| Customization: | Available |
|---|---|
| After-sales Service: | Consult Newin Sales Representative |
| Warranty: | Consult Newin Sales Representative |
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ADVANTAGE
Dry-Wet Hybrid Cooling Mode
The NCFN-GS cooling tower is ingeniously designed to seamlessly adapt its operational modes to respond to the dynamic changes in ambient temperature, ensuring reliable performance regardless of external climatic conditions.Dry Cooling Mode
In dry cooling mode, when temperatures dip below a chilly -10ºC or when the output temperature is lower than the pre-set threshold, the spray pump halts, allowing the cooling tower to transition smoothly to dry cooling. This strategic shift minimizes water evaporation during the frigid months, offering ice water under certain conditions as a sustainable alternative to traditional refrigeration, thus achieving remarkable water and energy savings.
Wet Cooling Mode
Wet cooling mode is activated when temperatures soar above a specific threshold (-2ºC) or when output temperatures exceed set limits. The prompt activation of the spray pump propels the cooling tower into wet cooling mode, leveraging evaporative cooling to deliver enhanced cooling capacity, perfectly suited for high-demand scenarios.
Water saving, Energy conservation, Environmental protection
> Compared to traditional wet cooling towers, this innovative system significantly cuts down on spray water usage and slashes overall water consumption, promoting resource efficiency.
> With the integration of intelligent control systems and advanced cooling technology, this product achieves reduced energy consumption while enhancing energy utilization, leading to substantial savings in electricity.
> The ingenious dry-wet hybrid cooling system effectively curtails water mist emissions, diminishing environmental impact and significantly heightening eco-friendliness.
Operation & Maintenance Cost Saving
> The closed-circuit circulation system ensures the cooling medium remains pristine, reducing water contamination and slashing water treatment costs. The adoption of dry cooling mode during winter further mitigates the risk of freezing, protecting cooling tower components and dramatically cutting down on equipment operation and maintenance expenses, all while guaranteeing the enduring, stable operation of equipment.
> With factory assembly, transportation, and installation streamlined for convenience, this product saves precious time and effort, optimizing operational efficiency.
MAIN PARTS
Forced Draft Centrifugal Fan Drive System
Our cutting-edge centrifugal fan, a prestigious AMCA Seal holder for air performance, sound, and FEG, features expertly crafted wheel blades and a belt pulley drive. Engineered with precision, it undergoes extensive static and dynamic balancing tests to an exceptional G2.5 grade. This guarantees superior cooling tower heat transfer capabilities with remarkably low noise levels. It delivers a powerful air volume, with a flow range spanning from 1000m3h-100000m3h. Standout attributes include unmatched stability, remarkable efficiency, whisper-quiet operation, and reduced power consumption.
Key Parts for Closed Circuit System And Dry-Wet Cooling Modes.
Within our state-of-the-art system, the fluid medium requiring cooling circulates seamlessly through the fin tube heat exchanger and stainless steel heat exchange coil within the closed circuit system, maintaining pristine fluid conditions, curtailing water treatment and maintenance costs, and conserving valuable water resources while optimizing cooling performance.
Fin tube heat exchanger and stainless steel heat exchange coil are indispensable not only within closed circuit systems but also as vital components of Dry-wet cooling modes.
Finned Tube Heat Exchanger
Engineered with precision, the fin tube heat exchanger features stainless steel tubes and aluminum spiral fins, granting exceptional anti-corrosion properties and enhanced structural stability. Its design optimizes the heat exchange area to maximize heat transfer efficiency, ensuring comprehensive air engagement with the fin tube, ultimately achieving water-conserving operation of the equipment during both dry and wet cooling phases. Moreover, it effectively prevents the formation of "white smoke" during winter operations, ensuring a pristine working environment and extending the equipment's longevity.
Stainless Steel Heat Exchange Coil
Crafted with excellence, the heat exchange coil employs a stainless steel serpentine bending tube and a robust framework, delivering exceptional thermal performance, ensuring full contact with spray water for optimal heat exchange and efficient cooling. The stainless steel heat exchange pipes boast high corrosion resistance, lightweight design, and are eco-friendly, being fully recyclable.
Optional Various Additional Functions
We offer a wide array of optional features, including Two-speed & VFD variable frequency motors, Vibration Cut-off Switch, Electronic descaler, Water treatment equipment, Anti-freeze automatic heating system, Noise reduction upgrade, External maintenance platform and guardrail, Installation and maintenance boom, and much more.
| Model | Wet Cooling | Free Cooling | Fan Motor | Spray Pump | Total Dimension (without silencer) |
Weight | ||||
| Fluid flow | Cooling capacity | Capacity 12/7/0ºC |
Power | Power | L | W | H | Shipping | Operation | |
| m³/h | kW | kW | kW | kW | mm | mm | mm | kg | kg | |
| NCFN-GS-L-510-F | 66 | 340 | 77 | 5.5 | 2.2 | 4680 | 2200 | 2920 | 3468 | 5184 |
| NCFN-GS-L-510-S | 66 | 340 | 108 | 7.5 | 2.2 | 4680 | 2200 | 3040 | 3636 | 5421 |
| NCFN-GS-L-640-S | 97 | 499 | 111 | 7.5 | 2.2 | 4680 | 2200 | 3240 | 3908 | 5812 |
| NCFN-GS-L-640-E | 97 | 499 | 142 | 11.0 | 2.2 | 4680 | 2200 | 3360 | 4082 | 6041 |
| NCFN-GS-L-1000-F | 119 | 612 | 139 | 15.0 | 4.0 | 6920 | 2200 | 2990 | 5438 | 8061 |
| NCFN-GS-L-1000-S | 119 | 612 | 211 | 18.5 | 4.0 | 6920 | 2200 | 3110 | 5647 | 8213 |
| NCFN-GS-L-1250-S | 175 | 900 | 218 | 22.0 | 4.0 | 6920 | 2200 | 3310 | 5898 | 8698 |
| NCFN-GS-L-1250-E | 175 | 900 | 273 | 30.0 | 4.0 | 6920 | 2200 | 3430 | 6107 | 9019 |
| NCFN-GS-L-1560-F | 225 | 1158 | 206 | 37.0 | 5.5 | 7520 | 2400 | 3190 | 6291 | 9928 |
| NCFN-GS-L-1560-S | 225 | 1158 | 273 | 37.0 | 5.5 | 7520 | 2400 | 3310 | 6534 | 10311 |
| NCFN-GS-L-1560-E | 225 | 1158 | 273 | 45.0 | 5.5 | 7520 | 2400 | 3430 | 6777 | 10694 |
| Note: 1. Standard Design Working Condition: Fluid in/out temperature: 35/30ºC. 2. Standard design ambient wet/dry bulb temperature: 21/31ºC. 3. Above data sheet based on 40% ethylene glycol solution fluid. 4. Please contact NEWIN sales representative if working condition not same as above standard design condition. |
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NEWIN FACTORY
Nestled in the vibrant Huizhou, Guangdong, our expansive manufacturing base spans an impressive 10,000 square meters, offering a state-of-the-art environment for innovation and production excellence.
ISO CERTIFICATION
Boasting prestigious ISO certifications, including ISO9001:2015 for Quality Management and ISO14001:2015 for Environmental Management, Newin exemplifies a commitment to superior quality and sustainable practices.
WORKSHOPS
Welding Workshop
Filler Thermoforming Workshop
Sheet Metal Processing Workshop
Cooling Tower Assembly Workshop
Open Type Cooling Towers Shipment: Experience seamless transit with our expertly coordinated shipping solutions, ensuring your equipment arrives on time and in pristine condition.
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