN OF ACCe power sourcee coupling. the primary
ied with frequperation frequwinding has
kV. This voltcircuit. Thus,is 40 kV. T
in series. The he high voltagor control unitcolumn of hig
ents are instal Due to thhe most comperator is equipy SF6 during em componentm of the tankn the upper enenergy eU0
Figure 1. ELV
USTRIALS AND
v, A.V. Lavibirsk, Russ
CELERATe is cascade gThe rectifie
y winding. Tquency converuency is near maximum ind
ltage is rectif, the output v
The rectifyingrectifier secti
ge electrode int. The accelergh voltage reclled inside of hese circumspact among thpped with ga
service and ts and extractik. Electrons end of the acce on the ou
V-8 accelerato
L
vruhkin, ia
TOR generator withr column isThe primaryrter on IGBT400 Hz. The
duced voltage
fied with thevoltage of theg sections areion column is
nside of whichating tube are
ctifier. pressure tanktances ELV-he devices ofs system thatmaintenance.
ion device aremitted by the
elerating tube,utput of the
or.
h s y T e e
e e e s h e
k -f t . e e , e
Proceedings of RUPAC2012, Saint|-|Petersburg, Russia FRBCH03
Medical and industrial applications
ISBN 978-3-95450-125-0
227 Cop
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htc ○
2012
byth
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tive
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accelerating they reach homogeneouelectromagnescanned in 2The irradiatethe extractionthe beam rmonitored by
Figure 2. accelerator.
Market comaterials fomore poweenabling to compound anTable 1 andcontracts.
Table 1 Energy, MeV Amount
Table 2 Power, kW
1
amount 1
As it is share distributeenergy in acthem are of developmentof accelerato
tube. Passinthe extract
usly distributeets and then directions alo
ed material is n window. Draster positioy oscilloscope
Double wind.
CURREonditions and rms the indu
erful and eincrease the
nd expensive d 2 shows ac
1 or less
14
100 70
14 1
hown in Tabled enough evccordance wi100 kW pow
t of ELV modors power with
g through thtion device d along the foextracted intoong and acrostransported u
Due to special on on extrae.
dow extractio
NT STATUgrowing dem
ustrial manufffective elecvolume of pinputs for chacelerator para
1,5
14
50
1
les 1, 2 the nvenly startingith maximum
wer. That is wdel range goehin the range
he vacuum sywhere they
oil by the scano air. The beass the foil winunder the framelectronics d
action window
on device of
US mands for modfacturers needctron accelerproduction wiange all equipmameters of la
2,5
10
20 (mobile) 2
needed accelerg from 1 MeV
m energy. Mowhy, at presen
s towards incof 1.0…1.5 M
ystem y are nning am is ndow. me of device w is
f ELV-12
dified ds in rators ithout ment.
ast 38
rators V by
ost of nt, the crease MeV.
EarlicurremA. appeMeVaccodimemod− praccuacco− mequipauxiletc.
Figacc
accepreseinduefficscanThe mm irrad
ier, we can obent 100 mA a
There waseared 3 new mV and maxiordingly. Thension type ex
dels enabling throduction of urately satisfyount present anmodification pment withouliaries such as
gure 3: Struccelerators.
Another lerators is adent technologi
ustrial technociency in acconning and bea
length of extrup to 2000
diate two and m
Figure 4. Mo
btain 100 kW and 2.0 MeVs redesigned
models with mimal current ose acceleraxtend power ahe following: more powerfexisting prod
nd new industrand/or repl
ut changing ts rewinding lin
cture and di
important dirdaptation of ical equipmenologies. So, ordance with am extractionraction window
mm (see Fimore types of
odification of e
W at 1.0 MeV wV with maxim
ELV-4 accmaximal energy
100, 83 aators designand energy ran
ful electron bduction needtrial technologplacement of
the existing nes, take up &
dimensions o
rection in deaccelerator c
nt and their intto increase
the customern systems wew was increasigure 5). Thif products.
extraction win
with maximalmal current 50celerator andy 1.0, 1.2, 1,5and 67 mA
ned in newnge of earliest
beams, whichs, taking into
gies; f acceleratortechnological
&payoff units,
f ELV4-1,2
velopment ofcomplexes totegration withe productionrs’ needs, theere modified.sed from 1600is enabled to
ndow.
l 0 d 5 A w t
h o
r l ,
f o h n e .
0 o
FRBCH03 Proceedings of RUPAC2012, Saint|-|Petersburg, Russia
ISBN 978-3-95450-125-0
228Cop
yrig
htc ○
2012
byth
ere
spec
tive
auth
ors—
ccC
reat
ive
Com
mon
sAtt
ribu
tion
3.0
(CC
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3.0)
Medical and industrial applications
Other exampproductive efon visualizatechnologicatransportation
Figure 5. Pa Concerninaccelerator foperation anduring 5 year
Figure 6. There waswas made tKorea EB-Tshielding wainstallation i
ples of integrafficiency are i
ation of accelal irradiation pn system deve
arameters of ang the highfor environmend proves advrs we have no
Irradiation has developed mtogether withTECH. Accelas installed inis demonstrati
ation allowinginformation-mlerator currenprocess (Fig.6eloped in BIN
accelerator ELh power ELental applicatvantage of EBo orders for su
all of 400 kW movable acceleh our collabolerator togethside trailer. Mion of EB tre
g improvemenmeasuring comnt parameters6) and under-b
NP.
LV operation.LV-12 400 tion: it contB technologiech accelerator
accelerator. erator. This prorator from Sher with radiMain reason oeatment. Extra
nts in mplex s and beam
kW tinues es but rs.
roject South iation
of this action
devisubsSaud ELtechnaccethemacce
Thiand
[1]
[2]
[3]
ce is adapted tances. EB-TE
di Arabia and LV acceleranologies whlerators were
m are under oplerator has ag
is work was isScience of the
N. Kuksanoval, «High PoApplication» Protvino, RusS. Fadeev, Sato expand accelerators",Workshop onAccelerators iOctober 1-4, Eurasia", NovN. KuksanovNovosibirsk,and the iaccelerators”,http://vant.kip
Figu
for treatmentECH already rmade demons
ators are uere electron delivered in
peration until e 32 years.
s supported bye Russian Fede
REFEREN, S. Fadeev, Yower ELV A
// Proceessia, 2010 alimov R., et a
technologi Proceedingsn the Applicain industry an2001. 68. Se
vosibirsk, 200v, S. Fadeev“The develop
improvement , VANT №3 Mpt.kharkov.ua
ure 7. Movable
nt the flow of replaced this stration experiused practic
beam is 12 countries.now. The old
y the Ministryderation.
NCES Y. GolubenkoAccelerators feding of R
al, "Underbeaical capabis of the X ation of Cha
nd medicine, See also Bulle
02. p. 8. v, et al, BINpment of the
of the March 2012,
e accelerators
gas or liquidaccelerator iniments. ally in allneeded. 140 The most of
dest operating
y of Education
o, D. Kogut etfor IndustriesRuPAC-2010,
am equipmentilities ELV
Internationalarged ParticleSt. Petersburg,tin "Radteh -
NP SB RAS,model rangeperformance
p. 15 (1996);
.
d n
l 0 f g
n
t s ,
t V l e , -
, e e ;
Proceedings of RUPAC2012, Saint|-|Petersburg, Russia FRBCH03
Medical and industrial applications
ISBN 978-3-95450-125-0
229 Cop
yrig
htc ○
2012
byth
ere
spec
tive
auth
ors—
ccC
reat
ive
Com
mon
sAtt
ribu
tion
3.0
(CC
BY
3.0)