ebara variable speed and constant pressure booster system
TRANSCRIPT
409
EBARA VARIABLE SPEED and CONSTANT PRESSURE BOOSTER SYSTEM
UN
The EBARA Hydro Booster system consists of two or moreEVM pumps coupled in parallel and mounted on acommon baseplate, integrally provided with a EBARAHydro Controller electrical cabinet and all the necessarycommon pipe work and fittings. All EBARA Hydro Boostersystem is factory assembled and tested, pre-set accordingto customer requirement. It is ready-to-connect at site.Scope of supply includes instruction manual.
Fully assembled and certified Hydro Booster set type UNgenerally consist of multiple pumps arranged in parallel,mounted on a common baseframe, pipework completewith EBARA microcomputer controller unit, frequencyinverters, pressure sensor and complete with all internalelectrical wiring.
EBARA Hydro Booster system type UN is a variablespeed control booster system utilising advance andproven microcomputer namely EBARA HydroController unit to provide constant pressure to suityour system requirement.
Applications• General water supply i.e schools, hotels, hospitals, high-
rise buildings, etc.• Industrial water supply• Irrigation system for garden, parks, golf courses, etc.• All booster pump station
Pumps2 or more EBARA pumps are arranged for paralleloperation. All parts contact with liquid are of stainless steel.
Baseframe & Common Pipe workGalvanized pipe work enable easy connection to allcommonly used pipe fittings. The pipework is sizedsuitable for maximum hydraulic unit capacity. Check valve
and suitable gate valves are fitted for optimal systemoperation.
Diaphragm Pressure TankA pre-charged diaphragm tank is fitted to the dischargepipe with a compatible Butyl-rubber diaphragm. Generallythis tank serves basic functions of supplying water at avery low flow and minimising effect of water hammering.
Pressure Sensor1-5V to transmit control type signals to the EBARA HydroBooster Controller, located at the discharge side or/suctionside (depend on systems offered).
Frequency ConverterConstant water pressure is achieved due to variablespeed drive made possible by the use of frequencyconverters. To ensure highly reliable EBARA system, eachpump is equipped with frequency converter unit, thusensure optimal operation of pumping system.
Flow SwitchFlow switch is used to enhance system operation byreceiving signal to cut-out pump operation during low-flow or no-flow condition. Thus can be used as dry-runningprotection device.
Ebara ControllerThis micro-processor controller unit is fitted to the HydroBooster Control Panel to control variable speed pumpingoperation. It provides ‘One-touch’ operating possibility tointerpret various signals from pressure transmitter andflow switch, thereby enhance constant pressure systemoperation. In addition, it provides various advanceoperative functions that maintain constant pressure andtrouble-free water supply system.
410
ISOMETRIC DRAWING
UN
2 Controller
10
Discharge Manifold
Check Valve 11
Gate Valve
Pressure Transmitter
Expansion Tank
Suction Manifold
Pressure Gauge
Pressure Switch
6
8
9
7
Pump
4
5
3
Part Name
Control Panel 1
No.
12 Flow Switch
11
9 10
8
7
2
1
3
4 5
6
12
411
EBARA VARIABLE SPEED BOOSTER SYSTEM
UN
412
EBARA VARIABLE SPEED BOOSTER SYSTEM
UN
1. Advance energy saving systemThis unit is operating on variable speed drive controlincorporated with logic control system. Thus saving energyfor most demanding conditions.
2. Constant pressure water supplyThe variable speed pumping system would ensureconstant water pressure for the furthest point with pipefriction loss compensation capability.
Fig. Pipe Friction Loss Compensation Operation
3. Highly reliable inverters being usedIndividual frequency inverters are provided for each pump,thus reduces emergency risk with automatic change overand back-up system. During pump or inverter failure,second pump will start automatically and back-upoperation to ensure water supply continues.
Fig. Custom Design Control Panel
4. User-friendly operationEbara unique controller permits easy access and displaysmost data in the front panel. The controller is amicrocomputer board with LCD operation adjustment andinstant information display.
Fig. Ebara Proven - Designed Controller
5. Cyclic & forced cyclic operationDuring continuous operation, if the pump continuouslyrun over 6 hours, second pump will start to run paralleland then change over to new one. This would ensureeven operating hours for multiple pumping system; thusprolong life span of pumps.
Fig. Cyclic Operating System
Fig. Forced Cyclic Operation
6. APNC & APR System
Fig. APNC - Automatic Pump Number Charge-Over System
Fig. APR - Automatic Pump Rest At Small Demand
413
EBARA VARIABLE SPEED BOOSTER SYSTEM - OPERATION METHOD
UN
➉➄➀ ➅
➈➇➆➃➂➁
Ad
vanc
e p
ump
sta
rt
Ad
vanc
e p
ump
sta
rt
Ad
vanc
e p
ump
sto
p
Ad
vanc
e p
ump
sto
p
2nd
pum
p s
tart
3rd
to
5th
pum
p s
tart
5th
to 2
nd p
ump
sto
p
2nd
pum
p s
tart
3rd
to
5th
pum
p s
tart
5th
to 2
nd p
ump
sto
p
When water flow is low
When water flow is great
A. When water flow is low1 If water is used, the inner pressure of the pipes drop,
triggering the pressure sensor, and advance pump(Ex: No.1) starts up.
5 If water stops being used, the flow switch is triggered,and advance pump (Ex: No. 1) stops after the requiredtime has elapsed. At this time, the advance pumprotates. (Ex: The advance pump changes from No. 1to No. 2)
6 If water is used again, the inner pressure of the pipesdrops, triggering the pressure sensor, and advancepump (Ex: No. 2) starts up.
10 If water stops being used, the flow switch is triggered,and advance pump (Ex: No. 2) stops after the requiredtime has elapsed. At this time, the advance pumprotates. (Ex: The advance pump changes from No. 2to No. 3.) In the same way, the advance pump rotatesin order from No. 3 to No. 4, No. 4 to No. 5 and No. 5to No. 1, while steps 1 , 5 , 6 , and 10 arerepeated in order.
B. When water flow is great1 If water is used, the inner pressure of the pipes drop,
triggering the pressure sensor, and advance pump(Ex: No.1) starts up.
2 If the flow continues to increase, the rotational speedof advance pump reaches maximum and 2nd pump(Ex: No. 2) starts up.
3 As the volume of water used increases in order, thedelayed pumps starts in order from the 3rd (Ex: No.3) to the 4th (Ex: No. 4), to the 5th (Ex: No. 5), to amaximum of 5 pumps.
4 If the volume of water used decreases, the flow switchis triggered and the delayed pumps shut down inorder, eventually leaving only the advance pumpoperational.
5 If water stops being used, the flow switch is triggered,and advance pump stops after the required time haselapsed. At this time, the advance pump rotates. (Ex:The advance pump changes from No. 1 to No. 2.)
6 If water is used again, the inner pressure of the pipesdrops, triggering the pressure sensor, and 2nd pump(Ex: No. 2) starts up.
7 If the flow continues to increase, the rotational speedof advance pump (Ex: No. 2) reaches maximum and2nd pump (Ex: No. 3) starts up.
8 As the volume of water used increases in order, thedelayed pumps start in order from the 3rd (Ex: No. 4)to the 4th (Ex: No. 5), to the 5th (Ex: No. 1), to amaximum of 5 pumps.
9 If the volume of water used decreases, the flow switchis triggered and the delayed pumps shut down inorder, eventually leaving only the advance pumpoperational.
10 If water stops being used, the flow switch is triggered,and advance pump (Ex: No. 2) stops after the requiredtime has elapsed. At this time, the advance pumprotates. (Ex: The advance pump changes from No. 2to No. 3.)In the same way, the advance pump rotates in orderfrom No. 3 to No. 4, No. 4 to No. 5, and No. 5 to No.1, while steps 1 - 10 are repeated in order.
414
EBARA VARIABLE SPEED BOOSTER SYSTEM - CONTROLLER
UN
The heart of the system is the EBARA controller unit,which is user-friendly and permits ‘One-touch’ operation.It controls the sequence of pump operation with signalsinput from the pressure sensor and/or flow switch in Auto& Alternate mode. This user-friendly controller unit oper-ates compatible with other electrical components to en-sure smooth function of booster system.
EBARA controller unit generally provides the below‘One-touch’ functioning features:
1 x Power on indicating light1 x Power selector switch (ALT/PAR/Rotation/P1 to P5)1 x Mode selector switch (Auto/Test)1 x Power main on off switch1 x Set switch1 x Function / Monitor switch1 x Buzzer stop switch1 x Alarm reset switch1 x Run switch1 x Stop switch1 x LCD System parameter displays
415
EBARA VARIABLE SPEED BOOSTER SYSTEM - UNIQUE FEATURE
UN
Unique Feature- Receiving (Water) tank
Note 1. * Short circuit E12-E15, E22-E25 (when using the dual tank system) with the jumper cable (included).2. Water reduction is detected by timer control. Therefore, the empty display may be triggered during
the period when the suction amount is greater than the volume of water flowing into the water tank.
PROTECTION FEATURESAutomatic back up system ensure smooth andcontinuous pumping operation during thebelow malfunction:- electrical leakage,- discharge pressure drop,- inverter tripped
Freezes pump Operation when Low Waterlevel at suction tank. Fault Display for below:- suction tank water level- system interlock- electrical leakage- low discharge pressure. *Option (IN-LINE
BOOSTING mode)
The same operation conditions of the pumping system can beobserved and monitored at remote station with only 2 wire connection.No additional electrical supply is required. Buzzer is provided, anddistance within 500 m is permissible.
Display Items:1)Normal display
Digital : Discharge pressure, Pump Operation Hz (each pump).Operation current (each pump), Voltage.
Others : Electrical source (LED Display).Operation mode (Auto, Test, No. of Pump)System interlock.
2)Fault DisplayDischarge pressure drop (each pump),Inverter fault (each pump),Water level (over-flow, insufficient, shortage conditions).
REMOTE MONITORING FEATURES
416
SPECIFICATIONS FOR VARIABLE SPEED PRESSURE BOOSTER UNIT
UNO
pti
on
al
Sta
nd
ard
Item
Inve
rter
var
iab
le s
pee
d c
ontr
ol d
rive
Pum
p s
pee
dO
per
atio
n sy
stem
Con
stan
t p
ress
ure
with
sys
tem
loss
com
pen
satio
nP
ress
ure
cont
rol
Sin
gle
alte
rnat
e, P
aral
lel a
ltern
ate,
Up
to
5 p
ump
s cy
clic
Num
ber
of p
ump
con
trol
Pum
ps
rest
at
smal
l flo
w r
ate
Out
doo
rIn
doo
rIn
stal
latio
n ar
ea
Am
bie
nt t
emp
erat
ure
Up
to
40ºC
Wea
ther
-pro
of a
vaila
ble
Ver
tical
mul
tista
ge P
ump
: Mod
el E
VM
Pum
p3M
, CD
X an
d ot
her E
BA
RA
mod
elTh
ree
pha
se, 3
80/4
00/4
15 V
, 50
Hz
Pow
er s
ourc
eP
re-c
harg
ed D
iap
hrag
mTy
pe
Pre
ssur
e ta
nkO
ver
18L
18L
Cap
acity
Up
to
20 b
ar10
bar
Max
. wor
king
pre
ssur
e3
Wire
for
DC
12V
Pre
ssur
e se
nsor
Out
put
Vol
tage
1 -
5V
Wat
er le
vel b
oard
,In
vert
er (e
ach
pum
p),
Con
trol
pan
el (R
emot
e ty
pe)
Mai
n co
mp
onen
tsC
ontr
ol p
anel
& C
ontr
olle
rM
ain
sup
ply
noi
se fi
lter
Sur
ge p
rote
ctor
Mai
n ci
rcui
t b
reak
er, M
ain
cont
rol C
PU
boa
rdIn
terf
ace
boa
rd, P
ilot
light
, Iso
lato
r, V
olta
ge d
etec
tion
boa
rdC
ontr
ol c
ircui
t no
ise
filte
r, E
lect
ric le
akag
e b
reak
erE
lect
ric t
herm
al d
evic
e, c
ontr
olle
d b
y m
icro
com
put
erP
rote
ctio
nD
isch
arge
pre
ssur
e {d
igita
l dis
pla
y}P
ump
op
erat
ion
curr
ent
{dig
ital d
isp
lay}
Vol
tage
{d
igita
l dis
pla
y}P
ump
op
erat
ion
freq
uenc
y {d
igita
l dis
pla
y}P
ower
{re
d L
ED
}O
per
atio
n co
nditi
on {
runn
ing
pum
p}
Op
erat
ion
mod
e {A
utom
atic
or
man
ual}
Sto
rage
tan
k se
lect
ion
{Tan
k 1
or 2
}S
tora
ge t
ank
wat
er le
vel c
ond
ition
{no
rmal
}S
yste
m in
terlo
ckFa
ilure
: S
hort
age
or fu
ll of
sto
rage
tan
k
Low
dis
char
ge p
ress
ure.
*O
ptio
n: IN
-LIN
E B
OO
STI
NG
mod
e
Inve
rter
trip
Dis
pla
y Ite
ms
Pum
p r
unni
ngP
ump
failu
reS
tora
ge t
ank
cond
ition
{Fu
ll, lo
w, s
hort
age}
Ext
erna
l out
put
sig
nal
(No
volta
ge, n
orm
al o
pen
cont
act)
Sys
tem
inte
rlock
{on
/off
}E
xter
nal i
nput
sig
nal
(No
volta
ge, n
orm
al o
pen
cont
act)
417
CUSTOM BUILT HYDRO BOOSTER SYSTEM (available upon request)
UN
Inline boosting system
specially design for:
• automatic water supply
system.
• water supply distribution.
• automatic booster system
for housing estate,
hospitals, condominium
and high-rise building.
• golf course irrigation.
Applications
• general boosting for
factories, plant and
booster station.
• consistent pressure.
• no suction tank required i.e:
direct boosting from suction
pipe.
• flexible usage i.e. capable of
integrating with existing.
pumping system with minimal
modification works.
• consistent pressure.
• reduce storage tank size.
• empties water effectively to
process and utilities etc.
• automatic irrigation of
required capacity and
pressure setting.
• economical design.
• economy set.
Features / Benefits
• automatic boosting system
for large-scale water supply.
• ensure constant pressure.
• maintenance free operation.
Product Options
UN-IB
UN-GB
UN-GC
UN-SP
418
0
200
Tota
l H
ead
(m)
9
120
100
140
160
180
2UN-EVM3
220
4.5
20
40
60
80
UN EVM 18F5/2.2
1.5 3 6 7.5
240
260
Capacity (m3/hr.)
UN EVM 13N5/1.5
UN EVM 22F5/2.2
UN EVM 15N5/1.5
UN EVM 9N5/1.1
UN EVM 11N5/1.1
UN EVM 6N5/0.75
UN EVM 7N5/0.75
UN EVM 3N5/0.37
UN EVM 4N5/0.55
UN EVM 5N5/0.55
UN EVM 2N5/0.37
60
40
20
7.5
260
2UN-EVM5
180
160
140
100
120
15
Tota
l H
ead
(m)
200
0
UN EVM 5N5/1.1
80
10 12.552.5
240
220
Capacity (m3/hr.)
UN EVM 19F5/4.0
UN EVM 16N5/3.0
UN EVM 12N5/2.2
UN EVM 14N5/3.0
UN EVM 10N5/2.2
UN EVM 6N5/1.1
UN EVM 7N5/1.5
UN EVM 8N5/1.5
UN EVM 3N5/0.55
UN EVM 4N5/0.75
UN EVM 2N5/0.37
UN EVM 11N5/2.2
UN EVM 18F5/4.0
SELECTION GUIDE
UN
419
SELECTION GUIDE
UN
80
60
40
20
15
260
2UN-EVM10
180
160
140
100
120
30
Tota
l H
ead
(m)
200
0 20 25105
240
220
Capacity (m3/hr.)
UN EVM 16F5/7.5
UN EVM 15F5/5.5
UN EVM 14N5/5.5
UN EVM 10N5/4.0
UN EVM 11N5/4.0
UN EVM 12N5/5.5
UN EVM 8N5/3.0
UN EVM 5N5/2.2
UN EVM 6N5/2.2
UN EVM 3N5/1.1
UN EVM 2N5/0.75
UN EVM 4N5/1.5
UN EVM 18F5/7.5
0
200
Tota
l H
ead
(m)
48
120
100
140
160
180
2UN-EVM18260
24
20
40
60
80
32 408 16
240
220
Capacity (m3/hr.)
UN EVM 8F5/7.5
UN EVM 10F5/11
UN EVM 7F5/7.5
UN EVM 12F5/11
UN EVM 2F5/2.2
UN EVM 5F5/5.5
UN EVM 6F5/5.5
UN EVM 3F5/3.0
UN EVM 4F5/4.0
420
SELECTION GUIDE
UN
80
60
40
20
42
300
240
220
2UN-EVM32
180
160
140
100
120
84
Tota
l H
ead
(m)
200
0 2814 56 70
280
260
Capacity (m3/hr.)
UN EVM 1-0F5/2.2
UN EVM 2-2F5/3.0
UN EVM 2-0F5/4.0
UN EVM 3-3F5/5.5
UN EVM 3-0F5/5.5
UN EVM 4-3F5/7.5
UN EVM 4-0F5/7.5
UN EVM 5-3F5/11
UN EVM 5-0F5/11
UN EVM 6-3F5/11
UN EVM 6-0F5/11
UN EVM 7-3F5/15
UN EVM 7-0F5/15
UN EVM 8-3F5/15
UN EVM 8-0F5/15
UN EVM 9-3F5/18.5
UN EVM 9-0F5/18.5
120
180
160
260
200
80
60
100
120
140
0
20
40
Tota
l Hea
d (m
)
2UN-EVM45
604020 80 100
240
220
Capacity (m3/hr.)
UN EVM 2-0F5/7.5
UN EVM 3-2F5/11
UN EVM 3-0F5/11
UN EVM 7-2F5/30
UN EVM 6-2F5/22
UN EVM 6-0F5/22
UN EVM 5-0F5/18.5
UN EVM 4-0F5/15
UN EVM 5-2F5/18.5
UN EVM 4-2F5/15
UN EVM 1-1F5/3.0
UN EVM 1-0F5/4.0
UN EVM 2-2F5/5.5
UN EVM 8-2F5/30
UN EVM 7-0F5/30
421
SELECTION GUIDE
UN
84
2UN-EVM64
Tota
l Hea
d (m
)
40
20
0
140
120
100
60
80
200
160
180
168
10
30
50
70
90
110
130
150
170
190
112 1405628Capacity (m3/hr.)
UN EVM 6-2F5/30
UN EVM 6-1F5/37
UN EVM 6-0F5/37
UN EVM 5-0F5/30
UN EVM 6-3F5/30
UN EVM 5-1F5/30
UN EVM 4-0F5/22
UN EVM 5-3F5/30
UN EVM 5-2F5/30
UN EVM 4-3F5/18.5
UN EVM 4-2F5/18.5
UN EVM 4-1F5/22
UN EVM 3-1F5/15
UN EVM 3-0F5/18.5
UN EVM 3-2F5/15
UN EVM 2-0F5/11
UN EVM 3-3F5/15
UN EVM 2-1F5/11
UN EVM 1-1F5/4.0
UN EVM 1-0F5/5.5
UN EVM 2-2F5/7.5
UN EVM 7-1F5/37UN EVM 7-2F5/37
UN EVM 7-3F5/37
80
60
40
20
260
240
220
180
160
140
100
120
Tota
l H
ead
(m)
200
3UN-EVM3
UN EVM 18F5/2.2
0 147
Capacity (m3/hr.)
UN EVM 13N5/1.5
UN EVM 26F5/3.0
UN EVM 22F5/2.2
UN EVM 15N5/1.5
UN EVM 9N5/1.1
UN EVM 11N5/1.1
UN EVM 6N5/0.75
UN EVM 7N5/0.75
UN EVM 3N5/0.37
UN EVM 4N5/0.55
UN EVM 5N5/0.55
UN EVM 2N5/0.37
422
SELECTION GUIDE
UN
80
0
200
Tota
l H
ead
(m)
120
100
140
160
180
220
240
260
20
40
60
3UN-EVM5
3216.5
UN EVM 5N5/1.1
115.5 22 27.5
Capacity (m3/hr.)
UN EVM 11N5/2.2
UN EVM 2N5/0.37
UN EVM 4N5/0.75
UN EVM 3N5/0.55
UN EVM 8N5/1.5
UN EVM 7N5/1.5
UN EVM 6N5/1.1
UN EVM 10N5/2.2
UN EVM 14N5/3.0
UN EVM 12N5/2.2
UN EVM 16N5/3.0
UN EVM 19F5/4.0
UN EVM 18F5/4.0
0
200
Tota
l H
ead
(m)
120
100
140
160
180
220
240
260
20
40
60
80
3UN-EVM10
4522.5 30 37.5157.5Capacity (m3/hr.)
UN EVM 4N5/1.5
UN EVM 2N5/0.75
UN EVM 3N5/1.1
UN EVM 6N5/2.2
UN EVM 5N5/2.2
UN EVM 8N5/3.0
UN EVM 12N5/5.5
UN EVM 11N5/4.0
UN EVM 10N5/4.0
UN EVM 14N5/5.5
UN EVM 15F5/5.5
UN EVM 16F5/7.5
UN EVM 18F5/7.5
423
SELECTION GUIDE
UN
80
60
40
20
260
240
220
180
160
140
100
120
Tota
l H
ead
(m)
200
0
3UN-EVM18
48 963216 64 80Capacity (m3/hr.)
UN EVM 4F5/4.0
UN EVM 3F5/3.0
UN EVM 6F5/5.5
UN EVM 5F5/5.5
UN EVM 2F5/2.2
UN EVM 12F5/11
UN EVM 7F5/7.5
UN EVM 10F5/11
UN EVM 8F5/7.5
80
60
40
20
63
260
240
220
3UN-EVM32
180
160
140
100
120
126
Tota
l H
ead
(m)
200
0
280
300
84 1054221Capacity (m3/hr.)
UN EVM 1-0F5/2.2
UN EVM 2-2F5/3.0
UN EVM 2-0F5/4.0
UN EVM 3-3F5/5.5
UN EVM 3-0F5/5.5
UN EVM 4-3F5/7.5
UN EVM 4-0F5/7.5
UN EVM 5-3F5/11
UN EVM 5-0F5/11
UN EVM 6-3F5/11
UN EVM 6-0F5/11
UN EVM 7-3F5/15
UN EVM 7-0F5/15
UN EVM 8-3F5/15
UN EVM 8-0F5/15
UN EVM 9-3F5/18.5
UN EVM 9-0F5/18.5
424
SELECTION GUIDE
UN
180
260
180
160
220
240
200
80
60
100
120
140
0
20
40
Tota
l Hea
d (m
)
3UN-EVM45
906030 120 150Capacity (m3/hr.)
UN EVM 2-0F5/7.5
UN EVM 3-2F5/11
UN EVM 3-0F5/11
UN EVM 7-2F5/30
UN EVM 6-2F5/22
UN EVM 6-0F5/22
UN EVM 5-0F5/18.5
UN EVM 4-0F5/15
UN EVM 5-2F5/18.5
UN EVM 4-2F5/15
UN EVM 1-1F5/3.0UN EVM 1-0F5/4.0
UN EVM 2-2F5/5.5
UN EVM 8-2F5/30
UN EVM 7-0F5/30
126
3UN-EVM64
Tota
l Hea
d (m
)
40
20
0
140
120
100
60
80
200
160
180
252
10
30
50
70
90
110
130
150
170
190
210
168 2108442
UN EVM 6-2F5/30
UN EVM 6-1F5/37
UN EVM 6-0F5/37
UN EVM 5-0F5/30
UN EVM 6-3F5/30
UN EVM 5-1F5/30
UN EVM 4-0F5/22
UN EVM 5-3F5/30
UN EVM 5-2F5/30
UN EVM 4-3F5/18.5
UN EVM 4-2F5/18.5
UN EVM 4-1F5/22
UN EVM 3-1F5/15
UN EVM 3-0F5/18.5
UN EVM 3-2F5/15
UN EVM 2-0F5/11
UN EVM 3-3F5/15
UN EVM 2-1F5/11
UN EVM 1-1F5/4.0
UN EVM 1-0F5/5.5
UN EVM 2-2F5/7.5
UN EVM 7-1F5/37
UN EVM 7-2F5/37
UN EVM 7-3F5/37
Capacity (m3/hr.)
425
SELECTION GUIDE
UN
80
60
40
20
260
240
220
180
160
140
100
120
Tota
l H
ead
(m)
200
4UN-EVM3
0 18963 12 15Capacity (m3/hr.)
UN EVM 18F5/2.2
UN EVM 13N5/1.5
UN EVM 22F5/2.2
UN EVM 15N5/1.5
UN EVM 9N5/1.1
UN EVM 11N5/1.1
UN EVM 6N5/0.75
UN EVM 7N5/0.75
UN EVM 3N5/0.37
UN EVM 4N5/0.55
UN EVM 5N5/0.55
UN EVM 2N5/0.37
80
0
200
Tota
l H
ead
(m)
120
100
140
160
180
220
240
260
20
40
60
4UN-EVM5
3316.5
UN EVM 5N5/1.1
22 27.5115.5
Capacity (m3/hr.)
UN EVM 11N5/2.2
UN EVM 2N5/0.37
UN EVM 4N5/0.75
UN EVM 3N5/0.55
UN EVM 8N5/1.5
UN EVM 7N5/1.5
UN EVM 6N5/1.1
UN EVM 10N5/2.2
UN EVM 14N5/3.0
UN EVM 12N5/2.2
UN EVM 16N5/3.0
UN EVM 19F5/4.0
UN EVM 18F5/4.0
426
SELECTION GUIDE
UN
0
200
Tota
l H
ead
(m)
120
100
140
160
180
220
240
260
20
40
60
80
4UN-EVM10
60302010 40 50Capacity (m3/hr.)
UN EVM 4N5/1.5
UN EVM 2N5/0.75
UN EVM 6N5/2.2
UN EVM 5N5/2.2
UN EVM 8N5/3.0
UN EVM 12N5/5.5
UN EVM 11N5/4.0
UN EVM 10N5/4.0
UN EVM 14N5/5.5
UN EVM 15F5/5.5
UN EVM 16F5/7.5
UN EVM 3N5/1.1
UN EVM 18F5/7.5
80
60
40
20
260
240
220
180
160
140
100
120
Tota
l H
ead
(m)
200
0
4UN-EVM18
48 9664 803216Capacity (m3/hr.)
UN EVM 4F5/4.0
UN EVM 3F5/3.0
UN EVM 6F5/5.5
UN EVM 5F5/5.5
UN EVM 2F5/2.2
UN EVM 12F5/11
UN EVM 7F5/7.5
UN EVM 10F5/11
UN EVM 8F5/7.5
427
SELECTION GUIDE
UN
80
60
40
20
84
260
240
220
4UN-EVM32
180
160
140
100
120
168
Tota
l H
ead
(m)
200
0
280
300
112 1405628Capacity (m3/hr.)
UN EVM 9-0F5/18.5
UN EVM 9-3F5/18.5
UN EVM 8-0F5/15
UN EVM 8-3F5/15
UN EVM 7-0F5/15
UN EVM 7-3F5/15
UN EVM 6-0F5/11
UN EVM 6-3F5/11
UN EVM 5-0F5/11
UN EVM 5-3F5/11
UN EVM 4-0F5/7.5
UN EVM 4-3F5/7.5
UN EVM 3-0F5/5.5
UN EVM 3-3F5/5.5
UN EVM 2-0F5/4.0
UN EVM 2-2F5/3.0
UN EVM 1-0F5/2.2
240
260
180
160
220
240
200
80
60
100
120
140
0
20
40
Tota
l Hea
d (m
)
4UN-EVM45
120 160 2008040Capacity (m3/hr.)
UN EVM 2-2F5/5.5
UN EVM 1-0F5/4.0UN EVM 1-1F5/3.0
UN EVM 4-2F5/15
UN EVM 5-2F5/18.5
UN EVM 4-0F5/15
UN EVM 5-0F5/18.5
UN EVM 6-0F5/22
UN EVM 6-2F5/22
UN EVM 7-2F5/30
UN EVM 3-0F5/11
UN EVM 3-2F5/11
UN EVM 2-0F5/7.5
UN EVM 7-0F5/30
UN EVM 8-2F5/30
428
SELECTION GUIDE
UN
168
4UN-EVM64
Tota
l Hea
d (m
)
40
20
0
140
120
100
60
80
200
160
180
336
10
30
50
70
90
110
130
150
170
190
210
224 28011256Capacity (m3/hr.)
UN EVM 2-2F5/7.5
UN EVM 1-0F5/5.5
UN EVM 1-1F5/4.0
UN EVM 2-1F5/11
UN EVM 3-3F5/15
UN EVM 2-0F5/11
UN EVM 3-2F5/15
UN EVM 3-0F5/18.5
UN EVM 3-1F5/15
UN EVM 4-1F5/22
UN EVM 4-2F5/18.5
UN EVM 4-3F5/18.5
UN EVM 5-2F5/30UN EVM 5-3F5/30
UN EVM 4-0F5/22
UN EVM 5-1F5/30
UN EVM 6-3F5/30
UN EVM 5-0F5/30
UN EVM 6-0F5/37UN EVM 6-1F5/37
UN EVM 6-2F5/30
UN EVM 7-3F5/37
UN EVM 7-2F5/37
UN EVM 7-1F5/37
0
200
Tota
l H
ead
(m)
24
120
100
140
160
180
5UN-EVM3
220
240
260
12
20
40
60
80
UN EVM 18F5/2.2
84 16 20Capacity (m3/hr.)
UN EVM 13N5/1.5
UN EVM 22F5/2.2
UN EVM 15N5/1.5
UN EVM 9N5/1.1
UN EVM 11N5/1.1
UN EVM 6N5/0.75
UN EVM 7N5/0.75
UN EVM 3N5/0.37
UN EVM 4N5/0.55
UN EVM 5N5/0.55
UN EVM 2N5/0.37
429
SELECTION GUIDE
UN
60
40
20
19.5
260
240
220
5UN-EVM5
180
160
140
100
120
39
Tota
l H
ead
(m)
200
0
UN EVM 5N5/1.1
80
136.5 26 32.5Capacity (m3/hr.)
UN EVM 19F5/4.0
UN EVM 16N5/3.0
UN EVM 12N5/2.2
UN EVM 14N5/3.0
UN EVM 10N5/2.2
UN EVM 6N5/1.1
UN EVM 7N5/1.5
UN EVM 8N5/1.5
UN EVM 3N5/0.55
UN EVM 4N5/0.75
UN EVM 2N5/0.37
UN EVM 11N5/2.2
UN EVM 18F5/4.0
80
60
40
20
37.5
260
240
220
5UN-EVM10
180
160
140
100
120
75
Tota
l H
ead
(m)
200
0 2512.5 50 62.5Capacity (m3/hr.)
UN EVM 16F5/7.5
UN EVM 15F5/5.5
UN EVM 14N5/5.5
UN EVM 10N5/4.0
UN EVM 11N5/4.0
UN EVM 12N5/5.5
UN EVM 8N5/3.0
UN EVM 5N5/2.2
UN EVM 6N5/2.2
UN EVM 3N5/1.1
UN EVM 2N5/0.75
UN EVM 4N5/1.5
UN EVM 18F5/7.5
430
SELECTION GUIDE
UN
0
200
Tota
l H
ead
(m)
120
120
100
140
160
180
5UN-EVM18
220
240
260
60
20
40
60
80
4020 80 100
Capacity (m3/hr.)
UN EVM 8F5/7.5
UN EVM 10F5/11
UN EVM 7F5/7.5
UN EVM 12F5/11
UN EVM 2F5/2.2
UN EVM 5F5/5.5
UN EVM 6F5/5.5
UN EVM 3F5/3.0
UN EVM 4F5/4.0
80
60
40
20
105
260
240
220
5UN-EVM32
180
160
140
100
120
210
Tota
l H
ead
(m)
200
0
280
300
7035 140 175Capacity (m3/hr.)
UN EVM 1-0F5/2.2
UN EVM 2-2F5/3.0
UN EVM 2-0F5/4.0
UN EVM 3-3F5/5.5
UN EVM 3-0F5/5.5
UN EVM 4-3F5/7.5
UN EVM 4-0F5/7.5
UN EVM 5-3F5/11
UN EVM 5-0F5/11
UN EVM 6-3F5/11
UN EVM 6-0F5/11
UN EVM 7-3F5/15
UN EVM 7-0F5/15
UN EVM 8-3F5/15
UN EVM 8-0F5/15
UN EVM 9-3F5/18.5
UN EVM 9-0F5/18.5
431
SELECTION GUIDE
UN
300
260
180
160
220
240
200
80
60
100
120
140
0
20
40
Tota
l Hea
d (m
)
5UN-EVM45
150 200 25010050Capacity (m3/hr.)
UN EVM 2-0F5/7.5
UN EVM 3-2F5/11
UN EVM 3-0F5/11
UN EVM 7-2F5/30
UN EVM 6-2F5/22
UN EVM 6-0F5/22
UN EVM 5-0F5/18.5
UN EVM 4-0F5/15
UN EVM 5-2F5/18.5
UN EVM 4-2F5/15
UN EVM 1-1F5/3.0UN EVM 1-0F5/4.0
UN EVM 2-2F5/5.5
UN EVM 8-2F5/30
UN EVM 7-0F5/30
210
5UN-EVM64
Tota
l Hea
d (m
)
40
20
0
140
120
100
60
80
200
160
180
420
10
30
50
70
90
110
130
150
170
190
70 140 280 350Capacity (m3/hr.)
UN EVM 6-2F5/30
UN EVM 6-1F5/37
UN EVM 6-0F5/37
UN EVM 5-0F5/30
UN EVM 6-3F5/30
UN EVM 5-1F5/30
UN EVM 4-0F5/22
UN EVM 5-3F5/30UN EVM 5-2F5/30
UN EVM 4-3F5/18.5
UN EVM 4-2F5/18.5
UN EVM 4-1F5/22
UN EVM 3-1F5/15
UN EVM 3-0F5/18.5
UN EVM 3-2F5/15
UN EVM 2-0F5/11
UN EVM 3-3F5/15
UN EVM 2-1F5/11
UN EVM 1-1F5/4.0
UN EVM 1-0F5/5.5
UN EVM 2-2F5/7.5
UN EVM 7-1F5/37
UN EVM 7-2F5/37UN EVM 7-3F5/37
432
DIMENSIONAL DRAWING (2UN)
UN
HImm
H2mm
H3mm
D1mm
Wmm
L1mm
L2mm
Dmm
Emm
TANKLITER
SUCTIONMANIFOLD
mm
PIPECONNECTION
DISCHARGEMANIFOLD
mm
DIMENSION
MODEL
2UN-EVM 3 75 725 800 250 600 1030 780 350 180 18 50 50 NPT
2UN-EVM 5 75 725 800 250 600 1030 780 350 180 18 50 50 NPT
2UN-EVM 10 100 725 800 250 600 1100 910 390 210 24 65 65 NPT
2UN-EVM 18 100 725 800 250 600 1245 910 440 305 24 80 80 FLANGE
2UN-EVM 32 100 725 800 250 600 1755 910 440 305 100 100 100 FLANGE
2UN-EVM 45 100 725 800 250 600 1865 1200 550 305 100 150 150 FLANGE
2UN-EVM 64 100 725 800 250 600 1865 1200 550 305 100 150 150 FLANGE
W
VIEW 'X'
L2
SUCTION
TANK MCCB
DISCHARGE
TP
HYDRO BOOSTER
H3
E D
TANK
H2
H1
L1
SIDE VIEW
D1
X̀'
433
DIMENSIONAL DRAWING (3UN)
UN
HImm
H2mm
H3mm
D1mm
Wmm
L1mm
L2mm
Dmm
Emm
TANKLITER
SUCTIONMANIFOLD
mm
PIPECONNECTION
DISCHARGEMANIFOLD
mm
DIMENSION
MODEL
3UN-EVM 3 100 625 900 250 700 1380 780 350 180 18 50 50 NPT
3UN-EVM 5 100 625 900 250 700 1380 780 350 180 18 50 50 NPT
3UN-EVM 10 100 625 900 250 700 1490 910 390 210 24 65 65 NPT
3UN-EVM 18 150 625 900 250 700 1685 910 440 305 24 100 100 FLANGE
3UN-EVM 32 150 625 900 250 700 2195 910 440 305 100 150 150 FLANGE
3UN-EVM 45 150 625 900 250 700 2415 1200 550 305 100 150 150 FLANGE
3UN-EVM 64 150 625 900 250 700 2415 1200 550 305 100 150 150 FLANGE
TANK
D
H3
E
D1
D
L1
H1
H2
SIDE VIEW
L2
SUCTION
VIEW 'X'
MCCB
TP
HYDRO BOOSTER
DISCHARGE
TANK
W
X̀'
434
DIMENSIONAL DRAWING (4UN)
UN
HImm
H2mm
H3mm
D1mm
Wmm
L1mm
L2mm
Dmm
Emm
TANKLITER
SUCTIONMANIFOLD
mm
PIPECONNECTION
DISCHARGEMANIFOLD
mm
DIMENSION
MODEL
4UN-EVM 3 100 625 900 250 700 1730 780 350 180 18 65 65 NPT
4UN-EVM 5 100 625 900 250 700 1730 780 350 180 18 65 65 NPT
4UN-EVM 10 150 625 900 250 700 1880 910 390 210 24 80 80 FLANGE
4UN-EVM 18 150 625 900 250 700 2125 910 440 305 24 100 100 FLANGE
4UN-EVM 32 150 625 900 250 700 2635 910 440 305 100 150 150 FLANGE
4UN-EVM 45 150 625 900 250 700 2965 1200 550 305 100 200 200 FLANGE
4UN-EVM 64 150 625 900 250 700 2965 1200 550 305 100 200 200 FLANGE
SUCTION
VIEW 'X'
L2
HYDRO BOOSTER
TANK MCCB
DISCHARGE
TP
W
H3
E D
TANK
D1
SIDE VIEW
H2
H1
L1
D D
X̀'
435
DIMENSIONAL DRAWING (5UN)
UN
HImm
H2mm
H3mm
D1mm
Wmm
L1mm
L2mm
Dmm
Emm
TANKLITER
SUCTIONMANIFOLD
mm
PIPECONNECTION
DISCHARGEMANIFOLD
mm
DIMENSION
MODEL
5UN-EVM 3 150 500 1100 250 800 2080 780 350 180 18 80 80 FLANGE
5UN-EVM 5 150 500 1100 250 800 2080 780 350 180 18 80 80 FLANGE
5UN-EVM 10 150 500 1100 250 800 2270 910 390 210 24 100 100 FLANGE
5UN-EVM 18 150 500 1100 250 800 2565 910 440 305 24 150 150 FLANGE
5UN-EVM 32 150 500 1100 250 800 3075 910 440 305 100 200 200 FLANGE
5UN-EVM 45 150 500 1100 250 800 3515 1200 550 305 100 200 200 FLANGE
5UN-EVM 64 150 500 1100 250 800 3515 1200 550 305 100 200 200 FLANGE
SUCTION
L2
VIEW 'X'
MCCB
TP
HYDRO BOOSTER
DISCHARGE
TANK
W
H3
E D
TANK
D1
SIDE VIEW
D D D
H2
H1
L1
X̀'
436
UD
EBARA FLOW SWITCH CONTROLLED BOOSTER SYSTEM
Ebara Hydro Booster pressure set type UD is a flowswitch control system which prevents frequent start/stop of pumps, thus ensure constant water supply.
ApplicationDomestic : High-rise buildings, Condominiums,
Apartments etc.Commercial : Office buildings, Hotels, Shopping
centres etc.Industrial : High-rise factories, Manufacturing &
Processing industries applicationsetc.
Social Service : Schools, Hospitals etc.
Construction FeaturesFully assembled and certified Hydro Booster unitconsisting of one or two (2) pump arranged in parallel,mounted on a common baseframe, pipework completewith all hydraulically required parts, EBARA Controllerunit, pressure switches and flow switches together withcomplete internal electrical wiring.
Baseframe & Common PipeworkGalvanized pipework to enable easy connection to allcommonly used pipe fittings. The pipework is sizedsuitable for maximum hydraulic unit capacity. Checkvalves and suitable gate valves are fitted for optimalsystem operation.
PumpsSingle or two (2) EBARA pumps arranged for paralleloperation. All parts contact with liquid are of stainlesssteel.
Diaphragm Pressure TankA pre-charged diaphragm tank is fitted to the dischargepipe with a compatible Butyl-rubber diaphragm.Generally this tank serves basic functions of supplyingwater at a very low flow and minimising effect of waterhammering.
Pressure SwitchesThe pressure switch controls start/stop of pumpoperation. Stop-value of pressure switch should be0.6kgf/cm2 higher than pump supply pressure. Startvalue of pressure should be set so that the water supplyappliance at the highest point of building or the mostremote place has sufficient water supply pressure.
Flow SwitchThe primary function of flow switch is to detect low flowcondition, and cut off pump operation during very lowflow condition. This reduces the frequency of on/off pumpto prolong operating life of pumping system.
437
UD
EBARA FLOW SWITCH CONTROLLED BOOSTER SYSTEM
Flow switchDetects very low flow to cut off No. 1 pump thus reducing frequency of on / off pump at low flow
PumpStainless steel casing and impeller provide rusty-free water supply
Check valveQuick closing action reduces water hammer
Pressure switchesAdjustment type-signal cut-in and cut-out pumps
Pre-charge diaphragm tank
Pressure gaugeIndicator of water pressure
Isolating Valve
Discharge pipeGalvanize pipework provides to enable easy connection
UD - CONTROL SYSTEM
Sup
ply
Pre
ssur
e
Uncontinuouspump operationrange
SingleOperation
Continuous pumpoperation range
Flow switchQ1
P4 P3
P1
P2ParallelOperation
➀
➅
➄
➃
➂
➁
Step 1) Both pumps are stopped when water tank is fully charged. Inthis condition water is supplied from the pressure tank, andwater pressure in tank gradually decreases.
Step 2) No. 1 pump starts at pressure P1 (Point 1 ) and water issupplied from pump (and pressure tank).
Step 3) When more water is required and water pressure decreasesto P2 (Point 2 ), No. 2 pump also starts, operation point shiftsto Point 3 and system shifts to parallel operation.
Step 4) When water consumption decreases, water pressure in tankincreases and when pressure reaches P3 (Point 4 ), No. 2pump is stopped and operation point shifts to Point 5 .
Step 5) When water consumption further decreases, water pressurein tank increases and pressure switch is turned off, and theflow switch used to detect small flow, is turned off. Whenboth pressure and flow switches are off, No. 1 pump stops(Point 6 ). Flow switch setting point is at small capacity point,therefore pump continuous operation range is much wider.Accordingly pump start frequency is greatly decreased.
438
UD
EBARA FLOW SWITCH CONTROLLED BOOSTER SYSTEM
FlowSwitch
Float
Flow SwitchThe primary function of flow switch is to detect a very lowflow in order to cut off No.1 pump. This reduces thefrequency of on/off pump at low flow. The life of pump isthus prolonged. The fundamental working principle is showngraphically as below.
At a very low flow, the float of the flow switch positions itselfat/almost to its lowest resting position. That is, water pressureforce from pump discharge is equivalent/lesser than theweight of the float. The location of the float sends signal outto trigger No.1 pump to stop.
At higher flow, the float is lifted up by the water pressureforce from pump discharge. Its location is determined by thebalancing act between its own weight and water pressureforce. Signal generates no impact in operation on pump.
UD - CONTROLLED UNIT
The heart of the system is the EBARA controller unit,which is user-friendly and permit ‘One-touch’ operation.It controls the sequence of pump operation with signalsinput from the pressure switch and/or flow switch in Auto& Alternate mode.
EBARA controller unit generally provides the below ‘one-touch’ functioning features:- 1x Selector switch (P1/P2/ALT)- 1x Selector switch (Manual/Auto/Off)- 1x Power incoming indicating light- 2x Pump RUN indicating light- 1x Pump overload indicating light- 1x Alarm (fault) indicating light- 1x Buzzer stop
This user-friendly controller unit operates compatible withother electrical components to ensure smooth functioningof booster system.
Fig. below shows the display of panel board. Two modesof operation are possible, namely manual and auto &alternate.
Various configurations of standard control panel areavailable. It varies from indoor to outdoor, DOL tostar-delta starter and auto transformer type panel.
439
UD
EBARA FLOW SWITCH CONTROLLED BOOSTER SYSTEM - OPERATION METHOD
Both pumps not operating at
very low flow & small demand.
Water supplies directly from
hydro-pneumatic pressure vessel.
OperationSchematic Diagram System Performance Curve
N/A
At higher flow & higher demand
water pressure in
hydro-pneumatic pressure
vessel decreases to P1 (point 1 ).
No. 1 pressure switch initiates
start of No. 1 pump.
At higher flow & water pressure
decreases to P2 (point 2 ).
No. 2 pressure switch triggers
No. 2 pump to start & system
shifts to parallel operation
(operation point is at point 3 ).
As water consumption
decreases & water pressure
increases to P3 (point 4 ).
No. 2 pressure switch activates
No. 2 pump to stop & operation
shifts to point 5 .
440
UD
EBARA FLOW SWITCH CONTROLLED BOOSTER SYSTEM - OPERATION METHOD
OperationSchematic Diagram System Performance Curve
At higher flow & water pressure
decreases to P2 (point 2 ).
No. 2 pressure switch triggers
No. 2 pump to start & system
shifts to parallel operation
(operation point is at point 3 )
As water consumption
decreases & water pressure
increases to P3 (point 4 ).
No. 2 pressure switch activates
No. 2 pump to stop & operation
shifts to point 5 .
As water consumption further
decreases & water pressure
increases to P4.
No. 1 pressure switch cut off.
Flow switch triggers No. 1 pump
to stop at very low flow
of Q1 (point 6 ).
Both pumps not operating
at no demand.
N/A
441
UD
EBARA FLOW SWITCH CONTROLLED BOOSTER SYSTEM - OPERATION METHOD
OperationSchematic Diagram System Performance Curve
N/A
At higher flow & water pressure
decreases to P2 (point 2 ).
No. 2 pressure switch triggers
No. 1 pump to start & system
shifts to parallel operation
(operation point is at point 3 ).
As water consumption
decreases & water pressure
increases to P3 (point 4 ).
No. 2 pressure switch activates
No. 1 pump to stop & operation
shifts to point 5 .
As water consumption further decreases & water pressure
increases to P4.No. 1 pressure switch cut off.
Flow switch triggers No. 2 pumpto stop at very low flow
of Q1 (point 6 ).
Both pumps not operating
at no demand.
As demand increases again &
water pressure in
hydropneumatic pressure
vessel decreases to P1 (point
1 ) No. 1 pressure switch
initiates start of No.2 pump.
442
UD
ISOMETRIC DRAWING
910
8
7
2
1
3
4 5
6
11 2
10
Discharge Manifold
Check Valve
Gate Valve
Diaphragm Tank
Suction Manifold
Pressure Gauge
Pressure Switch6
8
9
7
Pump
4
5
3
Part Name
Control Panel1
No.
11
443
UD
SELECTION GUIDE
10.83.60 1.2 2.4
10
0
7.24.8 6 8.4 9.6 m /hr12 14.413.2
40
20
30
50
60
70
CURVES 2 POLES 50 HzUD CDX 70 / 90
3
UD CDX 70-05/0.37
UD CDX 70-07/0.55
UD CDX 90-10/0.75Tota
l H
ead
(m)
Capacity (m3/hr.)
00 3 6 9
10
1512 18 2421 27 30
40
20
30
50
CURVES 2 POLES 50 HzUD CDX 120
60
UD CDX 120-20/1.5
UD CDX 120-07/0.55
UD CDX 120-12/0.9
Capacity (m3/hr.)
Tota
l Hea
d (m
)
444
UD
SELECTION GUIDE
0
1.20 2.4 4.83.6 6
10
8.47.2 9.6 1210.8
40
20
30
50
60
70
CURVES 2 POLES 50 HzUD 2CDX 70
13.2 14.4
UD 2CDX 70-10/0.75
UD 2CDX 70-12/0.9
UD 2CDX 70-15/1.1
UD 2CDX 70-20/1.5
Tota
l Hea
d (m
)
Capacity (m3/hr.)
00 63 9
10
1512 18 2421 27 3330 36
40
20
30
50
60
70CURVES 2 POLES 50 HzUD CDX 200
UD CDX 200-25/1.8
UD CDX 200-12/0.9
UD CDX 200-20/1.5
Tota
l Hea
d (m
)
Capacity (m3/hr.)
445
10
0
30 6 129 15 2118 27
40
30
20
60
50
UD 2CDX 120-30/2.2
70
CURVES 2 POLES 50 HzUD 2CDX 120
24 30 33 36
80
UD 2CDX 120-40/3.0
UD 2CDX 120-15/1.1
UD 2CDX 120-20/1.5
Tota
l Hea
d (m
)
Capacity (m3/hr.)
UD
SELECTION GUIDE
18
0
0
10
93 6 12 15 21 2724 30 3633
40
20
30
50
60
80
70
UD 2CDX 200-50/3.7
UD 2CDX 200CURVES 2 POLES 50 Hz
UD 2CDX 200-30/2.2
UD 2CDX 200-40/3.0
Tota
l Hea
d (m
)
Capacity (m3/hr.)
446
10
1800
159 123 6 3327 3021 24 423936
20
30
40
50
60
80
70
90
UD 3M 32CURVES 2 POLES 50 Hz
100
54
UD 3M 32-125/1.1
UD 3M 32-160/1.5
UD 3M 32-160/2.2
UD 3M 32-200/3.0
UD 3M 32-200/4.0
UD 3M 32-200/5.5
UD 3M 32-200/7.5
Tota
l H
ead
(m)
Capacity (m3/hr.)
UD
SELECTION GUIDE
60
10
24120 6 180
544836 4230
20
30
40
50
60
UD 3M 40
80
70
90
100
CURVES 2 POLES 50 Hz
84 9072 7866
UD 3M 40-160/4.0
UD 3M 40-125/1.5
UD 3M 40-125/2.2UD 3M 40-160/3.0
UD 3M 40-200/5.5
UD 3M 40-200/7.5
UD 3M 40-200/11
Tota
l Hea
d (m
)
Capacity (m3/hr.)
447
72
10
00
48 60362412
20
30
40
50
60
13210884 96 120 156144
UD 3M 50
80
70
CURVES 2 POLES 50 Hz
UD 3M 50-160/7.5
UD 3M 50-160/5.5
UD 3M 50-125/4.0
UD 3M 50-125/3.0
UD 3M 50-125/2.2
UD 3M 50-200/11
UD 3M 50-200/9.2
UD 3M 50-200/15
Capacity (m3/hr.)
Tota
l Hea
d (m
)
UD
SELECTION GUIDE
CURVES 2 POLES 50 HzUD 3M 65
50
12090
40
30
20
10
60300
0 300270 330240180 210150
70
60
UD 3M 65-200/15
UD 3M 65-160/15
UD 3M 65-160/11
UD 3M 65-160/7.5
UD 3M 65-125/5.5
UD 3M 65-125/7.5
UD 3M 65-160/9.2
UD 3M 65-125/4.0
UD 3M 65-200/22
UD 3M 65-200/18.5
Capacity (m3/hr.)
Tota
l Hea
d (m
)
448
UD
SELECTION GUIDE
UD MATRIX 3-8/1.3
UD MATRIX 3-7/1.3
UD MATRIX 3-6/0.9
UD MATRIX 3-5/0.75
UD MATRIX 3-3/0.65
UD MATRIX 3-2/0.45
40
030.60 1.81.2 2.4 4.23.6 4.8 5.4 6.66 7.2 7.8 98.4 9.6
20
10
30
CURVES 2 POLES 50 Hz
50
60
70
80
UD MATRIX 3
100
90
110
UD MATRIX 3-9/1.5
UD MATRIX 3-4/0.65
Tota
l Hea
d (m
)
Capacity (m3/hr.)
UD MATRIX 5-2/0.45
UD MATRIX 5-3/0.65
UD MATRIX 5-5/1.3
UD MATRIX 5-6/1.3
UD MATRIX 5-7/1.5
UD MATRIX 5-8/2.2
110
90
100
UD MATRIX 5
80
70
60
50
CURVES 2 POLES 50 Hz
30
10
20
15.614.412 13.210.89.67.2 8.44.82.4 3.60 1.2 60
40
18 19.216.8
UD MATRIX 5-4/0.9
UD MATRIX 5-9/2.2
Tota
l Hea
d (m
)
Capacity (m3/hr.)
449
UD
SELECTION GUIDE
UD MATRIX 10-6/2.2
UD MATRIX 10-5/2.2
UD MATRIX 10-3/1.3
UD MATRIX 10-2/0.75
40
01530 96 12 2118 24 27 3330 36
20
10
30
CURVES 2 POLES 50 Hz
50
60
70
80
UD MATRIX 10
UD MATRIX 10-4/1.5
Capacity (m3/hr.)
Tota
l Hea
d (m
)
UD MATRIX 18-2/1.5
UD MATRIX 18-3/2.2
UD MATRIX 18-4/3.0
UD MATRIX 18-5/4.0
UD MATRIX 18CURVES 2 POLES 50 Hz
80
70
60
50
40
30
20
10
666054483624 30 42120 60
18
UD MATRIX 18-6/4.0
Tota
l Hea
d (m
)
Capacity (m3/hr.)
450
0
Tota
l H
ead
(m)
9
120
100
140
UD-EVM3
4.5
20
40
60
80
31.5 6 7.50
160
UD EVM 9N5/1.1
UD EVM 11N5/1.1
UD EVM 6N5/0.75
UD EVM 7N5/0.75
UD EVM 3N5/0.37
UD EVM 4N5/0.55
UD EVM 5N5/0.55
UD EVM 2N5/0.37
Capacity (m3/hr.)
UD
SELECTION GUIDE
60
40
20
7.5
UD-EVM5
140
100
120
15
Tota
l H
ead
(m)
0
UD EVM 5N5/1.1
80
10 2.552.50
160
UD EVM 10N5/2.2
UD EVM 6N5/1.1
UD EVM 7N5/1.5
UD EVM 8N5/1.5
UD EVM 3N5/0.55
UD EVM 4N5/0.75
UD EVM 2N5/0.37
Capacity (m3/hr.)
451
80
60
40
20
15
UD-EVM10
140
100
120
30
Tota
l H
ead
(m)
0 105 20 250
160
UD EVM 10N5/4.0
UD EVM 8N5/3.0
UD EVM 5N5/2.2
UD EVM 6N5/2.2
UD EVM 3N5/1.1
UD EVM 2N5/0.75
UD EVM 4N5/1.5
Capacity (m3/hr.)
UD
SELECTION GUIDE
0
Tota
l H
ead
(m)
48
120
100
UD-EVM18
24
20
40
60
80
168 32 40
140
0
160
Capacity (m3/hr.)
UD EVM 7F5/7.5
UD EVM 2F5/2.2
UD EVM 5F5/5.5
UD EVM 6F5/5.5
UD EVM 3F5/3.0
UD EVM 4F5/4.0
452
120
80
60
100
120
140
0
20
40
Tota
l Hea
d (m
)
UD-EVM45
60 80 1004020
160
0
Capacity (m3/hr.)
UD EVM 2-0F5/7.5
UD EVM 3-2F5/11
UD EVM 3-0F5/11
UD EVM 5-0F5/18.5
UD EVM 4-0F5/15
UD EVM 5-2F5/18.5
UD EVM 4-2F5/15
UD EVM 1-1F5/3.0
UD EVM 1-0F5/4.0
UD EVM 2-2F5/5.5
UD
SELECTION GUIDE
80
60
40
20
42
UD-EVM32
140
100
120
84
Tota
l H
ead
(m)
0 2814 46 700
160
UD EVM 1-0F5/2.2
UD EVM 2-2F5/3.0
UD EVM 2-0F5/4.0
UD EVM 3-3F5/5.5
UD EVM 3-0F5/5.5
UD EVM 4-3F5/7.5
UD EVM 4-0F5/7.5
UD EVM 5-3F5/11
UD EVM 5-0F5/11
Capacity (m3/hr.)
453
UD
SELECTION GUIDE
84
UD-EVM64
Tota
l Hea
d (m
)
40
20
0
120
100
60
80
168
10
30
50
70
90
110
5628 112 1400
UD EVM 4-3F5/18.5
UD EVM 4-2F5/18.5
UD EVM 4-1F5/22
UD EVM 3-1F5/15
UD EVM 3-0F5/18.5
UD EVM 3-2F5/15
UD EVM 2-0F5/11
UD EVM 3-3F5/15
UD EVM 2-1F5/11
UD EVM 1-1F5/4.0
UD EVM 1-0F5/5.5
UD EVM 2-2F5/7.5
Capacity (m3/hr.)
454
UD
DIMENSIONAL DRAWING UD SYSTEM (CDX)
UD-2 x CDX 200 450 1525 1030 860 350 250 180 18 NPT
Dmm
Wmm
Hmm
L1mm
L2mm
L3mm
Emm
Fmm
TANKLITER
PIPECONNECTION
DIMENSION
MODEL
CDX PUMPVIEW X
SUCTION
DISCHARGE
HYDRO BOOSTER
MAN OFF AUTO
No. 1 ALT No. 2
No. 1 PUMPRUN
No. 2 PUMPRUN
OVERLOAD ALARM
BZSTOP
L1
L2
TANK
H
`X'
TANK
L3
D W
50 NPT
50 NPT
50 NPTSUCTION
DISCHARGE50 NPT
F E
75
455
DIMENSIONAL DRAWING UD SYSTEM (MATRIX)
UD
UD-2 x MATRIX 3/5/10 200 450 1525 1030 860 350 250 180 18 50 NPT
UD-2 x MATRIX 18 200 450 1525 1080 910 350 250 180 24 75 NPT
Dmm
Wmm
Hmm
L1mm
L2mm
L3mm
Emm
Fmm
TANKLITER
PIPECONNECTION
DIMENSION
MODEL
MATRIX PUMPVIEW X
SUCTION
DISCHARGE
HYDRO BOOSTER
MAN OFF AUTO
No. 1 ALT No. 2
No. 1 PUMPRUN
No. 2 PUMPRUN
OVERLOADALARM
BZSTOP
L1
L2
TANK
H
`X'
TANK
L3
D W
SUCTION
DISCHARGE
F E
100
456
DIMENSIONAL DRAWING UD SYSTEM (3M 32)
UD
UD-2 x 3M32 200 550 1525 1200 920 440 250 210 24 FLANGE
Dmm
Wmm
Hmm
L1mm
L2mm
L3mm
Emm
Fmm
TANKLITER
PIPECONNECTION
DIMENSION
MODEL
L1
H
L2
3M PUMP VIEW X
SUCTION
DISCHARGE
HYDRO BOOSTER
MAN OFF AUTO
No. 1 ALT No. 2
No. 1 PUMP RUN
No. 2 PUMP RUN
OVERLOAD ALARM
BZ STOP
TANK TANK
`X'
D W
L3
DN 50
DN 65 75
F E
457
DIMENSIONAL DRAWING UD SYSTEM (3M 40)
UD
UD-2 x 3M40 200 550 1525 1460 1050 500 310 250 24 FLANGE
Dmm
Wmm
Hmm
L1mm
L2mm
L3mm
Emm
Fmm
TANKLITER
PIPECONNECTION
DIMENSION
MODEL
L1
H
L2
3M PUMP VIEW X
SUCTION
DISCHARGE
HYDRO BOOSTER
MAN OFF AUTO
No. 1 ALT No. 2
No. 1 PUMP RUN
No. 2 PUMP RUN
OVERLOAD ALARM
BZ STOP
TANK TANK
`X'
D W
L3
DN 50
DN 80 10
0
F E
458
DIMENSIONAL DRAWING UD SYSTEM (3M 50)
UD
UD-2 x 3M50 200 550 1525 1460 1050 500 310 250 24 FLANGE
Dmm
Wmm
Hmm
L1mm
L2mm
L3mm
Emm
Fmm
TANKLITER
PIPECONNECTION
DIMENSION
MODEL
L1
H
L2
3M PUMP VIEW X
SUCTION
DISCHARGE
HYDRO BOOSTER
MAN OFF AUTO
No. 1 ALT No. 2
No. 1 PUMPRUN
No. 2 PUMPRUN
OVERLOAD ALARM
BZSTOP
TANKTANK
`X'
D W
L3
DN 65
DN 8010
0
F E
459
DIMENSIONAL DRAWING UD SYSTEM (3M 65)
UD
UD-2 x 3M65 200 550 1525 1460 1050 500 310 250 24 FLANGE
Dmm
Wmm
Hmm
L1mm
L2mm
L3mm
Emm
Fmm
TANKLITER
PIPECONNECTION
DIMENSION
MODEL
L1
H
L2
3M PUMP VIEW X
SUCTION
DISCHARGE
HYDRO BOOSTER
MAN OFF AUTO
No. 1 ALT No. 2
No. 1 PUMP RUN
No. 2 PUMP RUN
OVERLOAD ALARM
BZ STOP
TANK TANK
`X'
D W
L3
DN 80
DN 100 10
0
F E
460
DIMENSIONAL DRAWING UD SYSTEM (EVM)
UD
SUCTIONMANIFOLD
mm
2UD-EVM 3 400 700 350 1525 1030 880 18 50 50 NPT
2UD-EVM 5 400 700 350 1525 1030 880 18 50 50 NPT
2UD-EVM 10 420 720 350 1525 1100 1040 24 65 65 NPT
2UD-EVM 18 420 720 350 1525 1245 1040 24 80 80 FLANGE
2UD-EVM 32 440 740 400 1525 1755 1360 100 100 100 FLANGE
2UD-EVM 45 440 740 400 1525 1860 1530 100 150 150 FLANGE
2UD-EVM 64 440 740 400 1525 1860 1530 100 150 150 FLANGE
B1mm
B2mm
B3mm
Hmm
L1mm
L2mm
TANKLITER
DISCHARGEMANIFOLD
mm
PIPECONNECTION
DIMENSION
MODEL
STOP BZ
ALARM
RUN No.2 PUMP No.1 PUMP
RUN
OVERLOAD
No.1 No.2 ALT
MAN AUTO OFF
VIEW `X' EVM PUMP
TANK
SUCTION
DISCHARGE
TANK
L2
HYDRO BOOSTER
H
L1
`X'
B3
B1 B2
100
461
HYDRO BOOSTER-PNEUMATIC TYPE
HYDRO-P
PUMPSVertical multi-stage stainless steel pump, all wetted partsin contact with liquid are stainless steel for robustoperation.
Option: Other EBARA centrifugal pumps also avalaible upon request.
TANKLocal JKKP approved tanks with imported supreme qualitydiaphragm to ensure long operating life.
EBARA Hydro-pneumatic booster system uses EBARA stainless steel pumps with one or more pressuretanks mounted on a common baseplate skid consisting of valves and manifolds.Custom designed electrical control panel is utilised and built to highest standard, interconnected with pumpmotor and control devices to ensure automatic trouble-free booster operation.
CONTROL PANELCorrosion-resistance epoxy coated control panelincorporated with quality electrical / electronic componentsbuilt to EBARA’s quality standard.
ACCESSORIESApproved pressure switches, valves and fittings areselected and used to enhance operating efficiency andassure durability.
Options:
EBARA HP booster set with EVM pump Weather-proof type HP booster set
462
SELECTION GUIDE
HYDRO-P
l/min 0 20 40 60 75 100 130 150 200 250 300 350 400 l/min 0 200 350 500 600 700 900 1000 1200 1400
m³/h 0 1.2 2.4 3.6 4.5 6.0 7.8 9.0 12 15 18 21 24 m³/h 0 12 21 30 36 42 54 60 72 84
EVM 3 2N5/0.37 0,37 18,6 16,7 14,0 10,3 6,6 - - - - - - - - EVM 32 1-0F5/2.2 2,2 22,6 20,2 17,5 13,9 10,3 5,7 - - - -
EVM 3 3N5/0.37 0,37 27,9 25,1 20,9 15,5 9,9 - - - - - - - - EVM 32 2-2F5/3.0 3 39,0 34,6 29,7 21,2 14,2 - - - - -
EVM 3 4N5/0.55 0,55 37,2 33,4 27,9 20,6 13,2 - - - - - - - - EVM 32 2-0F5/4.0 4 45,0 40,5 36,0 29,5 23,2 14,9 - - - -
EVM 3 5N5/0.55 0,55 46,5 42,0 34,9 25,8 16,5 - - - - - - - - EVM 32 3-3F5/5.5 5,5 55,0 52,0 45,0 32,8 22,7 - - - - -
EVM 3 6N5/0.75 0,75 56,0 50,0 42,0 30,9 19,8 - - - - - - - - EVM 32 3-0F5/5.5 5,5 68,0 61,0 54,5 45,0 36,1 24,1 - - - -
EVM 3 7N5/0.75 0,75 65,0 58,5 49,0 36,1 23,1 - - - - - - - - EVM 32 4-3F5/7.5 7,5 81,0 72,5 63,5 48,5 35,6 - - - - -
EVM 3 9N5/1.1 1,1 84,0 75,0 63,0 46,5 29,7 - - - - - - - - EVM 32 4-0F5/7.5 7,5 90,5 81,5 73,0 61,0 49,0 33,3 - - - -
EVM 3 11N5/1.1 1,1 - 92,7 77,0 56,5 36,3 - - - - - - - - EVM 32 5-3F5/11 11 - 93,0 82,0 64,0 48,5 30,5 - - - -
EVM 3 13N5/1.5 1,5 - - 90,5 67,0 43,0 - - - - - - - - EVM 32 5-0F5/11 11 - - 91,5 76,5 62,0 42,5 - - - -
EVM 3 15N5/1.5 1,5 - - - 77,5 49,5 - - - - - - - - EVM 32 6-3F5/11 11 - - 100,0 79,5 61,5 39,7 - - - -
EVM 3 18F5/2.2 2,2 - - - 92,5 59,5 - - - - - - - - EVM 32 6-0F5/11 11 - - - 92,0 75,0 51,5 - - - -
EVM 3 22F5/2.2 2,2 - - - - 72,5 - - - - - - - - EVM 32 7-3F5/15 15 - - - 95,5 74,5 49,0 - - - -
EVM 3 26F5/3.0 3 - - - - 86,0 - - - - - - - - EVM 32 7-0F5/15 15 - - - 108,0 87,5 61,0 - - - -
EVM 5 2N5/0.37 0,37 20,2 - 18,4 16,9 15,4 12,2 6,9 - - - - - - EVM 32 8-3F5/15 15 - - - - 87,0 58,0 - - - -
EVM 5 3N5/0.55 0,55 30,2 - 27,6 25,3 23,1 18,4 10,3 - - - - - - EVM 32 8-0F5/15 15 - - - - 101,0 70,0 - - - -
EVM 5 4N5/0.75 0,75 40,5 - 36,8 33,8 30,8 24,5 13,8 - - - - - - EVM 32 9-3F5/18.5 18,5 - - - - 100,0 67,5 - - - -
EVM 5 5N5/1.1 1,1 50,5 - 46,0 42,0 38,6 30,6 17,2 - - - - - - EVM 32 9-0F5/18.5 18,5 - - - - - 79,5 - - - -
EVM 5 6N5/1.1 1,1 60,5 - 55,0 50,5 46,5 36,7 20,6 - - - - - - EVM 32 10-3F5/18.5 18,5 - - - - - 76,5 - - - -
EVM 5 7N5/1.5 1,5 70,5 - 64,5 59,0 54,0 43,0 24,1 - - - - - - EVM 32 10-1F5/18.5 18,5 - - - - - 84,5 - - - -
EVM 5 8N5/1.5 1,5 80,5 - 73,5 67,5 61,5 49,0 27,5 - - - - - - EVM 45 1-1F5/3.0 3 21,0 - 18,9 17,6 16,3 14,3 8,3 - - -
EVM 5 10N5/2.2 2,2 - - 93,5 86,0 79,0 63,0 36,6 - - - - - - EVM 45 1-0F5/4.0 4 27,0 - 25,6 24,6 23,5 21,8 16,7 13,3 - -
EVM 5 11N5/2.2 2,2 - - - 94,5 86,5 69,5 40,5 - - - - - - EVM 45 2-2F5/5.5 5,5 42,0 - 38,1 35,8 33,4 29,8 18,6 - - -
EVM 5 12N5/2.2 2,2 - - - - 94,5 75,5 44,0 - - - - - - EVM 45 2-0F5/7.5 7,5 54,0 - 51,5 50,0 48,0 45,0 35,4 29,1 - -
EVM 5 14N5/3.0 3 - - - - - 88,0 51,0 - - - - - - EVM 45 3-2F5/11 11 69,0 - 64,0 61,0 58,0 53,0 37,3 - - -
EVM 5 16N5/3.0 3 - - - - - - 58,5 - - - - - - EVM 45 3-0F5/11 11 81,0 - 77,5 75,0 72,5 68,0 54,0 45,0 - -
EVM 5 18F5/4.0 4 - - - - - - 66,0 - - - - - - EVM 45 4-2F5/15 15 96,0 - 90,0 86,0 82,0 76,0 56,0 43,0 - -
EVM 5 19F5/4.0 4 - - - - - - 69,5 - - - - - - EVM 45 4-0F5/15 15 - - 103,0 100,0 96,5 91,0 73,0 60,5 - -
EVM 5 22F5/4.0 4 225,0 - 206,0 189,0 173,0 139,0 80,5 - - - - - - EVM 45 5-2F5/18.5 18,5 - - - - 107,0 99,0 74,5 58,5 - -
EVM 5 24F5/5.5 5,5 - - - - - - 88,0 - - - - - - EVM 45 5-0F5/18.5 18,5 - - - - - 114,0 91,5 76,5 - -
EVM 10 2N5/0.75 0,75 22,0 - - - 21,0 20,4 18,9 17,6 13,2 7,8 - - - EVM 45 6-2F5/22 22 - - - - - - 93,5 74,5 - -
EVM 10 3N5/1.1 1,1 33,0 - - - 31,6 30,5 28,4 26,4 19,8 11,7 - - - EVM 45 6-0F5/22 22 - - - - - - 110,0 92,5 - -
EVM 10 4N5/1.5 1,5 44,0 - - - 42,0 40,5 37,8 35,2 26,4 15,6 - - - EVM 45 7-2F5/30 30 - - - - - - 112,0 90,5 - -
EVM 10 5N5/2.2 2,2 55,0 - - - 52,5 51,0 47,5 44,0 33,0 19,5 - - - EVM 45 7-0F5/30 30 - - - - - - - 108,0 - -
EVM 10 6N5/2.2 2,2 66,0 - - - 63,0 61,0 57,0 53,0 39,5 23,4 - - - EVM 45 8-2F5/30 30 - - - - - - - 106,0 - -
EVM 10 8N5/3.0 3 88,0 - - - 84,0 81,5 75,5 70,5 52,5 31,2 - - - EVM 45 8-0F5/30 30 - - - - - - - 124,0 - -
EVM 10 10N5/4.0 4 - - - - - - 94,5 88,0 66,0 39,0 - - - EVM 45 9-2F5/30 30 - - - - - - - 122,0 - -
EVM 10 11N5/4.0 4 - - - - - - - 97,0 72,5 43,0 - - - EVM 64 1-1F5/4.0 4 23,7 - - 21,0 20,4 19,7 17,5 15,9 11,4 -
EVM 10 12N5/5.5 5,5 - - - - - - - - 86,5 55,0 - - - EVM 64 1-0F5/5.5 5,5 29,3 - - 26,6 26,1 25,4 23,7 22,3 18,5 13,5
EVM 10 14N5/5.5 5,5 - - - - - - - - - 64,5 - - - EVM 64 2-2F5/7.5 7,5 47,5 - - 42,5 41,5 40,5 36,5 33,5 25,3 -
EVM 10 15F5/5.5 5,5 - - - - - - - - - 69,0 - - - EVM 64 2-1F5/11 11 53,0 - - 48,0 47,0 46,0 42,5 40,0 32,4 23,0
EVM 10 16F5/7.5 7,5 - - - - - - - - - 73,5 - - - EVM 64 2-0F5/11 11 58,5 - - 53,5 53,0 52,0 49,0 46,5 39,5 30,6
EVM 10 18F5/7.5 7,5 - - - - - - - - - 83,0 - - - EVM 64 3-3F5/15 15 71,0 - - 64,0 62,5 61,0 55,5 51,0 39,3 -
EVM 10 20F5/7.5 7,5 - - - - - - - - - 92,0 - - - EVM 64 3-2F5/15 15 76,5 - - 69,5 68,0 66,5 61,5 57,5 46,5 32,5
EVM 18 2F5/2.2 2,2 32,0 - - - - - 31,0 30,3 28,5 25,7 21,9 17,2 11,6 EVM 64 3-1F5/15 15 82,5 - - 75,0 74,0 72,5 68,0 64,0 53,5 40,0
EVM 18 3F5/3.0 3 48,0 - - - - - 46,0 45,5 43,0 38,6 32,8 25,7 17,4 EVM 64 3-0F5/18.5 18,5 88,0 - - 80,5 79,5 78,0 74,0 70,5 60,5 47,5
EVM 18 4F5/4.0 4 64,0 - - - - - 61,5 60,5 57,0 51,5 44,0 34,3 23,2 EVM 64 4-3F5/18.5 18,5 - - - 91,0 89,0 87,0 80,5 75,5 60,5 42,0
EVM 18 5F5/5.5 5,5 80,0 - - - - - 77,0 75,5 71,5 64,5 54,5 43,0 29,0 EVM 64 4-2F5/18.5 18,5 - - - 96,5 95,0 93,0 87,0 81,5 67,5 49,5
EVM 18 6F5/5.5 5,5 96,0 - - - - - 92,0 91,0 85,5 77,0 65,5 51,5 34,8 EVM 64 4-1F5/22 22 - - - - 101,0 98,5 93,0 88,0 74,5 57,0
EVM 18 7F5/7.5 7,5 - - - - - - - - 100,0 90,0 76,5 60,0 40,5 EVM 64 4-0F5/22 22 - - - - - - 99,0 94,5 81,5 64,5
EVM 18 8F5/7.5 7,5 - - - - - - - - - - 87,5 68,5 46,5 EVM 64 5-3F5/30 30 - - - - - - 106,0 99,5 81,5 59,0
EVM 18 10F5/11 11 - - - - - - - - - - - 93,5 69,0 EVM 64 5-2F5/30 30 - - - - - - - 106,0 88,5 66,5
EVM 18 12F5/11 11 - - - - - - - - - - - - 83,0 EVM 64 5-1F5/30 30 - - - - - - - - 95,5 74,0
EVM 18 14F5/15 15 - - - - - - - - - - - - 96,5 EVM 64 5-0F5/30 30 - - - - - - - - 103,0 81,5
EVM 18 15F5/15 15 - - - - - - - - - - - - 104,0 EVM 64 6-3F5/30 30 - - - - - - - - 103,0 76,0
EVM 18 16F5/15 15 - - - - - - - - - - - - 110,0 EVM 64 6-2F5/30 30 - - - - - - - - 110,0 83,5
EVM 64 6-1F5/37 37 - - - - - - - - 117,0 91,0
EVM 64 6-0F5/37 37 - - - - - - - - - 99,0
EVM 64 7-3F5/37 37 - - - - - - - - - 93,0
EVM 64 7-2F5/37 37 - - - - - - - - - 101,0
EVM 64 7-1F5/37 37 - - - - - - - - - 108,0
Note : Performance table shown base on one (1) pump operating capacity, if two (2) pumps system operation, please multi capacity x 2.
PERFORMANCE TABLE
Pump typeEVM 3-5-10-18
Kw / Motor
Q = Capacity
PERFORMANCE TABLE
Pump typeEVM 32-64
Kw / Motor
Q = Capacity
H = Total manometric head in metersH = Total manometric head in meters
463
ISOMETRIC DRAWING
HYDRO-P
464
HYDRO-P
SELECTION GUIDE
0
200
Tota
l H
ead
(m)
9
120
100
140
160
180
2HP-EVM3
220
240
260
m /hr.3
4.5
20
40
60
80
HP EVM 18F5/2.2
31.5 6 7.5
HP EVM 13N5/1.5
HP EVM 26F5/3.0
HP EVM 22F5/2.2
HP EVM 15N5/1.5
HP EVM 9N5/1.1
HP EVM 11N5/1.1
HP EVM 6N5/0.75
HP EVM 7N5/0.75
HP EVM 3N5/0.37
HP EVM 4N5/0.55
HP EVM 5N5/0.55
HP EVM 2N5/0.37
60
40
20
7.53
m /hr.
260
240
220
2HP-EVM5
180
160
140
100
120
15
Tota
l H
ead
(m)
200
0
HP EVM 5N5/1.1
80
10 12.52.5 5
HP EVM 19F5/4.0
HP EVM 16N5/3.0
HP EVM 12N5/2.2
HP EVM 14N5/3.0
HP EVM 10N5/2.2
HP EVM 6N5/1.1
HP EVM 7N5/1.5
HP EVM 8N5/1.5
HP EVM 3N5/0.55
HP EVM 4N5/0.75
HP EVM 2N5/0.37
HP EVM 11N5/2.2
HP EVM 22F5/4.0
HP EVM 24F5/5.5
HP EVM 18F5/4.0
465
SELECTION GUIDE
HYDRO-P
80
60
40
20
153
m /hr.
260
240
220
2HP-EVM10
180
160
140
100
120
30
Tota
l H
ead
(m)
200
0 105 20 25
HP EVM 20F5/7.5
HP EVM 16F5/7.5
HP EVM 15F5/5.5
HP EVM 14N5/5.5
HP EVM 10N5/4.0
HP EVM 11N5/4.0
HP EVM 12N5/5.5
HP EVM 8N5/3.0
HP EVM 5N5/2.2
HP EVM 6N5/2.2
HP EVM 3N5/1.1
HP EVM 2N5/0.75
HP EVM 4N5/1.5
HP EVM 22F5/11
HP EVM 18F5/7.5
0
200
Tota
l H
ead
(m)
48
120
100
140
160
180
2HP-EVM18
220
240
260
m /hr.3
24
20
40
60
80
40328 16 24
HP EVM 16F5/15
HP EVM 15F5/15
HP EVM 14F5/15
HP EVM 8F5/7.5
HP EVM 10F5/11
HP EVM 7F5/7.5
HP EVM 12F5/11
HP EVM 2F5/2.2
HP EVM 5F5/5.5
HP EVM 6F5/5.5
HP EVM 3F5/3.0
HP EVM 4F5/4.0
466
HYDRO-P
SELECTION GUIDE
80
60
40
20
423
m /hr.
260
240
220
2HP-EVM32
180
160
140
100
120
84
Tota
l H
ead
(m)
200
0
280
300
705614 28 42
HP EVM 1-0F5/2.2
HP EVM 2-2F5/3.0
HP EVM 2-0F5/4.0
HP EVM 3-3F5/5.5
HP EVM 3-0F5/5.5
HP EVM 4-3F5/7.5
HP EVM 4-0F5/7.5
HP EVM 5-3F5/11
HP EVM 5-0F5/11
HP EVM 6-3F5/11
HP EVM 6-0F5/11
HP EVM 7-3F5/15
HP EVM 7-0F5/15
HP EVM 8-3F5/15
HP EVM 8-0F5/15
HP EVM 9-3F5/18.5
HP EVM 9-0F5/18.5
HP EVM 10-3F5/18.5
HP EVM 10-1F5/18.5
120
260
180
160
220
240
200
80
60
100
120
140
0
20
40
Tota
l Hea
d (m
)
2HP-EVM45
60 m /hr.3
4020 80 100
HP EVM 2-0F5/7.5
HP EVM 3-2F5/11
HP EVM 3-0F5/11
HP EVM 7-2F5/30
HP EVM 6-2F5/22
HP EVM 6-0F5/22
HP EVM 5-0F5/18.5
HP EVM 4-0F5/15
HP EVM 5-2F5/18.5
HP EVM 4-2F5/15
HP EVM 1-1F5/3.0
HP EVM 1-0F5/4.0
HP EVM 2-2F5/5.5
HP EVM 9-2F5/30
HP EVM 8-0F5/30
HP EVM 8-2F5/30
HP EVM 7-0F5/30
467
SELECTION GUIDE
HYDRO-P
84
2HP-EVM64
Tota
l Hea
d (m
)
40
20
0
140
120
100
60
80
200
160
180
168
10
30
50
70
90
110
130
150
170
190
m /hr.3
5628 112 140
HP EVM 6-2F5/30
HP EVM 6-1F5/37
HP EVM 6-0F5/37
HP EVM 5-0F5/30
HP EVM 6-3F5/30
HP EVM 5-1F5/30
HP EVM 4-0F5/22
HP EVM 5-3F5/30
HP EVM 5-2F5/30
HP EVM 4-3F5/18.5
HP EVM 4-2F5/18.5
HP EVM 4-1F5/22
HP EVM 3-1F5/15
HP EVM 3-0F5/18.5
HP EVM 3-2F5/15
HP EVM 2-0F5/11
HP EVM 3-3F5/15
HP EVM 2-1F5/11
HP EVM 1-1F5/4.0
HP EVM 1-0F5/5.5
HP EVM 2-2F5/7.5
HP EVM 7-1F5/37HP EVM 7-2F5/37
HP EVM 7-3F5/37
80
60
40
20
260
240
220
180
160
140
100
120
Tota
l H
ead
(m)
200
3HP-EVM3
HP EVM 18F5/2.2
0 3
m /hr.157.552.5 10 12.5
HP EVM 13N5/1.5
HP EVM 26F5/3.0
HP EVM 22F5/2.2
HP EVM 15N5/1.5
HP EVM 9N5/1.1
HP EVM 11N5/1.1
HP EVM 6N5/0.75
HP EVM 7N5/0.75
HP EVM 3N5/0.37
HP EVM 4N5/0.55
HP EVM 5N5/0.55
HP EVM 2N5/0.37
468
HYDRO-P
SELECTION GUIDE
80
0
200
Tota
l H
ead
(m)
120
100
140
160
180
220
240
260
20
40
60
m /hr.
3HP-EVM5
3316.5
HP EVM 5N5/1.1
115.5 22 27.5
HP EVM 11N5/2.2
HP EVM 2N5/0.37
HP EVM 4N5/0.75
HP EVM 3N5/0.55
HP EVM 8N5/1.5
HP EVM 7N5/1.5
HP EVM 6N5/1.1
HP EVM 10N5/2.2
HP EVM 14N5/3.0
HP EVM 12N5/2.2
HP EVM 16N5/3.0
HP EVM 19F5/4.0
HP EVM 18F5/4.0
HP EVM 24F5/5.5
HP EVM 22F5/4.0
3
0
200
Tota
l H
ead
(m)
120
100
140
160
180
220
240
260
20
40
60
80
3m /hr.
3HP-EVM10
4522.5157.5 30 37.5
HP EVM 4N5/1.5
HP EVM 2N5/0.75
HP EVM 3N5/1.1
HP EVM 6N5/2.2
HP EVM 5N5/2.2
HP EVM 8N5/3.0
HP EVM 12N5/5.5
HP EVM 11N5/4.0
HP EVM 10N5/4.0
HP EVM 14N5/5.5
HP EVM 15F5/5.5
HP EVM 16F5/7.5
HP EVM 20F5/7.5
HP EVM 18F5/7.5
HP EVM 22F5/11
469
SELECTION GUIDE
HYDRO-P
80
60
40
20
260
240
220
180
160
140
100
120
Tota
l H
ead
(m)
200
0
3HP-EVM18
483
m /hr.963216 64 80
HP EVM 4F5/4.0
HP EVM 3F5/3.0
HP EVM 6F5/5.5
HP EVM 5F5/5.5
HP EVM 2F5/2.2
HP EVM 12F5/11
HP EVM 7F5/7.5
HP EVM 10F5/11
HP EVM 8F5/7.5
HP EVM 14F5/15
HP EVM 15F5/15
HP EVM 16F5/15
80
60
40
20
633
m /hr.
260
240
220
3HP-EVM32
180
160
140
100
120
126
Tota
l H
ead
(m)
200
0
280
4221 84 105
300
HP EVM 1-0F5/2.2
HP EVM 2-2F5/3.0
HP EVM 2-0F5/4.0
HP EVM 3-3F5/5.5
HP EVM 3-0F5/5.5
HP EVM 4-3F5/7.5
HP EVM 4-0F5/7.5
HP EVM 5-3F5/11
HP EVM 5-0F5/11
HP EVM 6-3F5/11
HP EVM 6-0F5/11
HP EVM 7-3F5/15
UN EVM 7-0F5/15
HP EVM 8-3F5/15
HP EVM 8-0F5/15
HP EVM 9-3F5/18.5
HP EVM 9-0F5/18.5
HP EVM 10-3F5/18.5
HP EVM 10-1F5/18.5
HP EVM 11-3F5/22
HP EVM 11-0F5/22
470
HYDRO-P
SELECTION GUIDE
180
260
180
160
220
240
200
80
60
100
120
140
0
20
40
Tota
l Hea
d (m
)
3HP-EVM45
90 m /hr.3
6030 120 150
HP EVM 2-0F5/7.5
HP EVM 3-2F5/11
HP EVM 3-0F5/11
HP EVM 7-2F5/30
HP EVM 6-2F5/22
HP EVM 6-0F5/22
HP EVM 5-0F5/18.5
HP EVM 4-0F5/15
HP EVM 5-2F5/18.5
HP EVM 4-2F5/15
HP EVM 1-1F5/3.0HP EVM 1-0F5/4.0
HP EVM 2-2F5/5.5
HP EVM 9-2F5/30
HP EVM 8-0F5/30
HP EVM 8-2F5/30
HP EVM 7-0F5/30
126
3HP-EVM64
Tota
l Hea
d (m
)
40
20
0
140
120
100
60
80
200
160
180
252
10
30
50
70
90
110
130
150
170
190
m /hr.3
210
8442 168 210
HP EVM 6-2F5/30
HP EVM 6-1F5/37
HP EVM 6-0F5/37
HP EVM 5-0F5/30
HP EVM 6-3F5/30
HP EVM 5-1F5/30
HP EVM 4-0F5/22
HP EVM 5-3F5/30
HP EVM 5-2F5/30
HP EVM 4-3F5/18.5
HP EVM 4-2F5/18.5
HP EVM 4-1F5/22
HP EVM 3-1F5/15
HP EVM 3-0F5/18.5
HP EVM 3-2F5/15
HP EVM 2-0F5/11
HP EVM 3-3F5/15
HP EVM 2-1F5/11
HP EVM 1-1F5/4.0
HP EVM 1-0F5/5.5
HP EVM 2-2F5/7.5
HP EVM 7-1F5/37
HP EVM 7-2F5/37
HP EVM 7-3F5/37
471
SELECTION GUIDE
HYDRO-P
80
60
40
20
260
240
220
180
160
140
100
120
Tota
l H
ead
(m)
200
4HP-EVM3
0 3
m /hr.18963 12 15
HP EVM 18F5/2.2
HP EVM 13N5/1.5
HP EVM 26F5/3.0
HP EVM 22F5/2.2
HP EVM 15N5/1.5
HP EVM 9N5/1.1
HP EVM 11N5/1.1
HP EVM 6N5/0.75
HP EVM 7N5/0.75
HP EVM 3N5/0.37
HP EVM 4N5/0.55
HP EVM 5N5/0.55
HP EVM 2N5/0.37
80
0
200
Tota
l H
ead
(m)
120
100
140
160
180
220
240
260
20
40
60
m /hr.
4HP-EVM5
3316.5
HP EVM 5N5/1.1
115.5 22 27.53
HP EVM 11N5/2.2
HP EVM 2N5/0.37
HP EVM 4N5/0.75
HP EVM 3N5/0.55
HP EVM 8N5/1.5
HP EVM 7N5/1.5
HP EVM 6N5/1.1
HP EVM 10N5/2.2
HP EVM 14N5/3.0
HP EVM 12N5/2.2
HP EVM 16N5/3.0
HP EVM 19F5/4.0
HP EVM 18F5/4.0
HP EVM 24F5/5.5
HP EVM 22F5/4.0
472
HYDRO-P
SELECTION GUIDE
0
200
Tota
l H
ead
(m)
120
100
140
160
180
220
240
260
20
40
60
80
3m /hr.
4HP-EVM10
6030 50402010
HP EVM 4N5/1.5
HP EVM 2N5/0.75
HP EVM 6N5/2.2
HP EVM 5N5/2.2
HP EVM 8N5/3.0
HP EVM 12N5/5.5
HP EVM 11N5/4.0
HP EVM 10N5/4.0
HP EVM 14N5/5.5
HP EVM 15F5/5.5
HP EVM 16F5/7.5
HP EVM 20F5/7.5
HP EVM 3N5/1.1
HP EVM 18F5/7.5
HP EVM 22F5/11
80
60
40
20
260
240
220
180
160
140
100
120
Tota
l H
ead
(m)
200
0
4HP-EVM18
483
m /hr.963216 64 80
HP EVM 4F5/4.0
HP EVM 3F5/3.0
HP EVM 6F5/5.5
HP EVM 5F5/5.5
HP EVM 2F5/2.2
HP EVM 12F5/11
HP EVM 7F5/7.5
HP EVM 10F5/11
HP EVM 8F5/7.5
HP EVM 14F5/15
HP EVM 15F5/15
HP EVM 16F5/15
473
SELECTION GUIDE
HYDRO-P
80
60
40
20
843
m /hr.
260
240
220
4HP-EVM32
180
160
140
100
120
168
Tota
l H
ead
(m)
200
0
280
300
5628 112 140
HP EVM 10-1F5/18.5HP EVM 10-3F5/18.5
HP EVM 9-0F5/18.5
HP EVM 9-3F5/18.5
HP EVM 8-0F5/15
HP EVM 8-3F5/15
HP EVM 7-0F5/15
HP EVM 7-3F5/15
HP EVM 6-0F5/11
HP EVM 6-3F5/11
HP EVM 5-0F5/11
HP EVM 5-3F5/11
HP EVM 4-0F5/7.5
HP EVM 4-3F5/7.5
HP EVM 3-0F5/5.5
HP EVM 3-3F5/5.5
HP EVM 2-0F5/4.0
HP EVM 2-2F5/3.0
HP EVM 1-0F5/2.2
240
260
180
160
220
240
200
80
60
100
120
140
0
20
40
Tota
l Hea
d (m
)
4HP-EVM45
120 m /hr.3
40 80 160 200
HP EVM 2-2F5/5.5
HP EVM 1-0F5/4.0HP EVM 1-1F5/3.0
HP EVM 4-2F5/15
HP EVM 5-2F5/18.5
HP EVM 4-0F5/15
HP EVM 5-0F5/18.5
HP EVM 6-0F5/22
HP EVM 6-2F5/22
HP EVM 7-2F5/30
HP EVM 3-0F5/11
HP EVM 3-2F5/11
HP EVM 2-0F5/7.5
HP EVM 7-0F5/30
HP EVM 8-2F5/30
HP EVM 8-0F5/30
HP EVM 9-2F5/30
474
HYDRO-P
SELECTION GUIDE
168
4HP-EVM64
Tota
l Hea
d (m
)
40
20
0
140
120
100
60
80
200
160
180
336
10
30
50
70
90
110
130
150
170
190
m /hr.3
210
11256 224 280
HP EVM 2-2F5/7.5
HP EVM 1-0F5/5.5
HP EVM 1-1F5/4.0
HP EVM 2-1F5/11
HP EVM 3-3F5/15
HP EVM 2-0F5/11
HP EVM 3-2F5/15
HP EVM 3-0F5/18.5
HP EVM 3-1F5/15
HP EVM 4-1F5/22
HP EVM 4-2F5/18.5
HP EVM 4-3F5/18.5
HP EVM 5-2F5/30HP EVM 5-3F5/30
HP EVM 4-0F5/22
HP EVM 5-1F5/30
HP EVM 6-3F5/30
HP EVM 5-0F5/30
HP EVM 6-0F5/37HP EVM 6-1F5/37
HP EVM 6-2F5/30
HP EVM 7-3F5/37
HP EVM 7-2F5/37
HP EVM 7-1F5/37
0
200
Tota
l H
ead
(m)
24
120
100
140
160
180
5HP-EVM3
220
240
260
m /hr.3
12
20
40
60
80
HP EVM 18F5/2.2
201684
HP EVM 13N5/1.5
HP EVM 26F5/3.0
HP EVM 22F5/2.2
HP EVM 15N5/1.5
HP EVM 9N5/1.1
HP EVM 11N5/1.1
HP EVM 6N5/0.75
HP EVM 7N5/0.75
HP EVM 3N5/0.37
HP EVM 4N5/0.55
HP EVM 5N5/0.55
HP EVM 2N5/0.37
475
SELECTION GUIDE
HYDRO-P
60
40
20
19.53
m /hr.
260
240
220
5HP-EVM5
180
160
140
100
120
39
Tota
l H
ead
(m)
200
0
HP EVM 5N5/1.1
80
136.5 26 32.5
HP EVM 19F5/4.0
HP EVM 16N5/3.0
HP EVM 12N5/2.2
HP EVM 14N5/3.0
HP EVM 10N5/2.2
HP EVM 6N5/1.1
HP EVM 7N5/1.5
HP EVM 8N5/1.5
HP EVM 3N5/0.55
HP EVM 4N5/0.75
HP EVM 2N5/0.37
HP EVM 11N5/2.2
HP EVM 22F5/4.0
HP EVM 24F5/5.5
HP EVM 18F5/4.0
80
60
40
20
37.53
m /hr.
260
240
220
5HP-EVM10
180
160
140
100
120
75
Tota
l H
ead
(m)
200
0 2512.5 50 62.5
HP EVM 20F5/7.5
HP EVM 16F5/7.5
HP EVM 15F5/5.5
HP EVM 14N5/5.5
HP EVM 10N5/4.0
HP EVM 11N5/4.0
HP EVM 12N5/5.5
HP EVM 8N5/3.0
HP EVM 5N5/2.2
HP EVM 6N5/2.2
HP EVM 3N5/1.1
HP EVM 2N5/0.75
HP EVM 4N5/1.5
HP EVM 22F5/11
HP EVM 18F5/7.5
476
HYDRO-P
SELECTION GUIDE
0
200
Tota
l H
ead
(m)
120
120
100
140
160
180
5HP-EVM18
220
240
260
m /hr.3
60
20
40
60
80
4020 80 100
HP EVM 16F5/15
HP EVM 15F5/15
HP EVM 14F5/15
HP EVM 8F5/7.5
HP EVM 10F5/11
HP EVM 7F5/7.5
HP EVM 12F5/11
HP EVM 2F5/2.2
HP EVM 5F5/5.5
HP EVM 6F5/5.5
HP EVM 3F5/3.0
HP EVM 4F5/4.0
80
60
40
20
1053
m /hr.
260
240
220
5HP-EVM32
180
160
140
100
120
210
Tota
l H
ead
(m)
200
0
280
300
7035 140 175
HP EVM 1-0F5/2.2
HP EVM 2-2F5/3.0
HP EVM 2-0F5/4.0
HP EVM 3-3F5/5.5
HP EVM 3-0F5/5.5
HP EVM 4-3F5/7.5
HP EVM 4-0F5/7.5
HP EVM 5-3F5/11
HP EVM 5-0F5/11
HP EVM 6-3F5/11
HP EVM 6-0F5/11
HP EVM 7-3F5/15
HP EVM 7-0F5/15
HP EVM 8-3F5/15
HP EVM 8-0F5/15
HP EVM 9-3F5/18.5
HP EVM 9-0F5/18.5
HP EVM 10-3F5/18.5
HP EVM 10-1F5/18.5
477
SELECTION GUIDE
HYDRO-P
300
260
180
160
220
240
200
80
60
100
120
140
0
20
40
Tota
l Hea
d (m
)
5HP-EVM45
150 m /hr.3
10050 200 250
HP EVM 2-0F5/7.5
HP EVM 3-2F5/11
HP EVM 3-0F5/11
HP EVM 7-2F5/30
HP EVM 6-2F5/22
HP EVM 6-0F5/22
HP EVM 5-0F5/18.5
HP EVM 4-0F5/15
HP EVM 5-2F5/18.5
HP EVM 4-2F5/15
HP EVM 1-1F5/3.0HP EVM 1-0F5/4.0
HP EVM 2-2F5/5.5
HP EVM 9-2F5/30
HP EVM 8-0F5/30
HP EVM 8-2F5/30
HP EVM 7-0F5/30
210
5HP-EVM64
Tota
l Hea
d (m
)
40
20
0
140
120
100
60
80
200
160
180
420
10
30
50
70
90
110
130
150
170
190
m /hr.3
14070 280 350
HP EVM 6-2F5/30
HP EVM 6-1F5/37
HP EVM 6-0F5/37
HP EVM 5-0F5/30
HP EVM 6-3F5/30
HP EVM 5-1F5/30
HP EVM 4-0F5/22
HP EVM 5-3F5/30
HP EVM 5-2F5/30
HP EVM 4-3F5/18.5
HP EVM 4-2F5/18.5
HP EVM 4-1F5/22
HP EVM 3-1F5/15
HP EVM 3-0F5/18.5
HP EVM 3-2F5/15
HP EVM 2-0F5/11
HP EVM 3-3F5/15
HP EVM 2-1F5/11
HP EVM 1-1F5/4.0
HP EVM 1-0F5/5.5
HP EVM 2-2F5/7.5
HP EVM 7-1F5/37
HP EVM 7-2F5/37
HP EVM 7-3F5/37
478
L1mm
Dmm
Emm
Fmm
H3mm
D1mm
H1mm
Hmm
H2mm
Ømm
L2mm
L3mm
TANKLITER
SUCTIONMANIFOLD
mm
DISCHARGEMANIFOLD
mm
DIMENSION
MODELW
mm
2HP-EVM 3 1030 180 350 250 1600 180 400
2HP-EVM 5 1030 180 350 250 1600 180 400
2HP-EVM 10 1200 210 390 250 1600 250 400
2HP-EVM 18 1345 305 440 250 1600 250 600
2HP-EVM 32 1400 305 440 305 1600 250 600
2HP-EVM 45 1520 360 550 360 1800 500 600
2HP-EVM 64 1520 360 550 360 1800 500 600
50 50
50 50
65 65
80 80
100 100
150 150
150 150
300L 100 300 1085 610 780 710
500L 100 300 1370 760 910 860
1000L 100 300 1850 760 910 860
1500L 100 300 1750 1000 1100 1100
2000L 100 300 1985 1100 1200 1200
2000L 100 300 1985 1100 1200 1200
L3
H1
L1
F
Ø
H2
DE
H3
'X'
D1
H
HYDRO-P
DIMENSIONAL DRAWING 2HP (EVM)
479
DIMENSIONAL DRAWING 3HP (EVM)
HYDRO-P
L1mm
Dmm
Emm
Fmm
H3mm
D1mm
H1mm
Hmm
H2mm
Ømm
L2mm
L3mm
TANKLITER
SUCTIONMANIFOLD
mm
DISCHARGEMANIFOLD
mm
DIMENSION
MODELW
mm
3HP-EVM 3 1380 180 350 250 1600 230 600
3HP-EVM 5 1380 180 350 250 1600 230 600
3HP-EVM 10 1590 210 390 250 1600 250 600
3HP-EVM 18 1785 305 440 250 1600 250 600
3HP-EVM 32 1840 305 440 305 1600 250 600
3HP-EVM 45 2070 360 550 360 1800 500 850
3HP-EVM 64 2070 360 550 360 1800 500 850
50 50
50 50
65 65
100 100
150 150
150 150
150 150
300L 100 300 1085 610 780 710
500L 100 300 1370 760 910 860
1000L 100 300 1850 760 910 860
1500L 100 300 1750 1000 1100 1100
2000L 125 300 1985 1100 1200 1200
2000L 125 300 1985 1100 1200 1200
H1
L3 L1
Ø
H2
F E DE
H3
D1
'X'
H
480
HYDRO-P
DIMENSIONAL DRAWING 4HP (EVM)
L1mm
Dmm
Emm
Fmm
H3mm
D1mm
H1mm
Hmm
H2mm
Ømm
L2mm
L3mm
TANKLITER
SUCTIONMANIFOLD
mm
DISCHARGEMANIFOLD
mm
DIMENSION
MODELW
mm
4HP-EVM 3 1730 180 350 250 1600 230 600
4HP-EVM 5 1730 180 350 250 1600 230 600
4HP-EVM 10 1980 210 390 250 1600 250 600
4HP-EVM 18 2225 305 440 250 1600 250 650
4HP-EVM 32 2280 305 440 305 1600 250 650
4HP-EVM 45 2620 360 550 360 1800 500 850
4HP-EVM 64 2620 360 550 360 1800 500 850
65 65
65 65
80 80
100 100
150 150
200 200
200 200
300L 100 300 1085 610 910 710
500L 100 300 1370 760 910 860
1000L 100 300 1850 760 910 860
1500L 100 300 1750 1000 1100 1100
2000L 125 300 1985 1100 1200 1200
2000L 125 300 1985 1100 1200 1200
H2
L3
H1
L1
F
Ø
DEE E
H3
D1
'X'
H
481
L1mm
Dmm
Emm
Fmm
H3mm
D1mm
H1mm
Hmm
H2mm
Ømm
L2mm
L3mm
TANKLITER
SUCTIONMANIFOLD
mm
DISCHARGEMANIFOLD
mm
DIMENSION
MODELW
mm
5HP-EVM 3 2080 180 350 250 1600 230 650
5HP-EVM 5 2080 180 350 250 1600 230 650
5HP-EVM 10 2370 210 390 250 1600 250 650
5HP-EVM 18 2665 305 440 250 1600 250 650
5HP-EVM 32 2720 305 440 305 1600 250 650
5HP-EVM 45 3170 360 550 360 1800 500 1000
5HP-EVM 64 3170 360 550 360 1800 500 1000
80 80
80 80
100 100
150 150
200 200
200 200
200 200
300L 100 300 1085 610 910 710
500L 100 300 1370 760 910 860
1000L 100 300 1850 760 910 860
1500L 100 300 1750 1000 1100 1100
2000L 125 300 1985 1100 1200 1200
2000L 125 300 1985 1100 1200 1200
PUMP2
TR R
PUMP1
ST STPST
T
STP
R
ST
PUMP5PUMP4
ST
R
STP
T
PUMP3
ST
R
STP
T
B
T
STP
R Y
H2
H1
Ø
D1
EE DE
DISCHARGE
H3
L3 L1
EF
VIEW 'X'
SUCTION
L2
W
HYDRO BOOSTER
'X'
H
DIMENSIONAL DRAWING 5HP (EVM)
HYDRO-P