| Customization: | Available |
|---|---|
| After-sales Service: | Consult Newin Sales Representative |
| Warranty: | Consult Newin Sales Representative |
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Dry-Wet Hybrid Cooling Mode
The NCFN-GS cooling tower is engineered with an adaptive cooling feature, allowing it to seamlessly transition between operational modes based on ambient temperature variations, ensuring peak performance at all times.Dry Cooling Mode
In conditions where the temperature drops below -10ºC, or when the output temperature falls below the preset level, the spray pump halts its activity, and the cooling tower automatically shifts to dry cooling mode. This strategic switch significantly reduces water evaporation during colder periods, and in certain scenarios, provides ice-cold water as an efficient alternative to traditional refrigeration, ultimately resulting in noteworthy water and energy savings.
Wet Cooling Mode
Upon temperatures exceeding a predetermined limit (-2ºC), or when output temperatures rise above set thresholds, the spray pump activates, transitioning the cooling tower into wet cooling mode. This mode leverages evaporative cooling to deliver substantial cooling capacity, ensuring efficient operation even in high-temperature conditions.
Water saving, Energy conservation, Environmental protection
> Compared to traditional wet cooling towers, this system remarkably reduces spray water usage, decreasing overall water consumption significantly, promoting sustainability.
> With cutting-edge intelligent control systems and advanced cooling technology, this solution optimizes energy consumption, improves energy efficiency, and realizes substantial electricity savings, enhancing cost-effectiveness.
> The dry-wet hybrid cooling mechanism effectively reduces water mist emissions, leading to a diminished environmental footprint and promoting enhanced eco-friendliness.
Operation & Maintenance Cost Saving
> The closed-circuit circulation system ensures the cooling medium remains uncontaminated, which minimizes water treatment costs and reduces contamination. During winter, the utilization of dry cooling mode significantly lowers the risk of freezing, protecting cooling tower components and reducing both operational and maintenance expenses. This design promises long-term stable performance and reliability.
> With factory-assembled components, the product is designed for easy transportation and installation, saving both time and effort, and ensuring a hassle-free setup process.
Forced Draft Centrifugal Fan Drive System
Featuring a renowned brand centrifugal fan, certified by the AMCA Seal for exceptional air performance, sound quality, and FEG. Equipped with specialized wheel blades and belt pulley drive, this fan undergoes extensive static and dynamic testing, ensuring balance to a G2.5 grade. This guarantees optimal cooling efficiency with minimal noise output. With an impressive air volume flow range from 1000m3h-100000m3h, it stands out with its outstanding stability, remarkable efficiency, low noise levels, and reduced power consumption.
Key Parts for Closed Circuit System And Dry-Wet Cooling Modes.
The fluid medium requiring cooling circulates through the fin tube heat exchanger and stainless steel heat exchange coil within the closed circuit system, which not only ensures a clean operation but also reduces water treatment and maintenance costs. This system is pivotal in conserving vital water resources while delivering efficient cooling.
Fin tube heat exchanger and stainless steel heat exchange coil are not only essential components of closed circuit systems, but also key elements of Dry-wet cooling modes.
Finned Tube Heat Exchanger
Our fin tube heat exchanger is meticulously crafted using robust stainless steel tubes paired with aluminum spiral fins. This design not only offers exceptional anti-corrosion properties but also ensures remarkable stability, making it ideal for longevity and reliability.. Ingeniously engineered, the structural design of our fin tube maximizes the heat exchange area to elevate efficiency in heat transfer. It facilitates thorough air exchange with the fin tube, optimizing performance. This leads to water-saving operations across both dry and wet cooling stages, ensuring your equipment runs smoothly and efficiently. It also efficiently mitigates the incidence of 'white smoke' during winter cooling tower operations, thereby maintaining an optimal working environment for your equipment. This function extends the service life of your machinery, providing peace of mind and operational excellence.
Stainless Steel Heat Exchange Coil
Our premium heat exchange coil features a stainless steel serpentine bending tube set within a robust framework, delivering unmatched thermal performance. This design ensures full contact with spray water, achieving superior heat exchange and efficient cooling, making our system a pinnacle of effective thermal management. Crafted from stainless steel, these heat exchange pipes are not only resistant to corrosion but are also lightweight and recyclable, offering a sustainable and durable solution.
Optional Various Additional Functions
Enhance your system with a range of optional features: Two-speed & VFD variable frequency motor, Vibration Cut-off Switch, Electronic descaler, Water treatment equipment, Anti-freeze automatic heating system, Noise reduction upgrade, External maintenance platform and guardrail, plus an installation and maintenance boom.
| 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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