Evaporator flow principle
The channels formed between the corrugated plates and corners are arranged so that the two media flow
Through alternate channels, always in opposite directions (counter current flow). The two phase refrigerant (vapor + liquid) enters the bottom left of the exchanger with a vapor quality depending on the operating condition of the plant. Evaporation of the liquid phase takes place inside the channels and some degrees of superheat are always requested, which is the reason why the process is called "dry expansion". In the enclosed evaporator picture the dark and light blue arrows show the location of the refrigerant connections. The water (brine) to be cooled flows counter current in the opposite channel; The dark and light red arrows show the location of the water (brine) connections.
Standard design
The plate pack is covered by cover plates. Connections are located in the front or rear cover plate. The channel plates are corrugated to improve heat transfer efficiency and to make them rigid.
Dual system
The real dual circuit patented by Baode in a solution with diagonal flow is obtained by means of pressed plates. The Brazed Plate Heat Exchanger can be connected with two independent refrigerant circuits. The special design ensures that each refrigerant circuit is in contact with the entire water flow. The main advantage is that at partial load (only one compressor running) water cooling is uniform and performance is maximized.
Standard materials
Cover plates: Stainless steel AISI 316
Connections: Stainless steel AISI 316
Plates: Stainless steel AISI 316
Brazing material: Copper
Particulars required for quotation
To enable Baode's representative to make a specific quotation, enquiries should be accompanied by the following particulars:
Flow rates or heat load required
Temperature program
Physical properties of liquids in question
Desired working pressure
Maximum permitted pressure drop
Short delivery time.
High quality
Reasonable price
Customer made
Know-how design and customer support
| Model |
BL210 |
| Width, A [mm] |
322 |
| Height, B [mm] |
739 |
| Length, E [mm] |
13+2.55n |
| Horizontal port distance, C [mm] |
205.2 |
| Vertical port distance, D [mm] |
631 |
| Max pressure [Mpa] |
3/4.5 |
| Max flowrate [M3/h] |
100 |
| Weight [kg] |
13+0.78n |
| 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 |
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