7065 - Supply of Cooling System Glycol & Corrosion Inhibitor, 3.Specifications (3)Status: Approved Confidential Document id: DBAE138291 - Page 1 (4)
Wärtsilä
Corporation
Finland
Technology
RAW WATER QUALITY AND VALIDATED
COOLING WATER ADDITIVES AND
TREATMENT SYSTEMS
This doc. is the property of Wärtsilä Corp. and shall neither be copied, shown or communicated to a third party without the consent of the owner.
Subtitle Product Made 09.10.1998 K. Juoperi /
P. Hanstén Page Document No Rev
Instruction
20, 26, 31, 32, 38,
46, 46F, 50, 64,
31SG, 34SG,
34LPG, 50SG,
20DF, 31DF, 32DF,
34DF, 46DF, 50DF
Appd. 12.10.1998 E. Fontell 1 (4)4V92A0765 m
Made 11.05.2015 Checked 11.05.2015 Approved 12.05.2015 Change Notice: CN-A018774F. Zhang K. Juoperi A. Vakkila
RAW WATER QUALITY AND VALIDATED COOLING WATER ADDITIVES
AND TREATMENT SYSTEMS
FOR WÄRTSILÄ® VASA 32/32LN, WÄRTSILÄ® 20, WÄRTSILÄ® 26, WÄRTSILÄ® 31,
WÄRTSILÄ® 32, WÄRTSILÄ® 38, WÄRTSILÄ® 46, WÄRTSILÄ® 46F, WÄRTSILÄ® 50,
WÄRTSILÄ® 64, WÄRTSILÄ® 20DF, WÄRTSILÄ® 31DF, WÄRTSILÄ® 32DF,
WÄRTSILÄ® 34DF, WÄRTSILÄ® 46DF, WÄRTSILÄ® 50DF, WÄRTSILÄ® 31SG,
WÄRTSILÄ® 34SG, WÄRTSILÄ® 34LPG AND WÄRTSILÄ® 50SG ENGINE TYPES
RAW WATER QUALITY
Raw water quality to be used in the closed cooling water circuits of engines has to meet the following
specification.
Property Unit Limits for
chemical use
Limits for
WWCU*) use
Test method reference
pH 1) - 6,5 – 8,5 6,5 – 8,5 ASTM D 1287 or D 1293
Hardness °dH max. 10 max. 10 ASTM D 1126
Chlorides 1) mg/l max. 80 max. 40 ASTM D 512 or D 4327
Sulphates mg/l max. 150 max. 100 ASTM D 516 or D 4327
*) Wärtsilä Water Conditioner Unit
Use of raw water produced with an evaporator as well as a good quality tap water will normally
ensure that an acceptable raw water quality requirement is fulfilled, but e.g. sea water and rain water
are unsuitable raw water qualities.
1) If a Reverse Osmosis (RO) process is used, min. limit for pH is 6,0 based on the RO process operational
principle. The use of water originating from RO process further presumes that a max. content of 80 mg/l
for chloride content is achieved.
VALIDATED COOLING WATER ADDITIVES
Manufacturer Additive name Additive type
Alm International S.A. Diaprosim RD11 (RD11M) Sodium nitrite
S.A. Arteco N.V. Havoline XLI Organic Acid Technology
Drew Marine
Liquidewt
Maxigard
Sodium nitrite + borate
Sodium nitrite + borate
REFERENCE ONLY | Action Code: F | 10/12/2016 | BMCD# 94619-5.1150-00288
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Manufacturer Additive name Additive type
Chevron (Texaco + Caltex)
Havoline XLI
XL Corrosion Inhibitor
Concentrate
Organic Acid Technology
Organic Acid Technology
GE Water and Process
CorrShield NT 4293
CorrShield NT 4200
Sodium nitrite + borate
Sodium nitrite + borate
Korves Oy Pekar J Organic Acid Technology
Kuwait Petroleum (Danmark) AS
Q8 Corrosion Inhibitor Long-
Life
Organic Acid Technology
Marine Care B.V. Caretreat 2 Diesel Sodium nitrite + borate
Maritech AB Marisol CW Sodium nitrite + borate
Nalco Chemical Company
TRAC102 (ex-Nalcool 2000)
TRAC118 (ex-Nalfleet EWT
9-108)
Sodium nitrite + borate
Sodium nitrite + borate
Solenis (ex- Ashland Water
Technologies)
Drewgard 4109
Liquidewt
Maxigard
Sodium nitrite + borate
Sodium nitrite + borate
Sodium nitrite + borate
Total WT Supra Organic Acid Technology
Vecom Marine Alliance B.V.
Cool Treat NCLT (ex-Vecom
CWT Diesel QC-2)
Sodium nitrite + borate
Wilhelmsen Chemicals AS
(ex. Unitor & Nalfleet)
Dieselguard NB
Rocor NB liquid
Cooltreat AL
Engine Water Treatment 9-108
Nalfleet 2000
Sodium nitrite + borate
Sodium nitrite + borate
Organic Acid Technology
Sodium nitrite + borate
Sodium nitrite + borate
In order to prevent corrosion in the cooling water system, the instructions of right dosage and
concentration of active corrosion inhibitors should always be followed. The information can be found
in the table below.
Product designation Dosage per 1 m³ of
system capacity
Concentration of active corrosion
inhibitor
Diaprosim RD11 (RD11M) 5 kg 1250 ppm as NO2
XL Corrosion Inhibitor
Concentrate
50 - 100 litres 1,8 – 3,7 Brix° of active compounds
measured with a supplier’s refractometer
Drewgard 4109
Liquidewt
Maxigard
16 – 30 litres
8 – 12 litres
16 – 30 litres
640 – 1200 ppm as NO2
470 – 700 ppm as NO2
640 – 1200 ppm as NO2
Havoline XLI 50 - 100 litres 1,8 – 3,7 Brix° of active compounds
measured with a supplier’s refractometer
Corrshield NT 4293
CorrShield NT 4200
10 litres
10 litres
670 – 1000 ppm as NO2
670 – 1000 ppm as NO2
Pekar J 20 litres 30 ppm as Mo
Q8 Corrosion Inhibitor
Long-Life
50 – 100 litres 1.8 – 3.7 Brix° of active compounds
measured with a supplier’s refractometer
Caretreat 2 Diesel 6 - 10 litres 1500 – 2500 ppm as NO2
Marisol CW 6 – 9 litres 1000 – 1500 ppm as NO2
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Product designation Dosage per 1 m³ of
system capacity
Concentration of active corrosion
inhibitor
TRAC102
TRAC118
32 – 48 litres
2.25 - 3.4 litres
1000 - 1500 ppm as NO2
670 - 1000 ppm as NO2
WT Supra 50 - 100 litres 1,8 – 3,7 Brix° of active compounds
measured with a supplier’s refractometer
Cool Treat NCLT (ex-
Vecom CWT Diesel QC-2)
6 - 10 litres 1500 – 2500 ppm as NO2
Dieselguard NB
Rocor NB Liquid
Cooltreat AL
Engine Water Treatment
9-108
Nalfleet 2000
2,0 – 4,8 kg
9,5 - 24 litres
50 – 100 litres
2,25 – 3,4 litres
32 - 48 litres
1000 - 2400 ppm as NO2
1000 - 2400 ppm as NO2
1,8 – 3,7 Brix° of active compounds
measured with a supplier’s refractometer
670 - 1000 ppm as NO2
1000 - 1500 ppm as NO2
Note 1: For many products the recommended minimum and maximum limits are listed in the table
above. Since the amount of active corrosion inhibitors, especially nitrites, is decreasing
during the service of engines, the engine manufacturer recommends to start the dosage from
the upper level of indicated range.
Note 2: The nitrite content of nitrite-based cooling water additives tends to decrease in use. The risk
of local corrosion increases substantially when nitrite content goes below the recommended
limit.
Note 3: Cooling water additive manufacturers can indicate the required nitrite content measured
either as sodium nitrite, NaNO2 or as nitrite, NO2. 1 mg/l as NO2 equals to 1.5 mg/l as
NaNO2.
Note 4: Nitrite based cooling water additives are not offering a good protection against corrosion for
aluminium and its alloys and thus the use of such products can’t recommended for cooling
systems containing those construction materials.
Note 5: Different cooling water additives shall not be mixed with each other, but if it is desired to
start to use another cooling water additive, the one being used shall be drained from the
system before filling another product. If the cooling water system is dirty, it shall be flushed
with good quality water or if needed use additional chemicals to remove possible deposits,
like grease, oil, rust, etc. Though many cooling water additives are chemically compatible
with each other, these can contain e.g. polymers which can loosen existing deposits from the
cooling water system. When the loose deposits become suspended in the cooling water, they
can attach to engine component surfaces, e.g. cylinder head and will then cause detrimental
effects in terms of heat transfer decline, clogging of small diameter water channels and
deposit formation leading to local overheating and corrosion.
VALIDATED COOLING WATER TREATMENT SYSTEMS
WÄRTSILÄ WATER CONDITIONER UNIT
As an alternative to the validated cooling water additives, the Wärtsilä Water Conditioner Unit (WWCU) can
also be used to treat cooling water of engines’ closed water circuits. WWCU is based on the Enwamatic EMM
cooling water treatment system, but includes a number of new features based on Wärtsilä design. The WWCU
protects the engine from corrosion without any chemicals. It acts as a side stream filtration and water treatment
unit and includes the following functions: corrosion protection, scale control, filtration, control of bacterial
growth and air separation.