Baode heat exchanger equipment co.,Ltd
Baode heat exchanger equipment co.,Ltd
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SUS304/316L Brazed Plate Heat Exchanger Evaporator For Refrigeration Oil Cooler And Gas Boiler
Product Description
Analysis of heat transfer efficiency
The heat transfer efficiency of plate heat exchangers depends on a number of factors, including plate material, flow path design, fluid properties, flow rate and temperature difference. The heat transfer efficiency of plate heat exchanger can be improved effectively by optimizing plate design, increasing fluid velocity and controlling temperature difference reasonably. In addition, regular maintenance and maintenance is also an important measure to maintain the stability of heat transfer efficiency.
When using a plate heat exchanger, follow the following steps:
1. Check whether the device is in good condition and ensure that all connection parts are securely secured.
2. According to the process requirements, the fluid is connected to the corresponding import and export pipelines;
3. Start the circulating pump so that the fluid forms a steady flow between the plates;
4. Adjust the temperature and flow of the fluid to achieve the desired heat transfer! Effect;
5. Monitor the operating status of the equipment and adjust the parameters in time to maintain stable operation;
6. In the process of use, pay attention to the temperature difference, pressure and leakage of the cable heat exchanger, and deal with any anomalies in time.
Application field examples
Brazed plate heat exchangers are widely used in petrochemical, pharmaceutical, food processing, energy, environmental protection and other fields. In these industries, plate heat exchangers provide stable and reliable heat exchange solutions for various processes with their high efficiency, energy saving and environmental protection characteristics.
| Model | BL26 |
| Width, A [mm] | 111 |
| Height, B [mm] | 310 |
| Length, E [mm] | 10+2.36n |
| Horizontal port distance, C [mm] | 50 |
| Vertical port distance, D [mm] | 250 |
| Max pressure [Mpa] | 3 |
| Max flowrate [M3/h] | 8.1 |
| Weight [kg] | 1.3+0.12n |
Model
BL1
| Model | BL14 | BL20 | BL26 | BL26C | BL50 | BL95 |
| Width, A [mm] | 78 | 76 | 111 | 124 | 111 | 191 |
| Height, B [mm] | 206 | 310 | 310 | 304 | 525 | 616 |
| Length, E [mm] | 9+2.3n | 9+2.3n | 10+2.36n | 13+2.4n | 10+2.35n | 11+2.35n |
| Horizontal port distance, C [mm] | 42 | 42 | 50 | 70 | 50 | 92 |
| Vertical port distance, D [mm] | 172 | 282 | 250 | 250 | 466 | 519 |
| Max pressure [Mpa] | 3 | 3 | 3 | 3/4.5 | 3/4.5 | 3/4.5 |
| Max flowrate [M3/h] | 3.6 | 3.6 | 8.1 | 8.1 | 12.7 | 39 |
| Weight [kg] | 0.6+0.06n | 1.0+0.08n | 1.3+0.12n | 2.2+0.16n | 2.6+0.19n | 7.8+0.36n |
| Model | BL120 | BL190 | BL200 | BL1400 | BL100 * | BL200 * |
| Width, A [mm] | 246 | 307 | 321 | 429 | 248 | 322 |
| Height, B [mm] | 528 | 696 | 738 | 1398 | 495 | 739 |
| Length, E [mm] | 13+2.36n | 13+2.75n | 13+2.7n | 22+2.78n | 10+2.15n | 13+2.55n |
| Horizontal port distance, C [mm] | 174 | 179 | 188 | 220 | 157 | 205.2 |
| Vertical port distance, D [mm] | 456 | 567 | 603 | 1190 | 405 | 631 |
| Max pressure [Mpa] | 3 | 3 | 2.1 | 1.5 | 3/4.5 | 3/4.5 |
| Max flowrate [M3/h] | 42 | 100 | 100 | 300 | 42 | 100 |
| Weight [kg] | 7.2+0.52n | 12.5+0.72n | 13+0.75n | 31.8+1.73n | 6.5+0.37n | 13+0.78n |