WL1500 ( MFG Part Number: 1515.01 )

MFG Part Number 1515.01

WL1500

WL Series Liquid Cooling System

The WL1500 is a re-circulating liquid to air heat exchanger that offers dependable, compact performance by removing large amounts of heat from a liquid circuit. The coolant is re-circulated using a high pressure pump to assure maximum flow rate. Heat from coolant is absorbed by a radiant heat exchanger and dissipated into the ambient environment using brand name fan. Manual adjustments can be made to control flow switch. Customized features are available, however, MOQ applies.

Features

Cooling to ambient
High heat pumping capacity
Compact form factor
Long life operation

Applications

技术指标

性能

标称冷却功率

1,500 W

标称运行流速 (60 Hz)

6.0 升/分 @ 6.4 巴

标称运行流速 (50 Hz)

6.0 升/分 @ 6.0 巴

运行

冷却液

Water or Water/Glycol

运行温度

5°C to 40°C

储存温度范围（不含冷却液）

-25°C to 70°C

湿度范围

20% to 80%

储存湿度范围

5% to 95%, non-condensing

输入电压

230 VAC

频率

50/60 Hz

电流

< 2.5 A

Noise

< 68 dB(A)

Flow Switch Open

≤ 4 L/min

最大正向压力

7 巴

物理尺寸

高度

481 mm

长度

479 mm

宽度

398 mm

重量

41.5 kg

冷却液容量

3 Liters

耦合

Press fit (9 mm ID hose)

Features

Applications

Compact design

Medical imaging systems

Reliable operation

Adjustable flow switch

X-Ray scanning systems

Bypass valve protection

Semiconductor fabrication

Fluid Operating Points

Select Graph

100% Water
Cooling Power (Qc) = Watts
Thermal Conductance = W/°C
ΔT (Ambient-Coolant)* = °C
ΔT (Outlet-Inlet)** @ 6.0 L/min = °C

70/30 Water-Glycol
Cooling Power (Qc) = Watts
Thermal Conductance = W/°C
ΔT (Ambient-Coolant)* = °C
ΔT (Outlet-Inlet)** @ 6.0 L/min = °C

60/40 Water-Glycol
Cooling Power (Qc) = Watts
Thermal Conductance = W/°C
ΔT (Ambient-Coolant)* = °C
ΔT (Outlet-Inlet)** @ 6.0 L/min = °C

50/50 Water-Glycol
Cooling Power (Qc) = Watts
Thermal Conductance = W/°C
ΔT (Ambient-Coolant)* = °C
ΔT (Outlet-Inlet)** @ 6.0 L/min = °C

* ΔT (Ambient-Coolant) is the temperature difference between the ambient temperature and the coolant temperature that is at the outlet of the heat exchanger during steady-state operation. This temperature difference would initially be 0 and increase to the steady state value under load. This would also be the temperature at the inlet to the application.

** ΔT (Outlet-Inlet) is the temperature difference between the inlet temperature and the outlet temperature of the application at the nominal coolant flow. More flow (application pressure drop less than nominal) would necessarily mean a smaller ΔT.

Notes

Check coolant level regularly. For optimal cooling performance, coolant level should always be above radiator fins.
Hose selection should be of material and thickness to support pressure resistance and coolant type.
Manual adjustments can be made to control pressure flow rate.
Check air filter and coolant filter periodically for replacement.
Multiple cord plug options available to accommodate regional socket outlet requirements. Consult with Laird Technologies on cord plug selection.

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Revision: 01 Date: 09-18-2024

Print Date: 05-06-2025