V-Type Condenser

V-Type Condenser

V-shaped layout (typically 60°-90° angle) forms a natural air duct, guiding airflow to pass through the finned tube surface evenly. This avoids airflow dead zones and improves heat exchange uniformity compared to traditional flat or H-type layouts.
Counterflow heat exchange principle: The refrigerant flows in the opposite direction to the ambient air, maximizing the temperature difference between the refrigerant and air. This significantly enhances heat transfer efficiency, especially in high-temperature environments
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I. Product Name: V-Type Condenser

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Ⅱ. Product Features

1. Superior Heat Exchange Efficiency

Optimized Airflow Design

V-shaped layout (typically 60°-90° angle) forms a natural air duct, guiding airflow to pass through the finned tube surface evenly. This avoids airflow dead zones and improves heat exchange uniformity compared to traditional flat or H-type layouts.

Counterflow heat exchange principle: The refrigerant flows in the opposite direction to the ambient air, maximizing the temperature difference between the refrigerant and air. This significantly enhances heat transfer efficiency, especially in high-temperature environments.

High Fin-Tube Utilization Rate

Adopts high-density finned tubes (e.g., 7mm OD copper tubes with hydrophilic aluminum fins), increasing the heat exchange area per unit volume. The V-type structure ensures that both sides of the fins are fully in contact with airflow, avoiding waste of heat exchange surfaces.

Fins are designed with a reasonable pitch (1.8-2.5mm), balancing airflow resistance and heat exchange effect. This reduces air-side pressure loss while improving the overall heat transfer coefficient.

2. Compact Structure & Space-Saving

Space Optimization

The V-type inclined layout effectively reduces the horizontal footprint. Compared to H-type condensers with the same heat capacity, it saves 20%-30% of horizontal installation space, making it ideal for compact machine rooms, rooftop installations, and mobile refrigeration equipment.

The vertical height can be flexibly adjusted according to the installation space, adapting to limited-height scenarios such as basement machine rooms or small outdoor areas.

Lightweight & Easy Installation

Integrated V-type frame design, with a reasonable weight distribution. The overall weight is 15%-25% lighter than traditional horizontal condensers, reducing installation labor and transportation costs.

The inclined structure allows for convenient hoisting and fixing, and the installation angle can be adjusted according to on-site conditions to ensure optimal airflow.

3. Excellent Flow Performance & System Compatibility

Reduced Refrigerant Charge

The V-type layout ensures uniform refrigerant distribution in each tube bundle. Combined with small-diameter copper tubes (e.g., 7mm OD), the internal volume of the system is reduced, requiring 10%-20% less refrigerant charge compared to H-type condensers of the same specifications. This lowers refrigerant costs and environmental impact.

Optimized Pressure Drop

The V-type structure reduces airflow resistance, and the multi-circuit tube design balances the refrigerant pressure drop. Through professional fluid simulation optimization, the system pressure drop is controlled within a reasonable range (≤0.08MPa), ensuring high COP and stable operation of the refrigeration system.

Suitable for various refrigerants (R22, R404A, R507A, R134a, R32, R290, etc.), compatible with screw, scroll, and piston compressors, with strong versatility.

4. Strong Corrosion Resistance & Long Service Life

High-Quality Material Selection

Adopts high-purity copper tubes (thermal conductivity up to 401 W/(m·K)) and corrosion-resistant hydrophilic aluminum fins. The fins are treated with an anti-corrosion coating, which effectively resists oxidation, salt spray, and chemical corrosion, extending the service life in harsh environments (e.g., coastal areas, chemical plants).

The tube wall thickness is optimized (0.35-0.4mm), ensuring sufficient pressure-bearing capacity (≤2.5MPa) while reducing thermal resistance, achieving efficient heat transfer and long-term reliability.

Easy Maintenance & Dust Removal

The V-type open structure facilitates airflow, reducing dust accumulation on the fin surface. When cleaning is needed, the inclined fins allow dust to fall off easily, reducing maintenance frequency and labor costs.

Key components are designed with easy access, making daily inspection and maintenance simple, ensuring the condenser operates stably for a long time.

III. FNV300 Condenser Technical Parameters


Model          FNV300

2.0(mm)

Inter-slice

distance

2.1(mm)

Inter-slice

distance

Heat Dissipation Capacity   kW

97.5

92.8

Actual heat transfer area  (㎡)

315.9

300.6

Surface Area               m²

300

300

Tube Volume                L

34.21

34.21

Inlet/Outlet Port Diameter ø mm

28 /22

28 /22

Outer-Rotor Axial Fan Diameter     mm

Ø550

Number of Outer-Rotor Axial Fans  unit  

3

拼图 750x900



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2

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3

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5

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