Brushless EWP®180 Kit - Remote Electric Water Pump (24V)
Brushless EWP®180 Kit - Remote Electric Water Pump
24 Volt | Kit Part Number: #8451
The EWP®180 – 24V Brushless Electric Water Pump is engineered for extreme cooling performance where flow under pressure truly matters.
While many pumps advertise peak open flow numbers, real-world systems operate under restriction — through radiators, intercooler cores, heat exchangers and long plumbing runs.
93 L/min @ 1.5 Bar (15m Head)
This is the number that defines the EWP®180.
Delivering a massive 93 litres per minute at 1.5 bar, the EWP®180 provides genuine, usable flow in pressurised cooling systems — making it an ideal solution for:
- High-boost turbo and supercharged engines
- Water-to-air intercooler systems
- Charge cooler circuits
- Motorsport endurance applications
- Rear-mounted radiator setups
- Marine and heavy-duty cooling systems
With advanced magnetic drive brushless motor technology, IP68 sealing and full PWM control compatibility, this pump provides precise, reliable cooling performance in the harshest environments.
Engineered for Long Life – Brushless Magnetic Drive Motor
At the heart of the EWP®180 is a magnetic drive brushless motor, specifically chosen for durability, efficiency and continuous-duty operation.
Unlike traditional brushed electric water pumps that rely on carbon brushes (which wear over time), the EWP®180’s brushless design eliminates brush contact — significantly reducing mechanical wear and extending operational lifespan.
Why Brushless Matters
✔ No carbon brushes to wear out
✔ Reduced internal friction
✔ Lower heat generation
✔ Improved electrical efficiency
✔ Greater reliability in continuous operation
✔ Designed for sustained high-load cooling systems
✔ Reduced internal friction
✔ Lower heat generation
✔ Improved electrical efficiency
✔ Greater reliability in continuous operation
✔ Designed for sustained high-load cooling systems
For intercooler pump and charge cooler applications, where the pump may run continuously during boost or extended track sessions, long-term durability is critical. The brushless motor ensures stable performance even in high-temperature engine bays and demanding motorsport environments.
KIT CONTENTS
PART DESCRPTION | UNITS
Brushless EWP®18024 VOLT | 1
Brushless EWP® Wiring Harness(300mm) | 1
Brushless EWP® Mounting Bracket | 1
T-Bolt Clamp | 1
Vibration Damper M6 | 2
PART DESCRPTION | UNITS
Brushless EWP®18024 VOLT | 1
Brushless EWP® Wiring Harness(300mm) | 1
Brushless EWP® Mounting Bracket | 1
T-Bolt Clamp | 1
Vibration Damper M6 | 2
TECHNICAL SPECIFICATIONS
Operating voltage | 18V to 32V DC
Rated current | 17 A (Max 20 A)
Open Flow rate | 180 l/min47.6 gal/min
Rated Flowrate
@ 1.5 bar (15m) Head
| 93 l/min24.6 gal/min
Fluid temp. | -40°C – 120°C
-40°F – 248°F
IP Rating | IP68
Pump weight | 2,013grams (4.4 lb)
Pump material | Aluminium (ADC12), Stainless Steel, Nitrile, Steel, silicon Carbide, PPS
Burst pressure | 500 kPa
72.52 psi
Self Priming | NOT self-priming Centrifugal pump
FittingType | Push on barb with 16AN ORB fitting
Inlet & Outlet Size | 38 mm
1 ½ in(with 3mm Sleeve (#8510) 44mm)(with 6mm Sleeve (#8511) 51mm)
Operating voltage | 18V to 32V DC
Rated current | 17 A (Max 20 A)
Open Flow rate | 180 l/min47.6 gal/min
Rated Flowrate
@ 1.5 bar (15m) Head
| 93 l/min24.6 gal/min
Fluid temp. | -40°C – 120°C
-40°F – 248°F
IP Rating | IP68
Pump weight | 2,013grams (4.4 lb)
Pump material | Aluminium (ADC12), Stainless Steel, Nitrile, Steel, silicon Carbide, PPS
Burst pressure | 500 kPa
72.52 psi
Self Priming | NOT self-priming Centrifugal pump
FittingType | Push on barb with 16AN ORB fitting
Inlet & Outlet Size | 38 mm
1 ½ in(with 3mm Sleeve (#8510) 44mm)(with 6mm Sleeve (#8511) 51mm)
Advanced Brushless Motor Technology
Unlike conventional brushed electric water pumps, the EWP®180 uses a magnetic drive brushless motor, delivering:
- Longer service life
- Reduced electrical noise
- Greater efficiency
- Improved reliability in continuous duty intercooler circuits
- Stable flow in high-temperature engine bays
Full PWM control (100–1000 Hz) allows integration with modern ECUs and standalone controllers, enabling intelligent temperature-based flow management for both engine cooling and intercooler systems.
For optimum coolant management, Davies, Craig recommends the installation of Brushless Variable Speed Fan and EWP® Controller (Part #0550 or #0551).
Davies, Craig has a full range of Digital Thermatic® Fan Switches for when on/off control of the EWP® is desired (Part #0444, #0445, #0448, #0435, #0438 & #0500).
The Brushless EWP® can also be controlled using an aftermarket ECU
Designed for Intercooler & Charge Cooling Systems
For performance builds running water-to-air intercoolers, coolant flow stability is critical to reducing intake air temperatures and preventing heat soak.
As a dedicated intercooler pump / charge cooler pump, the EWP®180:
- Maintains high circulation through restrictive intercooler cores
- Supports large front-mounted heat exchangers
- Delivers consistent flow during sustained boost
- Reduces temperature spikes between pulls
- Improves thermal recovery during track sessions
With 93 L/min at 1.5 bar, the EEWP®180 significantly outperforms typical small OEM-style intercooler pumps in high-demand applications.
High Performance Cooling & Intercooler Flow
- Open Flow Rate: 180 L/min (47.6 GPM)
- Rated Flow: 93 L/min @ 1.5 bar (15m head)
- Maximum Head Height: 18.4 m (60ft 4.4")
- Maximum Power: 450 W
- Rated Current: 33 A (Max 39 A)
Whether you're running a high-boost turbo engine, LS conversion, endurance race car, off-road vehicle, marine setup, or a high-capacity water-to-air intercooler system, the EWP®180 provides the flow and pressure capability required to maintain stable coolant and intake air temperatures under load.
For performance builds using charge coolers, this pump ensures rapid coolant circulation between the intercooler core and heat exchanger — helping reduce heat soak and maintain consistent intake air temperatures during repeated pulls, track sessions or sustained boost conditions.
Built for Extreme Conditions
- Operating Voltage Range: 13.5V – 19V
- Ambient Temperature: -40°C to 80°C
- Fluid Temperature: -40°C to 120°C
- IP68 Rated – Fully sealed against dust and water ingress
- EMC Compliant
From extreme cold starts to high ambient under-bonnet temperatures and boosted engine environments, the EWP®180 is engineered to perform.
Heavy Duty Construction
Manufactured using high-grade materials including:
- ADC12 Aluminium housing
- Stainless steel components
- Silicon carbide mechanical seal
- Nitrile sealing elements
- PPS composite internals
Designed specifically for water and water-based coolant systems, including dedicated intercooler circuits, the EWP®180 ensures durability and corrosion resistance in demanding cooling environments.
Installation & Fitment
- Inlet & Outlet Size: 38mm (1½”)
- Fitting Type: Push-on barb with 16AN ORB fitting
- Thread Specification: 1 5/16-12 UN
- Weight: 2013g (Pump only) / 2187g (With bracket)
- Connector: Kastal 10098866 (Female)
Note: This is a centrifugal pump and is not self-priming.
Ideal Applications
- High performance street cars
- Turbocharged & supercharged engines
- Water-to-air intercooler systems
- Charge cooler setups
- Circuit & endurance racing
- Drag racing
- 4WD & off-road vehicles
- Marine cooling systems
- Custom engine conversions
EWP® INSTALLATION OPTIONS
Installing an EWP® as an AUXILIARY PUMP
- Leaving the mechanical water pump in place, install the EWP® into the bottom radiator hose.
- Remove the thermostat and drill two approx. 3mm (1/8") holes in the thermostat plate to allow some coolant circulation when the thermostat is closed. Re-install ensuring that the thermostat housing is clean and a new gasket is used if required.
EWP® INSTALLATION – disabling Mechanical water pump
- Leaving the mechanical water pump in place, install the EWP® into the bottom radiator hose and remove the manufacturer’s thermostat.
- You will need to bypass the water pump pulley by installing an appropriate length belt (not supplied). This method makes for an easy installation.
- If running the pump continuously remove the thermostat and drill two approx. 3mm (1/8") holes in the thermostat plate to allow some coolant circulation. Re-install ensuring that the thermostat housing is clean and a new gasket is used if required.
In both these cases, the EWP® will pump past the impeller of the mechanical water pump.
Disengaged mechanical water pump (recommended)
- Remove the mechanical water pump and remove the thermostat.
- Then remove the impeller from the mechanical pump shaft. Retain the mechanical water pump using the pump pulley as an idler to avoid re-routing the drive belt.
- Block any bypass passages and re-install the disengaged water pump ensuring that all gasket surfaces are clean and the new gaskets are properly fitted to prevent leaks.
- Install the EWPÒ into the bottom radiator hose.
Removed mechanical water pump (Ideal)
- Remove the mechanical water pump and thermostat from the engine.
- Install a Davies Craig EWP® Block Adaptor or blanking plate (not supplied). Ensuring the gasket surfaces are clean and the appropriate gasket or sealant is used to prevent leaks.
- Install the EWP® into the bottom radiator hose. This method will require you to modify or replace the standard radiator hose.
- Install an appropriate length belt (not supplied) to drive the accessories.