Refrigeration Equipment Water Tower Round Cooling Tower 8 ~ 300 Ton
DESCRIPTION
A water tower round cooling tower, also known as a circular cooling tower, is a type of cooling tower used in industrial and commercial applications to remove heat from processes or equipment by transferring it to the atmosphere through the process of evaporation. These cooling towers are typically round in shape and offer efficient heat dissipation.
Benefits of Water Tower Round Cooling Towers:
Efficient Heat Dissipation: Round cooling towers provide a large contact area between the water and the air, allowing for effective heat transfer and efficient cooling.
Compact Design: The cylindrical shape of these cooling towers allows for a more compact footprint, making them suitable for installations where space is limited.
Versatile Applications: Water tower round cooling towers are used in a wide range of applications, including power plants, chemical plants, HVAC systems, data centers, and industrial processes that require effective heat removal.
Scalability: Cooling towers can be customized in size and capacity to meet specific heat dissipation requirements.
Reliability: These cooling towers are designed for long-term operation, with durable materials and components that can withstand harsh environmental conditions.
When selecting a water tower round cooling tower, factors to consider include the cooling capacity required, water flow rate, tower dimensions, fan power, and any specific requirements of the application or industry.
Advantage
| | Bottle is a container that can hold liquid or solid, which can be seen everywhere in our life, including medicine bottle, cosmetics bottle and beverage bottle. Due to the rapid development of the petroleum industry, human beings invented high molecular polymer, which is commonly known as plastics. Since then, our bottle materials have changed from single glass or ceramics to various kinds of plastics. Drawing lessons from the long history of glass container blowing process, the extrusion or injection molding plastic mold in relativistic state is placed in the blowing mold, and the mold is inflated by a certain pressure of compressed air to make it close to the cavity wall. After cooling and setting, the mold is demolished to obtain the plastic hollow products with the same shape as the cavity. This is the hollow blow molding process we are familiar with. |
Technical Parameter
| Model | |||||
| Item | Unit | Date | |||
| Injection system | Screw Diameter | mm | 40 | 45 | 50 |
| Max. Theoretical injection capacity | G | 176 | 260 | 314 | |
| Heating capacity | KW | 7.2 | 10 | 10 | |
| No. of heating area | Qty | 3 | 3 | 3 | |
| Clamping & blowing system | Clamping force of injection | kn | 350 | 450 | 650 |
| Clamping force of blowing | kn | 40 | 78 | 89 | |
| Opening stroke of mold platen | mm | 120 | 120 | 140 | |
| Max. Platen size (L×W) | mm | 420×340 | 560×390 | 740×390 | |
| Min. Mold thickness (H) | mm | 180 | 240 | 280 | |
| Heating capacity of mould | KW | 2.8 | 4.0 | 5.0 | |
| Product dimension range | Suitable bottle range | ml | 3-800 | 3-800 | 5-800 |
| Max. bottle height | mm | ≤180 | ≤200 | ≤200 | |
| Max. Dia. of bottle | mm | ≤80 | ≤80 | ≤80 | |
| Dry cycle | s | 4 | |||
| Hydraulic driving system | Motor power | KW | 11/15 | 18.7/22 | 17 |
| hydraulic pressure | Mpa | 14 | 14 | 14 | |
| Pneumatic system | Min. Air pressure | Mpa | ≥0.8 | 1.0 | 1.0 |
| Discharge rate of compressed air | M3/mm | ≥0.7 | ≥0.8 | ≥0.8 | |
| Cooling system | Water flowage | M3/h | 3 | 3 | 4 |
| Total rated power with mold heating | KW | 21/25 | 34/38 | 45 | |
| Machine information | Dimension | M | 3.1×1.2×2.2 | 3.5×1.4×2.3 | 4×1.28×2.35 |
| machine weight | Ton | 4.0 | 6.0 | 7.5 | |
Application
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