A19 Series Gasket Plate Heat Exchanger SM0254 Material For Metallurgical Industry
A gasketed plate heat exchanger (GPHE) is a type of heat exchanger that consists of a series of metal plates with gaskets between them. It is designed to efficiently transfer heat between two fluids while keeping them separate. GPHEs are widely used in various industries and applications due to their compact size, high heat transfer efficiency, and versatility.
The key features and working principles of a gasketed plate heat exchanger:
Plate Design: GPHEs consist of multiple plates made of materials such as stainless steel or titanium. The plates have corrugated patterns that create turbulence in the fluid flow, enhancing heat transfer efficiency.
Gaskets: The plates in a GPHE are sealed with gaskets made of elastomer materials, such as Nitrile (NBR) or EPDM. The gaskets ensure a tight and leak-free seal between the plates, preventing mixing of the two fluids being exchanged.
Fluid Flow: The two fluids involved in the heat exchange process flow through alternate channels formed between the plates. The counter-current flow arrangement maximizes the temperature difference between the fluids, optimizing heat transfer.
Heat Transfer: As the hot and cold fluids flow through their respective channels, heat is transferred through the plate material from the hot side to the cold side. The corrugated plate design and turbulent flow promote efficient heat transfer, resulting in high overall heat transfer coefficients.
Compact Design: GPHEs offer a compact footprint compared to other types of heat exchangers. The plates are stacked closely together, providing a large heat transfer surface area within a relatively small volume.
Flexibility and Modularity: GPHEs are modular in design, allowing for easy customization and adaptation to different heat transfer requirements. Additional plates can be added or removed to adjust the heat transfer area and capacity as needed.
Easy Maintenance: GPHEs are designed for easy maintenance. The individual plates can be accessed and cleaned or replaced if needed, minimizing downtime and reducing maintenance costs.
Versatility: GPHEs are suitable for a wide range of applications, including HVAC systems, industrial processes, refrigeration, food and beverage processing, and power generation. They can handle various fluids, including water, oil, chemicals, and refrigerants.
Gasketed plate heat exchangers offer efficient heat transfer, compact size, and flexibility, making them a popular choice for many heat exchange applications. Their modular design, ease of maintenance, and versatility contribute to their widespread use in various industries.
| TYPE |
A(mm) |
B(mm) |
C(mm |
D(mm) |
E(mm) |
Height ( mm ) ( from middle of bottom to ground ) (mm) |
MAX.LC (mm) |
Connector Path ( mm )
(mm)
|
Max Flow ( m3/h ) (m3/h) |
Design Pressure (Mpa) |
Max Pieces |
| A8 |
N(2.3+X) |
200 |
70 |
750 |
656 |
51.5 |
500 |
28 |
18 |
10/1.6 |
95 |
| AS7 |
N(2.3+X) |
300 |
126 |
660 |
394 |
160 |
500 |
60 |
36 |
1.0/1.6 |
200 |
| A14 |
N(2.3+X) |
300 |
126 |
960 |
694 |
160 |
1200 |
60 |
36 |
1.0/1.6 |
200 |
| A19 |
N(2.3+X) |
382 |
192 |
995 |
701 |
165 |
1200 |
66 |
36 |
10/1.6 |
250 |
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