WL3000
MFG Part Number 1530.01
Legacy Product
WL Series Liquid Cooling System
Note: This product has reached end of production. Please use the recommended replacement.
Please click the [Remaining Inventory] button to see inventory available.
The recommended replacement is:
      MFG Part Number: 387002779.03
      Description: WL3004

The WL3000 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




Fluid Operating Points
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

Select Graph









* 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.


Technical Specifications
Performance
Nominal Cooling Capacity
3,000 W
Nominal Operating Flowrate (60 Hz)
6.0 L/min @ 6.4 Bar
Nominal Operating Flowrate (50 Hz)
6.0 L/min @ 6.0 Bar
Operation
Coolant
Water or Water/Glycol
Operating Temperature
5°C to 40°C
Storage temperature range (w/o coolant)
-25°C to 70°C
Humidity range
20% to 80%
Storage Humidity range
5% to 95%, non-condensing
Input Voltage
230 VAC
Frequency
50/60 Hz
Current
< 2.5 Amps
Noise
< 59 dB(A)
Flow Switch Open
≤ 4 L/min
Maximum Forward Pressure
7 Bar
Physical
Height
481 mm
Length
479 mm
Width
398 mm
Weight
38.5 kg
Coolant Capacity
3.7 Liters
Couplings
Press Fit (9 mm ID hose)
Features
Applications
Compact design
Medical imaging systems
Reliable operation
Photonics laser systems
Adjustable flow switch
X-Ray scanning systems
Bypass valve protection
Semiconductor fabrication

Notes
  1.  Check coolant level regularly. For optimal cooling performance, coolant level should always be above radiator fins.
  2.  Hose selection should be of material and thickness to support pressure resistance and coolant type.
  3.  Manual adjustments can be made to control pressure and flow rate.
  4.  Check air and coolant filter periodically for replacement.

Any information furnished by Laird and its agents, whether in specifications, data sheets, product catalogues or otherwise, is believed to be (but is not warranted as being) accurate and reliable, is provided for information only and does not form part of any contract with Laird. All specifications are subject to change without notice. Laird assumes no responsibility and disclaims all liability for losses or damages resulting from use of or reliance on this information. All Laird products are sold subject to the Laird Terms and Conditions of sale (including Laird’s limited warranty) in effect from time to time, a copy of which will be furnished upon request.

© Copyright 2019-2024 Laird Thermal Systems, Inc. All rights reserved. Laird™, the Laird Ring Logo, and Laird Thermal Systems™ are trademarks or registered trademarks of Laird Limited or its subsidiaries.

Revision: 00 Date: 06-01-2022

Print Date: 11-12-2024