jm ionpac alta
TRANSCRIPT
Agadir · Athens · Balboa · Beira · Bourgas
C á d i z · C a i r o · C a p e To w n
Caracas · Dubai · Durban · Faroe Islands
Florida · Gafanha de Nazaré · Galatzi
Geesthacht · Gothenburg · Hong kong
Istambul · Killibegs · Las Palmas · Lisboa
Macaé · Manta · Mar de l P la ta
Middlesex · Milsons Point · Montevideo
Mumbai · Nea Smyrni · Nouakchot
Oostende · Oslo · Parañaque · Port Nelson
Pusan · Quebec · Reikiavik · Rio Janeiro
S a i n t L a u r e n t · S a n g h a i
San Petersburg · Seatle · Singapore
Sofiemyz · Spijkenisse · Strendur
Szczeci · Talcahuano · Tampico · Trieste
Tu n i s i e · Tu r k u · Va l b y · V i g o
Walvis Bay
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Polígono Industrial de Bens Gutenberg, 32 - -
Telf.: 981 981 Fax: +34 - 981 258 439
E-mail: [email protected]
15008 - LA CORUÑA - ESPAÑA
250 111 +34 - 269 267 +34 -
www.geficoenterprise.com
S inpa
Agadir · Athens · Balboa · Beira · Bourgas
C á d i z · C a i r o · C a p e To w n
Caracas · Dubai · Durban · Faroe Islands
Florida · Gafanha de Nazaré · Galatzi
Geesthacht · Gothenburg · Hong kong
Istambul · Killibegs · Las Palmas · Lisboa
Macaé · Manta · Mar de l P la ta
Middlesex · Milsons Point · Montevideo
Mumbai · Nea Smyrni · Nouakchot
Oostende · Oslo · Parañaque · Port Nelson
Pusan · Quebec · Reikiavik · Rio Janeiro
S a i n t L a u r e n t · S a n g h a i
San Petersburg · Seatle · Singapore
Sofiemyz · Spijkenisse · Strendur
Szczeci · Talcahuano · Tampico · Trieste
Tu n i s i e · Tu r k u · Va l b y · V i g o
Walvis Bay
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Polígono Industrial de Bens Gutenberg, 32 - -
Telf.: 981 981 Fax: +34 - 981 258 439
E-mail: [email protected]
15008 - LA CORUÑA - ESPAÑA
250 111 +34 - 269 267 +34 -
www.geficoenterprise.com
S inpa
Agadir · Athens · Balboa · Beira · Bourgas
C á d i z · C a i r o · C a p e To w n
Caracas · Dubai · Durban · Faroe Islands
Florida · Gafanha de Nazaré · Galatzi
Geesthacht · Gothenburg · Hong kong
Istambul · Killibegs · Las Palmas · Lisboa
Macaé · Manta · Mar de l P la ta
Middlesex · Milsons Point · Montevideo
Mumbai · Nea Smyrni · Nouakchot
Oostende · Oslo · Parañaque · Port Nelson
Pusan · Quebec · Reikiavik · Rio Janeiro
S a i n t L a u r e n t · S a n g h a i
San Petersburg · Seatle · Singapore
Sofiemyz · Spijkenisse · Strendur
Szczeci · Talcahuano · Tampico · Trieste
Tu n i s i e · Tu r k u · Va l b y · V i g o
Walvis Bay
· · · ·
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·· ·· ·· ···· ··
········ ··
······ ·· ··
······ ··
······ ·· ··
···· ··········
·· ·· ········
··
Polígono Industrial de Bens Gutenberg, 32 - -
Telf.: 981 981 Fax: +34 - 981 258 439
E-mail: [email protected]
15008 - LA CORUÑA - ESPAÑA
250 111 +34 - 269 267 +34 -
www.geficoenterprise.com
S inpa
Gefico the only original service provider
eefico Ent rprise
eefico Ent rprise
The most economic and efficient system to prevent marine growth in sea water cooling circuits.
IONPAC Copper Ion Generator
GEF-IO-010408-ING
Antifouling and anticorrosive generatorsIONPAC IONPAC
IONPAC IONPAC
eefico Ent rpriseeefico Ent rprise
Has the same operational c h a r a c t e r i s t i c s l i k e t h e conventional Ionpac Unit, but the aluminium ions modify the formation of cathodic deposits, for corrosion pevention.
IONPAC Copper Aluminium Ion Generator
eficoEfico Enterprise
The unit is composed of the following elements:
Control panel.
lons generator .
Circulating pump.
IONPAC Copper Ion Generator
IONPAC IP 0,5
B) Chlorinated Generators
The factors to be considered are:
The high cost of the unit.
The difficulty of maintaining a sufficiently low chlorine concentration to prevent serious
corrosion problems in the system.
The high cost of the replacement of the platinum cell (five times more expensive than a copper anode).
Heavy power consumption.
With the bove drawbacks in mind, Gefico has developed the IONPAC Generator. The unit solves the problems associated with both chemical water treatment and the chlorinated generator.
Operation.
The lonpac generates copper ions by the use of a copper electrolytic anode of high purity.
A small electric current is passed through the anode. An electronic regulator automatically compensates for conductivity and temperature variations of the sea water. so as to maintain a constant concentration of copper ions (copper salts).
These copper salts are injected into the water at the sea intake, effectively preventing the formation of marine growth throughout the entire system.
At present there are six models to choose from.
3IONPAC-0,5 For treatment up to 300m /h sea water.
3IONPAC-1 For treatment up to 400m /h sea water.
3IONPAC-2 For treatment up to 700m /h sea water.
3IONPAC-3 For treatment up to1200m /h sea water.
3IONPAC-5 For treatment up to 2000m /h sea water.3IONPAC-10 For treatment up to 3500m /h sea water.
The above models meet the requirements of a wide range of vessels, from small fishing boats to large tankers.
The 0.5 GEFICO-Ionpac unit can be easily installed on small ships. The operating current of 40w can be supplied by a 24v battery .
Our technical department is at your disposal to recommend a suitable unit which will meet your requirements. They can also answer any questions relating to assembly instructions and setting to work details.
IONPAC Copper Ion Generator
IONPAC IP 0,5
IONPAC Copper Ion GeneratorIONPAC Copper Ion Generator
The following methods are commonly used to combat the marine growth:
A) Chemical Treatment
The regular addition of chemicals to the cooling water is one method of killing the marine growth. The factors to be considered with this treatment are:
The taking on board of quantities (and if the voyage is long, large quantities) of the chemical, stored in drums.
The method requires a strict regimen, with a person being ass igned the responsibi l i ty of calculating the correct concentration of the chemical to be added, at the required intervals.
There is the question of the hazards of handling chemicals.
The GEFICO-Ionpac generator releases copper ions (CU+2) into the sea water cooling system, which prevents marine growth developing in new systems, and kills the growth in existing system.
The biological components causing marine growth in sea water cooling systems can be divided into two groups:
MICROBIOLOGICALS
These attach themselves to the heat exchanger and other components, reducing the flow of water.
MACROBIOLOGICALS
These colonies not only obstruct the passage of the water, they also release acids which have a corrosive effect on the metal components of the system.
As water flows through the cooling system, it is subjected to friction and turbulence. This includes the drag on the water as it travels through the piping system. the friction and turbulence caused by any bends and elbows in the pipe work, and the water passing through the condensers and valves in the cooling circuit. Marine micro fauna collect where there are changes in the flow of water, resultíng in the rapid growth of molluscs and seaweed.
This growth reduces the volume of water flowíng through the system, whích means the cooling effect is impaired. This results in an increase in the working temperature of the components connected to the cooling system. The remedy is mechanically cleaning the growth from the pipes and other areas of the cooling system, to restore the original water flow. Such cleaning requires the whole system to be shut down, with a consequent loss of time and money.
IONPAC 5 y 10
Selection Example
The ship has a total of 500 m3/h of sea water flow.
What is the current flow to the anodes?
From the 500 m3/hr point we raise a co-ordinate until it sections the axis of the concentration line. On this point we trace a line to the left part of the table, which indicates a current flow of 1.3 amperes.
How long will the electrode last?
We repeat the operation, starting from the 500 m3/hr position, until the line intersects with the water curve of the electrode. On this point we trace a line up to the right of the table and it gives the life of the anode as 10 months of continuous operation.
What type of unit should be installed?
The unit to be selected would be the IONPAC-2.
Dimensions and Power Consumption of the Generators
770
840
715
400
500
200
2
IONPAC Copper Ion Generator
SELECTION GRAPHIC TABLES
IONPAC 3
530
820
610
400
500
200
1,5
IONPAC 1 y 2
400
650
485
400
500
200
0,5
IONPAC 0,5
400
650
440
200
300
150
0,04Consumption (kW)
Control Panel
Length (mm)
Height (mm)
Width (mm)
Length (mm)
Height (mm)
Width (mm)
MODEL
MO
NT
HS
EL
EC
TR
OD
E D
UR
AB
ILIY
MO
NT
HS
EL
EC
TR
OD
E D
UR
AB
ILIT
YM
ON
TH
S E
LE
CT
RO
DE
DU
RA
BIL
ITY
80
76
72
68
64
60
56
52
48
44
40
36
32
28
24
20
16
12
80
76
72
68
64
60
56
52
48
44
40
36
32
28
24
20
16
12
80
84
88
76
72
68
64
60
56
52
48
44
40
36
32
28
24
20
16
12
8
4
8
4
8
4
3500
700
16001400
3000
600
1200
2500
500
1000
FLOW M / H3
FLOW M / H3
FLOW M / H3
2000
400
800
300
1500
600
200
1000
400
100
500
200
10
9,5
9
8,5
8
7,5
7
6,5
6
5,5
5
4,5
4
3,5
3
2,5
2
1,5
1
0,5
0
2
1,9
1,8
1,7
1,6
1,5
1,4
1,3
1,2
1,1
1
0,9
0,8
0,7
0,6
0,5
0,4
0,3
0,2
0,1
0
4
3,8
3,6
3,2
3
2,8
2,6
2,4
2
1,8
1,6
1,4
1,2
1
0,8
0,6
0,4
0,2
0
4,4
4,6
4,8
4,2
AM
PE
RE
CO
NS
UM
PT
ION
(E
LE
CT
RO
DE
)A
MP
ER
E C
ON
SU
MP
TIO
N (
EL
EC
TR
OD
E)
AM
PE
RE
CO
NS
UM
PT
ION
(E
LE
CT
RO
DE
)
IONPAC 2
NE
LIN
IO
AT
TREN
NC
CO
IONPAC 1
CO
NU
SM
TP
OIN
C U
RE
V
IONPAC 0,5
ELI
NN
IO
ATTR
EN
NC
CO
IONPAC 3
CO
NU
SM
TP
OI
NU
CV
RE
CO
NU
SM
TP
OI
NU
CV
RE
CO
NU
SM
TP
OI
NU
CV
RE
ELI
NN
IO
AT
TR
EN
NC
CO
CO
NU
SM
TP
OI
NU
CV
RE
IONPAC 10
IONPAC 5