Shanghai Shenglin M&E Technology Co., Ltd.
Shanghai Shenglin M&E Technology Co., Ltd.
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Closed Circuit System Free Cooling Type Fluid Cooler With Spray Water System
What is closed-loop dry cooling system?
The strength of a closed-loop dry cooling system is that the unit is very simple and relatively easy to install. The energy requirements are relatively low and it is easily controlled. Maintenance is normally low requiring only periodic inspection, lubrication, and testing of the fluid.
The weakness of a closed-loop dry cooling system is that it is dependent on the atmospheric dry bulb. For example, if your location’s design dry bulb is 100 F in the summer and your equipment requires 90 F coolant; at best the system can only supply around 105 to 110 F coolant to the load. In this case you would need supplemental cooling to get the coolant temperatures down to 90 F.
The closed-loop dry cooling system also requires free clear air to work efficiently. This means that the fluid cooler must be placed in a location that is not affected by the prevailing winds, not too close to a building that will allow the warm exhaust air from the fluid cooler to be recirculated back to the fluid cooler, and finally not in a location that has heavy concentrations of dust, dirt, leaves, seeds, etc.
Many times the best location for the fluid cooler is on the roof. Since the fluid cooler is located outside the coolant must also have a concentration of some type of glycol to prevent freezing if your location has a design dry bulb in the winter that dips below freezing. If the location is very cold, the concentration of glycol may need to be significant to prevent freezing. Glycol concentrations as they increase begin to reduce the rate of heat transfer. For example, if you need 50% ethylene glycol concentration with water the heat exchanger equipment and the flow/pressure of the coolant will need to increase to adjust for the glycol concentration. Larger fluid coolers and pumps will increase the cost of the system over those with lesser concentrations of Glycol/water. This cannot be prevented in colder climates.
Dry fluid cooler features:
| Air discharge direction |  |
| Performance ranges | Cooling capacity: from 5 to 649 kw Air volume: from 2828 to 263503 m3/h Sound pressure level: from 31 to 69 dB A(10m) Dry coolers:customized on demand |
| High efficiency heat exchanger | Capacity designs for maximizing the heat transfer relative to the energy consumption of the fan. Tube and tube coupling design for low pressure drop in the coil on the media sides(maximum 100KPa at water designing condition). Our thermodynamic and aerodynamic designing software is long year tested and proved in Germany |
| Fan | Only choose low specific energy consumption fans. Fan nozzle designs for maximum air flow and air throw. Our fans from the world`s leading manufacturer are practically proved to be reliable in operation and long lasting. Motor: protection class IP 54 and insulation class F. Voltage:400V/3N/50Hz Air separator for each fan. |
| Testing | Heat exchangers are supplied clean and tested at a pressure of 30 bars |
| Options | Coil design refrigerant: water, oil, glycol. Multiple circuits. Sub-cooling circuits. Stainless steel or aluminum casing. Coated aluminum or copper fins. Explosion ploof motor. Customized fin spacing.
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Fluid Cooler Technical Paraments
Flat series — Double rows fans
| H*FD*91 | Fan Dim mm | * | H*FD491 | H*FD691 | H*FD89 | H*FD1091 | H*FD1291 | H*FD1491 | H*FD1691 | H*FD1891 |
| Rated Capacities (kW) Heat Exchange Surface (㎡) | ||||||||||
| Fluid Coolers | 910 | D | 237kW-1632kW 454㎡-4903㎡ (Water/Ta25℃/Tin40℃/Tout35℃) | |||||||
| Freon Condensers | 910 | F | 285kW-1632kW 454㎡-4903㎡ (R404A/Ta35℃/Tk50℃) | |||||||
| Ammonia Condensers | 910 | A | 151kW-1709kW 263㎡-5696㎡ (NH3/Ta35℃/Tk50℃) | |||||||
| Gas Coolers | 910 | G | 156kW-1929kW 358㎡-3859㎡ ( CO2/Tair32℃/Tin113℃/P94Bar/Tout34℃) | |||||||
| Oil Coolers | 910 | O | 174kW-2212kW 454㎡-4903㎡ (OIL ISO VG 46/Ta35℃/Tin85℃/Tout60℃) | |||||||
| Fan Model | 910 | EC | W3G910KU2503 (2.55kW) or FN091-ZIQ.GL.V5P1 (3.2kW) | |||||||
| 910 | AC | W6D910GB0101 (2.02kW) or FN091-SDS.6N.V7P2 (1.85kW) | ||||||||
| No of Fans | 4 | 6 | 8 | 10 | 12 | 14 | 16 | 18 | ||
| Overall Dimensions | 910 | Lenth-1 | 3480 | 4980 | 6480 | 7980 | 9480 | 10980 | 12480 | 13980 |
| Lenth-2 | 4080 | 5880 | 7680 | 9480 | 11280 | 13080 | 14880 | 16680 | ||
| Width | 2265 | |||||||||
| Height | 1740 (Including 800Leg) | |||||||||
Options
| Coil design refrigerant: water, oil, glycol | Multiple circuits |
| Sub-cooling circuits | Stainless steel or aluminum casing |
| Coated aluminum or copper fins | Explosion proof motor |
| Customized fin spacing | EC Fan |
Shenglin dry cooler selection software example:
How to design a dry cooler?
Tell Shenglin the datas as following:
A. Required electrolyte inlet temperature?
B. Required electrolyte outlet temperature?
C. Electrolyte flow?
D. Ambient temperature?
E. Supply power(voltage-Hz-phase)
G. Any other requirements ?
Reference:
| For data center cooling | Country: Mongolia Application: match with precision air conditioner Cooling capacity: 17.6kW Cooling medium: 34% ethylene glycol Supply power: 400V/3P/50Hz Fan brand: Ziehl-Abegg | Country: Russia Application:data center cooling Cooling capacity: 763kW Cooling medium: water Supply power: 380V/3P/50Hz Fan brand: Ziehl-Abegg |
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| For power plant | Country: Hongkong Application: power plant Cooling capacity: 363kW Cooling medium: water Supply power: 415V/3P/50Hz Fan brand: Chinese brand | Country: Russia Application: power plant. Cooling capacity: 180kW Cooling medium: water Supply power: 380V/3P/50Hz Fan brand: Chinese brand |
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