SPL Evaporative Condensers - Glaciem Cooling
Transcript of SPL Evaporative Condensers - Glaciem Cooling
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SPL Evaporative Condensers
Glaciem Cooling Technologies
Po Box 10057 AdelaideBC 5000
1300 246 127
www. glaciemcoolimg.com
Innovative Natural Solutions
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SPL Features 4
SPL Series Evaporative Condensers 8
SPL Evaporative Condensers Selection Criteria 10
SPL Evaporative Condensers Drawing/Technical Data 12
SPL Evaporative Condensers Optional Extras 20
Table of contents
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Company Introduction
Glaciem Cooling Technologies is the Australian distributor
for the SPL series of evaporate condensers manufactured by
Shanghai Baofeng Refrigeration.
SPL is 100% owned by listed company Lianhe Group with
national resources and solutions for worldwide heat transfer
application located in Shanghai China. SPL is dedicated to
designing and manufacturing the highest quality products for
the evaporative cooling and industrial refrigeration markets
around the globe. Since its founding in 2001, SPL Incorporated
has become an industry leader in the engineering and manu-
facturing of quality heat transfer products in China.
Industry Sectors
The SPL range of condensers are suitable for applications in a variety
of industries from the Food Industry to the Petrochemical industry.
Their range includes both counter flow and combined flow technolo-
gies.
SPL’s powerful combination of financial strength and technical ex-
pertise has established the company as a recognized manufacture of
market leading products on a nationwide basis. SPL is also recognized
for the superior technology of their environmentally friendly products,
innovation in sound reduction and water management. SPL has a
strong emphasis on research and development and modern manufac-
turing plants.
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SPL Series Features
Advanced Technology
SPL’s exclusive condensing coils are manufactured at SPL from high
quality steel tubing following the most stringent quality control proce-
dures. Each circuit is inspected to assure the highest material quality.
All SPL coils are formed in one continuous piece using a unique auto-
matic coil production line, this process limits welding slag, increases
production efficiency and factory lead times.
The coils are hydrologically tested 3 times during the manufacturing
process to 2.5Mpa to ensure they are leak free.
To protect the coil against corrosion, coils are placed in a heavy steel
frame and then the entire assembly is dipped in molten zinc (hot-dip
galvanized) at a temp of 427˚C . The tubes are pitched in the direction
of fluid flow to provide good liquid drainage.
SPL-S Coil Technology
SPL’s standard coils offer the most effective performance of heat trans-
fer with the coil technology and fill combination to avoid the dry spot
and dirt forming on the coils.
SPL’s coils feature an exclusive design which assures maximum cooling
capacity. The airflow through the coil is parallel to the fluid flow, pro-
viding the most efficient heat transfer process. A special coil design
is utilized to reduce the air pressure drop through the unit while max-
imizing tube surface area and increasing its heat transfer capabilities.
The uniquely shaped tubes of the coil are staggered in the direction
of airflow to obtain a high film coefficient.
Advanced Technology-Elliptical Coil
Super Galum
Aluminum zinc
Plating
High heat & staining
Resistance
43.6% Zinc
Advantage:
Stain resistant
1.6% Silicon
Advantage:
Heat resistant
55% Aluminum
Advantage:
Heat resistance
Long lifetime
Super Galum Wall Structure
Super Galum is the brand name for 55% aluminum- zinc coated
steel sheet. Super Galum is highly heat and corrosion resistant,
combining the properties of aluminum which renders increased
durability, excellent heat resistance, formability, and those of zinc
which offers high heat resistance and excellent corrosion protec-
tion. Super Galum is three to six mes more corrosion resistant
than regular zinc coated steel sheet.
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SPL Series Features
Advanced Technology—De-scaling Cleaner
The electronic De-scaling cleaner offers 98%
increased effectiveness over of water scale
inhibition and over 95% increased steriliza-
tion & algae removal over high- frequency
electronic technology. Designed especially for
closed loop cooling towers and evaporative
condensers with low power consumption.
Water scale inhibition and prevention
Sterilization and algae removal
3% 1.50% 5% 2.20%
Measured Before Treatment
Design Standard
Measured After Treatment
100%
50%
0
Patented Fill Technology
SPL® fill design used in the S line evaporative condensers and cooling
towers and is specially designed to induce highly turbulent mixing of
the air and water for superior heat transfer. Special drainage tips allow
high water loadings without excessive pressure drop. The fill is con-
structed of inert polyvinyl chloride, (PVC). It will not rot or decay and
is formulated to withstand water temperatures of 54.4oC. Due to the
unique way the cross-fluted sheets are bonded together in the honey-
comb structure of the fill and the bottom support of the fill section, the
structural integrity of the fill is greatly enhanced, making the fill usable
as a working platform. The fill selected for the condenser and cooling
tower has excellent fire resistant qualities.
Patented Air Inlet Louver
With the SPL two pass louver system, the water droplets
are captured on the inward sloping pass, minimizing
splash-out problems. SPL’s unique louver design for all
SPL’s N lines completely encloses the basin area. Direct
sunlight is blocked from the water inside the condenser
and cooling tower, thereby reducing the potential of algae
formation. Water treatment and maintenance costs are
substantially reduced. While effectively containing the re-
circulating water and blocking sunlight, the louver design
has a low pressure drop. The low pressure drop results in
lower fan energy consumption, which reduces the operat-
ing costs of the cooling tower.
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Patented Drift Eliminator
SPL’s detachable drift eliminator is made from specially de-
signed non-corroding PVC material. The patented eliminators
comply with AS/NZS 3666.1:20116 with a maximum drift loss of
0.001%.
Eliminators are designed for ease of maintenance making them
extremely easy to clean.
Pressurized Water Distribution System
SPL’s exclusive patented maintenance free spray nozzle remains clog-
free while providing even and constant water distribution for reliable,
scale-free evaporative cooling under all operating conditions. Further-
more, the nozzles are mounted in the corrosion-free water distribution
pipes and have threaded end caps.
Together, these elements combine to provide unequaled coil coverage
and scale prevention, which makes them industry’s best performing
non - corrosive, maintenance-free water distribution system.
Patented Metal Air Deflector
With the SPL adjustable air deflector system, the water droplets are cap-
tured on the inward sloping pass, minimizing splash-out problems. SPL’s
unique design for all SPL’s S lines completely encloses the basin area.
Adjustable function keeps direct sunlight away from the water inside the
condenser and cooling tower, thereby reducing the potential of algae for-
mation. Water treatment and maintenance costs are substantially reduced.
While effectively containing the recirculating water and blocking sunlight,
the louver design has a low pressure drop. The low pressure drop results
in lower fan energy consumption, which reduces the operating costs of the
cooling tower.
SPL Series Features
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Direct Drive Axial Fans
SPL direct drive fans offer following advantages over belt driven
fans used by most competitors;
Low failure rate
Easy maintenance
Low noise
Low transmission loss
The axial fan of SPL lines use specific carbon fiber blades for-
ward curved fan, this offers, high air volume, low noise, perfect
performance with high efficiency.
Low Maintenance
The SPL series of evaporative condensers have
several key features:
Sloping Basin
The slope of basin bottom to drain pipe makes for
convenient cleaning and removal of debris.
Large Access Doors
Large access doors and generous inner chamber
makes for convenient examination and repair.
The ball cock and filter of SPL series can be exam-
ined and repaired without stopping the operation
of the condenser due to the same direction for
airflow and water flow. The nozzles and coils also
can be examined and repaired during operation.
Containerized Design for Low Shipping Cost
The SPL-Series products are designed to be shipped in kit form that fits
in 20ft and 40ft containers.
A complete 2.11M x 2.41M unit will fit in a 20’ shipping container.
A complete 2.21M x 5.92M unit will fit in a 40’HQ shipping container.
SPL Series Features
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SPL has earned a reputation for technological innovation and superior product quality by featuring products that are designed to
offer these operating advantages:
Improved cooling efficiency and performance
Lower Energy Consumption
Lower Annual Operating Costs
100%
80%
60%
40%
20%
0Wa ter Consumptio n Maintenance Cost Power Consumption
SPL Serie s
Common Pr oducts
SPL Series Evaporative Condensers
Principle of Operation fro SPL-S Series
The SPL-S series use combined flow technology, combined flow technology improves the efficiency of evaporation and cooling
while also reducing water wastage.
The refrigerant is circulated through the coil of the evaporative condenser. Heat from the refrigerant is dissipated through the
coil tubes.
Water is sprayed in parallel with the fresh ambient air flowing over the outside of the condensing coil. Parallel air and water paths
minimize scale producing dry spots that may be found on the bottom of the tubes in other conventional condensers. The condens-
ing coil rejects heat through both evaporative cooling using the fresh air stream and, more significantly, through sensible cooling of
the pre-cooled recirculating spray water. Reducing this evaporative cooling component from the coil section helps to minimize the
formation scale on the coil surface. A portion of this evaporated heat is discharged sideways to atmosphere by the downward natural
induced air.
The warm moist air is drawn sideways by the fan and is discharged to the atmosphere. The remaining water falls from the coil to the
fill surface section where it is cooled by a second fresh air stream using evaporative heat transfer and eventually to the sump at the
bottom of the condenser where it is recirculated by the pump up through the water distribution system and back down over the coils.
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Direct Drive Axial Flow Fan
Carbon fiber blade, hot dip galvanized cast-
ing, high air flow rate, low noise, efficiency.
Super Galum Wall
55% Aluminum 43.4% Zinc 1.6% Silicon
Coated sheet steel. Positive corrosion re-
sistant, strong tolerance of heat, attractive
and durable. 3-6 times more corrosion re-
sistant than regular zinc coated steel sheet.
Electronic De-scaling
Anti-scaling, De-scaling, Sterilization &
algae removal over 98% of water scale
inhibition and prevention and over 95% of
sterilization & algae removal.
Circulating Pump
High efficiency Siemens drive motor.
Air Inlet Louver
Patented design corrosion-free PVC, mini-
mizes splash out and reduces the potential
for algae formation inside the condenser.
Detachable Drift Eliminator
Non corrosive PVC, Patented design.
Patented Spray Nozzle
Anti clogging, Scale-free, non-corrosive, un-
equaled coil coverage, Maintenances free
Condensing Coils
Unique design, high efficiency heat
exchange process, single run coil
reduces welds and leaks.
SPL Series Evaporative Condensers
Unique Design Features—SPL-S
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Selection CriteriaThe following selection procedure is applicable for screw and reciprocating compressors.
1. Determine the refrigerants
2. Determine the plant Saturated Condensing Temperature
This is the Saturated Condensing Temperature (SCT) that the system has been designed to in ˚C
3. Determine the Wet Bulb temperature (WB)
Highest annual wet bulb temperature for the location at which the plant will operate.
4. Determine the Total Heat of Rejection (THR)
The Total Heat of Rejection (THR) for a given system is determined by adding the evaporator load in kW and the absorbed
power of the compressor kW.
5. Multiply by THR Correction Index
Once the THR has been determined multiply it by the factor for the specified operating conditions( condensing temperature
and wet bulb temperature) this factor can be obtained from Table 1 for Ammonia R717 and Table 2 for R134a.
6. Use SPL data tables to identify correct model
Look up Tables 3 to 9 and choose an evaporative condenser up a capacity greater than the corrected THR
Example
Steps 1,2&3
Refrigerant=R717
Saturated Condensing Temperature = 32˚C
Wet Bulb temperature= 23˚C
Evaporator Load= 900kW
Compressor Absorbed Power= 223kW
Step 4
Evaporator Load= 800kW
Compressor Absorbed Power= 223kW Total
Heat of Rejection (THR) 1023kW
Step 5.
Refrigerant=R717
Saturated Condensing Temperature = 32˚C
Wet Bulb temperature= 23 ˚C
Evaporator Load= 900kW
Compressor Absorbed Power= 223kW
From Table 1 the THR index for 32˚C SCT and 23˚C
WB = 1.20
= 1151kW x 1.20 = 1228kW
Step 6
Table 7 evaporative condenser model SPL-1265 has a THR
> 1228kW
Model selected SPL-1265
Notes on Choosing Models
1. The data and specifications mentioned above are for reference only, information may be revised without prior notice.
2. Refrigerant charge refers to the amount of ammonia R717 under standard freezing running conditions, other refrigerants need
to be calculated separately.
3. The operating weight in the tables is the weight of equipment, refrigerant charge and the weight of water stored in the basin.
4. Nonstandard specials are available on request.
5. The displayed capacity in the following tables is based standard working conditions of 28˚C wet bulb, 38˚C condensing.
SPL Series Evaporative Condensers
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THR Correction Index
10 12 14 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
29 0.89 0.97 1.07 1.19 1.30 1.35 1.46 1.61 1.77 1.98 2.28 2.68 3.30 - - - - -
30 0.84 0.91 1.00 1.09 1.17 1.28 1.33 1.43 1.57 1.74 1.97 2 .22 2.64 - - - - -
31 0.79 0.84 0.92 1.02 1.07 1.13 1.20 1.29 1.39 1.51 1.69 1.88 2.16 2.55 - - - -
32 0.76 0.81 0.86 0.92 0.99 1.04 1.10 1.18 1.26 1.36 1.49 1.66 1.85 2.11 2.50 - - -
33 0.71 0.76 0.81 0.87 0.91 0.97 1.02 1.08 1.14 1.23 1.33 1.44 1.60 1.80 2.06 2.43 - -
34 0.68 0.72 0.77 0.82 0.86 0.89 0.94 0.99 1.05 1.12 1.19 1.29 1.41 1.57 1.76 2.02 2.33 -
35 0.64 0.67 0.72 0.77 0.79 0.83 0.87 0.91 0.97 1.03 1.09 1.17 1.26 1.38 1.53 1.70 1.97 2.29
36 0.62 0.64 0.68 0.73 0.76 0.78 0.82 0.86 0.89 0.93 1.00 1.07 1.14 1.24 1.35 1.51 1.67 1.95
37 0.58 0.61 0.64 0.68 0.71 0.73 0.76 0.86 0.83 0.87 0.91 0.98 1.04 1.12 1.20 1.31 1.50 1.65
38 0.56 0.58 0.62 0.66 0.68 0.69 0.72 0.74 0.77 0.81 0.84 0.89 0.94 1.02 1.09 1.19 1.29 1.48
39 0.53 0.56 0.58 0.62 0.64 0.66 0.67 0.69 0.72 0.76 0.78 0.83 0.87 0.92 0.99 1.07 1.18 1.29
40 0.52 0.53 0.56 0.60 0.61 0.62 0.64 0.66 0.68 0.72 0.74 0.77 0.82 0.86 0.91 0.97 1.05 1.15
41 0.50 0.51 0.53 0.56 0.57 0.58 0.61 0.62 0.64 0.67 0.69 0.72 0.76 0.79 0.83 0.88 0.94 1.03
42 0.48 0.50 0.51 0.53 0.55 0.56 0.58 0.60 0.61 0.63 0.66 0.68 0.71 0.74 0.77 0.82 0.87 0.92
43 0.46 0.47 0.48 0.51 0.52 0.53 0.55 0.56 0.57 0.60 0.62 0.63 0.66 0.68 0.72 0.76 0.81 0.86
44 0.45 0.46 0.47 0.48 0.50 0.51 0.52 0.53 0.55 0.57 0.58 0.61 0.62 0.64 0.67 0.71 0.74 0.78
45 0.42 0.43 0.45 0.46 0.47 0.48 0.50 0.51 0.52 0.53 0.55 0.57 0.58 0.61 0.63 0.66 0.69 0.72
Destination Wet Bulb Temperature (OC)Condensing
Temperature
( OC )
Table 2
Heat Rejection Correction Coefficient for R134A- Concurrent Flow SPL-S Series
10 12 14 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
29 0.72 0.78 0.86 0.96 1.01 1.09 1.18 1.30 1.43 1.60 1.84 2.16 2.66 / / / / /
30 0.68 0.73 0.81 0.88 0.94 1.00 1.07 1.15 1.27 1.40 1.59 1.79 2.13 / / / / /
31 0.64 0.68 0.74 0.82 0.86 0.91 0.97 1.04 1.12 1.22 1.36 1.52 1.74 2.06 / / / /
32 0.61 0.65 0.69 0.74 0.80 0.84 0.89 0.95 1.02 1.10 1.20 1.34 1.49 1.70 2.02 / / /
33 0.57 0.61 0.65 0.70 0.73 0.78 0.82 0.87 0.92 0.99 1.07 1.16 1.29 1.45 1.66 1.96 / /
34 0.55 0.58 0.62 0.66 0.69 0.72 0.76 0.80 0.85 0.90 0.96 1.04 1.14 1.27 1.42 1.63 1.90 /
35 0.52 0.54 0.58 0.62 0.64 0.67 0.70 0.73 0.78 0.83 0.88 0.94 1.02 1.11 1.23 1.37 1.59 1.85
36 0.50 0.52 0.55 0.59 0.61 0.63 0.66 0.69 0.72 0.75 0.81 0.86 0.92 1.00 1.09 1.22 1.35 1.57
37 0.47 0.49 0.52 0.55 0.57 0.59 0.61 0.64 0.67 0.70 0.73 0.79 0.84 0.90 0.97 1.06 1.21 1.33
38 0.45 0.47 0.50 0.53 0.55 0.56 0.58 0.60 0.62 0.65 0.68 0.72 0.76 0.82 0.88 0.96 1.04 1.19
39 0.43 0.45 0.47 0.50 0.52 0.53 0.54 0.56 0.58 0.61 0.63 0.67 0.70 0.74 0.80 0.86 0.95 1.04
40 0.42 0.43 0.45 0.48 0.49 0.50 0.52 0.53 0.55 0.58 0.60 0.62 0.66 0.69 0.73 0.78 0.85 0.93
41 0.40 0.41 0.43 0.45 0.46 0.47 0.49 0.50 0.52 0.54 0.56 0.58 0.61 0.64 0.67 0.71 0.76 0.83
42 0.39 0.40 0.41 0.43 0.44 0.45 0.47 0.48 0.49 0.51 0.53 0.55 0.57 0.60 0.62 0.66 0.70 0.74
43 0.37 0.38 0.39 0.41 0.42 0.43 0.44 0.45 0.46 0.48 0.50 0.51 0.53 0.55 0.58 0.61 0.65 0.69
44 0.36 0.37 0.38 0.39 0.40 0.41 0.42 0.43 0.44 0.46 0.47 0.49 0.50 0.52 0.54 0.57 0.60 0.63
45 0.34 0.35 0.36 0.37 0.38 0.39 0.40 0.41 0.42 0.43 0.44 0.46 0.47 0.49 0.51 0.53 0.56 0.58
Condensing
Temperature
( OC )
Destination Wet Bulb Temperature (OC)
Table 1
Heat Rejection Correction Factors for R717 - Combined Flow SPL-S & SPL-W
SPL Series Evaporative Condensers
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Air Flow Power Pressure Noise Flow Rate Power Net. Operating
KW m3/h KW PaDb (A) /
5mm3/h KW KG KG KG
SPL-150WS 150 1 1 x 20000 1 x 0.75 1 x 80 1 x 60.1 1 1 x 28 1 x 0.75 33 / 17 2030 3260
SPL-160WS 160 1 1 x 22000 1 x 1.1 1 x 90 1 x 69.5 1 1 x 28 1 x 0.75 33 / 17 2040 3270
SPL-180WS 180 1 1 x 28000 1 x 1.5 1 x 110 1 x 66.1 1 1 x 28 1 x 0.75 33 / 17 2050 3280
SPL-205WS 205 1 1 x 35000 1 x 2.2 1 x 140 1 x 71.2 1 1 x 28 1 x 0.75 33 / 17 2060 3290
SPL-225WS 225 1 1 x 28000 1 x 1.5 1 x 110 1 x 66.1 1 1 x 28 1 x 0.75 48 / 25 2170 3400
SPL-250WS 250 1 1 x 35000 1 x 2.2 1 x 140 1 x 71.2 1 1 x 28 1 x 0.75 48 / 25 2180 3410
SPL-265WS 265 1 1 x 40000 1 x 3.0 1 x 160 1 x 72.3 1 1 x 28 1 x 0.75 48 / 25 2190 3420
SPL-295WS 295 1 1 x 35000 1 x 2.2 1 x 140 1 x 71.2 1 1 x 28 1 x 0.75 66 / 34 2300 3530
SPL-320WS 320 1 1 x 40000 1 x 3.0 1 x 160 1 x 72.3 1 1 x 28 1 x 0.75 66 / 34 2310 3540
SPL-340WS 340 1 1 x 45000 1 x 4.0 1 x 180 1 x 74.0 1 1 x 28 1 x 0.75 66 / 34 2320 3550
Condenser PumpCondenser FanHeat of
Rejection
Weight
Qty
Qty
Type
R717
Charge
Table 3
SPL 150WS to 340WS
A B C D E F G H J
mm mm mm mm mm mm mm mm mm a b c d e
SPL-150WS 1830 2210 1998 1280 460 376 2755 3738 280 DN25 DN50 DN50 DN65 DN65
SPL-160WS 1830 2210 1998 1280 480 376 2755 3758 280 DN25 DN50 DN50 DN65 DN65
SPL-180WS 1830 2210 1998 1280 500 376 2755 3778 280 DN25 DN50 DN50 DN65 DN65
SPL-205WS 1830 2210 1998 1280 500 376 2755 3778 280 DN25 DN50 DN50 DN65 DN65
SPL-225WS 1830 2210 1998 1280 500 614 2517 3778 280 DN25 DN50 DN50 DN65 DN65
SPL-250WS 1830 2210 1998 1280 500 614 2517 3778 280 DN25 DN50 DN50 DN65 DN65
SPL-265WS 1830 2210 1998 1280 500 614 2517 3778 280 DN25 DN50 DN50 DN65 DN65
SPL-295WS 1830 2210 1998 1280 500 852 2279 3778 280 DN25 DN50 DN50 DN65 DN65
SPL-320WS 1830 2210 1998 1280 500 852 2279 3778 280 DN25 DN50 DN50 DN65 DN65
SPL-340WS 1830 2210 1998 1280 530 852 2279 3808 280 DN25 DN50 DN50 DN65 DN65
Refrigerant
Outlet Type
Dimension Water
InletDrain Overflow
Pipe
Refrigerant
Inlet
Table 3a
SPL Series Evaporative Condensers
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Air Flow Power Pressure Noise Flow Rate Power Net. Operating
KW m3/h KW PaDb (A) /
5mm3/h KW KG KG KG
SPL-150WS 150 1 1 x 20000 1 x 0.75 1 x 80 1 x 60.1 1 1 x 28 1 x 0.75 33 / 17 2030 3260
SPL-160WS 160 1 1 x 22000 1 x 1.1 1 x 90 1 x 69.5 1 1 x 28 1 x 0.75 33 / 17 2040 3270
SPL-180WS 180 1 1 x 28000 1 x 1.5 1 x 110 1 x 66.1 1 1 x 28 1 x 0.75 33 / 17 2050 3280
SPL-205WS 205 1 1 x 35000 1 x 2.2 1 x 140 1 x 71.2 1 1 x 28 1 x 0.75 33 / 17 2060 3290
SPL-225WS 225 1 1 x 28000 1 x 1.5 1 x 110 1 x 66.1 1 1 x 28 1 x 0.75 48 / 25 2170 3400
SPL-250WS 250 1 1 x 35000 1 x 2.2 1 x 140 1 x 71.2 1 1 x 28 1 x 0.75 48 / 25 2180 3410
SPL-265WS 265 1 1 x 40000 1 x 3.0 1 x 160 1 x 72.3 1 1 x 28 1 x 0.75 48 / 25 2190 3420
SPL-295WS 295 1 1 x 35000 1 x 2.2 1 x 140 1 x 71.2 1 1 x 28 1 x 0.75 66 / 34 2300 3530
SPL-320WS 320 1 1 x 40000 1 x 3.0 1 x 160 1 x 72.3 1 1 x 28 1 x 0.75 66 / 34 2310 3540
SPL-340WS 340 1 1 x 45000 1 x 4.0 1 x 180 1 x 74.0 1 1 x 28 1 x 0.75 66 / 34 2320 3550
SPL 370WS to 495WS
KW m3/h KW Pa Db (A) / 5m m3/h KW KG KG KG
SPL-370WS 370 1 1 x 40000 1 x 3.0 1 x 160 1 x 72.3 1 1 x 28 1 x 0.75 41 2460 3690
SPL-390WS 390 1 1 x 45000 1 x 4.0 1 x 180 1 x 74.0 1 1 x 28 1 x 0.75 41 2470 3700
SPL-420WS 420 1 1 x 40000 1 x 3.0 1 x 160 1 x 72.3 1 1 x 28 1 x 0.75 50 2610 3840
SPL-440WS 440 1 1 x 45000 1 x 4.0 1 x 180 1 x 74.0 1 1 x 28 1 x 0.75 50 2620 3850
SPL-475WS 475 1 1 x 40000 1 x 3.0 1 x 160 1 x 72.3 1 1 x 53 1 x 1.1 114 / 58 2780 3410
SPL-495WS 495 1 1 x 45000 1 x 4.0 1 x 180 1 x 74.0 1 1 x 53 1 x 1.1 114 / 58 2790 3420
TypeHeat of
Rejection
Condenser Pump
Power
Condenser Fan R717
Charge
Weight
QtyAir Flow Pressure Noise
QtyFlow Rate Power Net. Operating
A B C D E F G H J
mm mm mm mm mm mm mm mm mm a b c d e
SPL-370WS 1830 2210 1998 1520 500 1090 2279 4018 280 DN25 DN50 DN80 DN65 DN65
SPL-390WS 1830 2210 1998 1520 530 1090 2279 4048 280 DN25 DN50 DN80 DN65 DN65
SPL-420WS 1830 2210 1998 1755 500 1328 2279 4253 280 DN25 DN50 DN80 DN80 DN80
SPL-440WS 1830 2210 1998 1755 530 1328 2279 4283 280 DN25 DN50 DN80 DN80 DN80
SPL-475WS 1830 2210 1998 1995 500 1566 2279 4493 280 DN25 DN50 DN80 DN80 DN80
SPL-495WS 1830 2210 1998 1995 530 1566 2279 4523 280 DN25 DN50 DN80 DN80 DN80
Refrigerant
OutletType
Dimension Water
InletDrain Overflow
Pipe
Refrigerant
Inlet
Table 4
Table 4a
SPL Series Evaporative Condensers
14
SPL 525WS to 815WS
Air Flow Power Pressure Noise Flow Rate Power Net. Operating
KW m3/h KW PaDb (A) /
5mm3/h KW KG KG KG
SPL-525WS 525 2 2 x 22000 2 x 1.1 2 x 90 2 x 69.5 1 1 x 53 1 x 1.1 128 / 65 3380 5260
SPL-560WS 560 2 2 x 28000 2 x 1.5 2 x 110 2 x 66.1 1 1 x 53 1 x 1.1 128 / 65 3400 5280
SPL-590WS 590 2 2 x 35000 2 x 2.2 2 x 140 2 x 71.2 1 1 x 53 1 x 1.1 128 / 65 3420 5300
SPL-620WS 620 2 2 x 40000 2 x 3.0 2 x 160 2 x 72.3 1 1 x 53 1 x 1.1 128 / 65 3440 5320
SPL-645WS 645 2 2 x 28000 2 x 1.5 2 x 110 2 x 66.1 1 1 x 53 1 x 1.1 152 / 78 3590 5470
SPL-680WS 680 2 2 x 35000 2 x 2.2 2 x 140 2 x 71.2 1 1 x 53 1 x 1.1 152 / 78 3610 5490
SPL-705WS 705 2 2 x 40000 2 x 3.0 2 x 160 2 x 72.3 1 1 x 53 1 x 1.1 152 / 78 3630 5510
SPL-730WS 730 2 2 x 45000 2 x 4.0 2 x 180 2 x 74.0 1 1 x 53 1 x 1.1 152 / 78 3650 5530
SPL-765WS 765 2 2 x 35000 2 x 2.2 2 x 140 2 x 71.2 1 1 x 53 1 x 1.1 178 / 91 3800 5680
SPL-790WS 790 2 2 x 40000 2 x 3.0 2 x 160 2 x 72.3 1 1 x 53 1 x 1.1 178 / 91 3820 5700
SPL-815WS 815 2 2 x 45000 2 x 4.0 2 x 180 2 x 74.0 1 1 x 53 1 x 1.1 178 / 91 3840 5720
Condenser PumpCondenser FanHeat of
Rejection
Weight
QtyQtyType
R717
Charge
Table 5
Table 5a
A B C D E F G H J
mm mm mm mm mm mm mm mm mm a b c d e
SPL-525WS 2790 2210 1998 1520 480 1090 2279 3998 280 DN25 DN50 DN80 DN100 DN100
SPL-560WS 2790 2210 1998 1520 500 1090 2279 4018 280 DN25 DN50 DN80 DN100 DN100
SPL-590WS 2790 2210 1998 1520 500 1090 2279 4018 280 DN25 DN50 DN80 DN100 DN100
SPL-620WS 2790 2210 1998 1520 500 1090 2279 4018 280 DN25 DN50 DN80 DN100 DN100
SPL-645WS 2790 2210 1998 1755 500 1328 2279 4253 280 DN25 DN50 DN80 DN100 DN100
SPL-680WS 2790 2210 1998 1755 500 1328 2279 4253 280 DN25 DN50 DN80 DN100 DN100
SPL-705WS 2790 2210 1998 1755 500 1328 2279 4253 280 DN25 DN50 DN80 DN100 DN100
SPL-730WS 2790 2210 1998 1755 530 1328 2279 4283 280 DN25 DN50 DN80 DN100 DN100
SPL-765WS 2790 2210 1998 1998 500 1566 2279 4493 280 DN25 DN50 DN80 DN100 DN100
SPL-790WS 2790 2210 1998 1998 500 1566 2279 4493 280 DN25 DN50 DN80 DN100 DN100
SPL-815WS 2790 2210 1998 1998 500 1566 2279 4523 280 DN25 DN50 DN80 DN100 DN100
Refrigerant
OutletTypeDimension Water
InletDrain Overflow
Pipe
Refrigerant
Inlet
SPL Series Evaporative Condensers
15
A B C D E F G H J
mm mm mm mm mm mm mm mm mm a b c d e
SPL-525WS 2790 2210 1998 1520 480 1090 2279 3998 280 DN25 DN50 DN80 DN100 DN100
SPL-560WS 2790 2210 1998 1520 500 1090 2279 4018 280 DN25 DN50 DN80 DN100 DN100
SPL-590WS 2790 2210 1998 1520 500 1090 2279 4018 280 DN25 DN50 DN80 DN100 DN100
SPL-620WS 2790 2210 1998 1520 500 1090 2279 4018 280 DN25 DN50 DN80 DN100 DN100
SPL-645WS 2790 2210 1998 1755 500 1328 2279 4253 280 DN25 DN50 DN80 DN100 DN100
SPL-680WS 2790 2210 1998 1755 500 1328 2279 4253 280 DN25 DN50 DN80 DN100 DN100
SPL-705WS 2790 2210 1998 1755 500 1328 2279 4253 280 DN25 DN50 DN80 DN100 DN100
SPL-730WS 2790 2210 1998 1755 530 1328 2279 4283 280 DN25 DN50 DN80 DN100 DN100
SPL-765WS 2790 2210 1998 1998 500 1566 2279 4493 280 DN25 DN50 DN80 DN100 DN100
SPL-790WS 2790 2210 1998 1998 500 1566 2279 4493 280 DN25 DN50 DN80 DN100 DN100
SPL-815WS 2790 2210 1998 1998 500 1566 2279 4523 280 DN25 DN50 DN80 DN100 DN100
SPL 855WS to 980WS
A B C D E F G H J
mm mm mm mm mm mm mm mm mm a b c d e
SPL-855WS 4240 2210 2035 1520 500 1090 2316 4055 280 DN25 DN50 DN80 DN100 DN100
SPL-905WS 4240 2210 2035 1520 500 1090 2316 4055 280 DN25 DN50 DN80 DN100 DN100
SPL-920WS 4240 2210 2035 1520 500 1090 2316 4055 280 DN25 DN50 DN80 DN100 DN100
SPL-980WS 4240 2210 2035 1520 500 1090 2316 4055 280 DN25 DN50 DN80 DN100 DN100
Refrigerant
OutletTypeDimension Water
InletDrain Overflow
Pipe
Refrigerant
Inlet
Table 6a
Qty
Type
Air Flow Power Pressure Noise Flow Rate Power Net. Operating
KW m3/h KW Pa Db (A) / 5m m3/h KW KG KG KG
SPL-855WS 855 3 3 x 28000 3 x 1.5 3 x 110 3 x 66.1 1 1 x 70 1 x 1.5 195 / 99 4890 9030
SPL-905WS 905 3 3 x 35000 3 x 2.2 3 x 140 3 x 71.2 1 1 x 70 1 x 1.5 195 / 99 4920 9060
SPL-920WS 920 3 3 x 40000 3 x 3.0 3 x 160 3 x 72.3 1 1 x 70 1 x 1.5 195 / 99 4950 9090
SPL-980WS 980 3 3 x 45000 3 x 4.0 3 x 180 3 x 74.0 1 1 x 70 1 x 1.5 195 / 99 4980 9120
Type
Heat of
Rejection
Condenser PumpCondenser Fan R717
Charge
Weight
Qty Qty
Table 6
SPL Series Evaporative Condensers
16
SPL 1060WS to 1265WS
A B C D E F G H J
mm mm mm mm mm mm mm mm mm a b c d e
SPL-1060WS 4240 2210 2535 1755 500 1328 2816 4790 280 DN25 DN50 DN80 2xDN100 DN100
SPL-1100WS 4240 2210 2535 1755 500 1328 2816 4790 280 DN25 DN50 DN80 2xDN100 DN100
SPL-1160WS 4240 2210 2535 1755 530 1328 2816 4820 280 DN25 DN50 DN80 2xDN100 DN100
SPL-1215WS 4240 2210 2535 1995 500 1566 2816 5030 280 DN25 DN50 DN80 2xDN100 DN100
SPL-1265WS 4240 2210 2535 1995 530 1566 2816 5060 280 DN25 DN50 DN80 2xDN100 DN100
Refrigerant
OutletTypeDimension Water
InletDrain
Overflow
Pipe
Refrigerant
Inlet
Table 7a
Air Flow Power Pressure Noise Flow Rate Power Net. Operating
KW m3/h KW Pa Db (A) / 5m m3/h KW KG KG KG
SPL-1060WS 1060 3 3 x 35000 3 x 2.2 3 x 140 3 x 71.2 1 1 x 84 1 x 2.2 230 / 119 6040 10180
SPL-1100WS 1100 3 3 x 40000 3 x 3.0 3 x 160 3 x 72.3 1 1 x 84 1 x 2.2 230 / 119 6070 10210
SPL-1160WS 1160 3 3 x 45000 3 x 4.0 3 x 180 3 x 74.0 1 1 x 84 1 x 2.2 230 / 119 6100 10240
SPL-1215WS 1215 3 3 x 40000 3 x 3.0 3 x 160 3 x 72.3 1 1 x 84 1 x 2.2 268 / 139 6380 10520
SPL-1265WS 1265 3 3 x 45000 3 x 4.0 3 x 180 3 x 74.0 1 1 x 84 1 x 2.2 268 / 139 6410 10550
TypeHeat of
Rejection
Condenser Fan
Qty
Table 7
Condenser Pump R717
ChargeQty
Weight
SPL Series Evaporative Condensers
17
SPL 1380WS to 1680WS
Air Flow Power Pressure Noise Flow Rate Power Net. Operating
KW m3/h KW Pa Db (A) / 5m m3/h KW KG KG KG
SPL-1380WS 1380 4 4 x 35000 4 x 2.2 4 x 140 4 x 71.2 1 1 x 150 1 x 3.0 307 / 159 7050 11250
SPL-1450WS 1450 4 4 x 40000 4 x 3.0 4 x 160 4 x 72.3 1 1 x 150 1 x 3.0 307 / 159 7090 11290
SPL-1520WS 1520 4 4 x 45000 4 x 4.0 4 x 180 4 x 73.0 1 1 x 150 1 x 3.0 307 / 159 7130 11330
SPL-1680WS 1680 4 4 x 45000 4 x 4.0 4 x 180 4 x 74.0 1 1 x 150 1 x 3.0 359 / 186 7630 11930
TypeHeat of
RejectionCondenser Fan
Qty
Table 8
Condenser Pump R717
Charge
Weight
Qty
A B C D E F G H J
mm mm mm mm mm mm mm mm mm a b c d e
SPL-1380WS 5620 2210 2535 1755 500 1328 2816 4790 300 DN25 DN50 DN80 2xDN100 DN100
SPL-1450WS 5620 2210 2535 1755 500 1328 2816 4790 300 DN25 DN50 DN80 2xDN100 DN100
SPL-1520WS 5620 2210 2535 1755 530 1328 2816 4820 300 DN25 DN50 DN80 2xDN100 DN100
SPL-1680WS 5620 2210 2535 1995 530 1566 2816 5060 300 DN25 DN50 DN80 2xDN100 DN100
Refrigerant
OutletTypeDimension Water
InletDrain
Overflow
Pipe
Refrigerant
Inlet
Table 8a
SPL Series Evaporative Condensers
18
A B C D E F G H J
mm mm mm mm mm mm mm mm mm a b c d e
SPL-1840WS 7460 2210 2535 1755 500 1328 2816 4790 300 DN25 DN50 DN80 2xDN100 2xDN100
SPL-1935WS 7460 2210 2535 1755 530 1328 2816 4820 300 DN25 DN50 DN80 2xDN100 2xDN100
SPL-2140WS 7460 2210 2535 1995 530 1566 2816 5060 300 DN25 DN50 DN80 2xDN100 2xDN100
Refrigerant
OutletTypeDimension Water
InletDrain
Overflow
PipeRefrigerant
Inlet
Table 9a
SPL 1840WS to 2140WS
Air Flow Power Pressure Noise Flow Rate Power Net. Operating
KW m3/h KW Pa Db (A) / 5m m3/h KW KG KG KG
SPL-1840WS 1840 4 4 x 40000 4 x 3.0 4 x 180 4 x 72.3 1 1 x 180 1 x 4.0 409 / 212 8830 14730
SPL-1935WS 1935 4 4 x 45000 4 x 4.0 4 x 180 4 x 74.0 1 1 x 180 1 x 4.0 409 / 212 8870 14770
SPL-2140WS 2140 4 4 x 45000 4 x 4.0 4 x 180 4 x 74.0 1 1 x 180 1 x 4.0 479 / 248 9470 15370
TypeHeat of Condenser Fan
Qty
Table 9
Condenser Pump R717
ChargeQty
Weight
SPL Series Evaporative Condensers
19
A B C D E F G H J
mm mm mm mm mm mm mm mm mm a b c d e
SPL-1840WS 7460 2210 2535 1755 500 1328 2816 4790 300 DN25 DN50 DN80 2xDN100 2xDN100
SPL-1935WS 7460 2210 2535 1755 530 1328 2816 4820 300 DN25 DN50 DN80 2xDN100 2xDN100
SPL-2140WS 7460 2210 2535 1995 530 1566 2816 5060 300 DN25 DN50 DN80 2xDN100 2xDN100
SPL 1380WS to 1680WS
A B C D E F G H J
mm mm mm mm mm mm mm mm mm a b c d e
SPL-2300WS 9300 2210 2535 1755 500 1328 2816 4790 310 DN25 DN50 DN80 2xDN100 2xDN100
SPL-2420WS 9300 2210 2535 1755 530 1328 2816 4820 310 DN25 DN50 DN80 2xDN100 2xDN100
SPL-2680WS 9300 2210 2535 1995 500 1566 2816 5030 310 DN25 DN50 DN80 2xDN100 2xDN100
SPL-2820WS 9300 2210 2535 1995 530 1566 2816 5060 310 DN25 DN50 DN80 2xDN100 2xDN100
Refrigerant
OutletTypeDimension Water
InletDrain
Overflow
Pipe
Refrigerant
Inlet
Table 10a
Air Flow Power Pressure Noise Flow Rate Power Net. Operating
KW m3/h KW Pa Db (A) / 5m m3/h KW KG KG KG
SPL-1840WS 1840 4 4 x 40000 4 x 3.0 4 x 180 4 x 72.3 1 1 x 180 1 x 4.0 409 / 212 8830 14730
SPL-1935WS 1935 4 4 x 45000 4 x 4.0 4 x 180 4 x 74.0 1 1 x 180 1 x 4.0 409 / 212 8870 14770
SPL-2140WS 2140 4 4 x 45000 4 x 4.0 4 x 180 4 x 74.0 1 1 x 180 1 x 4.0 479 / 248 9470 15370
Air Flow Power Pressure Noise Flow Rate Power Net. Operating
KW m3/h KW Pa Db (A) / 5m m3/h KW KG KG KG
SPL-2300WS 2300 5 5 x 40000 5 x 3.0 5 x 160 5 x 72.3 1 1 x 233 1 x 5.5 516 / 266 11030 18430
SPL-2420WS 2420 5 5 x 45000 5 x 4.0 5 x 180 5 x 74.0 1 1 x 233 1 x 5.5 516 / 266 11080 18480
SPL-2680WS 2680 5 5 x 40000 5 x 3.0 5 x 160 5 x 72.3 1 1 x 233 1 x 5.5 598 / 310 11930 19330
SPL-2820WS 2820 5 5 x 45000 5 x 4.0 5 x 180 5 x 74.0 1 1 x 233 1 x 5.5 598 / 310 11980 19380
TypeHeat of
Rejection
Condenser Fan
Qty
Table 10
Condenser Pump R717
ChargeQty
Weight
SPL Series Evaporative Condensers
20
Casing
SPL evaporative condensers come with Super Galum coating as standard
however the following are available on request.
304 Stainless steel
316 Stainless steel
Coils
Copper coils are available on request.
Sump Heater
IP rated immersion heaters to prevent freezing of the water in the basing
during shutdown or standby are available on request .
Access Ladder and Platform
External access ladder and handrail packages are available to provide
safe access to the top of the unit for maintenance.
SPL Series Evaporative Condensers
Options
21
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