he Mechanical Water Pump is one of the last mechanical components of the modern engine which has long been considered an inefficient component that was designed as an accessory from the ever first engines. A mechanical belt driven pump installed on your car engines runs at the same speed as the engine regardless of how hot the engine is. Example: when travelling at high speeds down the freeway, the engine require less cooling as ram air is naturally cooling the engine however, the engine speed is high as is the mechanical water pump thus providing excessive cooling whilst draining the engine of power. Then in heavy traffic in high ambient, the engine is idling or slow and so is the belt driven mechanical pump, even though in this condition, extra coolant flow is required to cool the engine.

With an EWP and a digital controller, the speed of the pump is managed by the controller, which varies the supply voltage to the pump and so varies the speed of the pump, hunting for a target temperature. When the engine reaches the target temperature the controller locks on, constantly changing the pump speed with traffic and throttle conditions, maintaining the target temperature independent of the engine speed.

The important improvement for your vehicle comes from the fact that most of the power the mechanical pump takes from the engine can be reclaimed with the use of an EWP hence the fuel savings. By removing the parasitic power losses of belt-driven water pumps, the EWP may provide up to 10kw of extra power and additional fuel savings. The engine power used by the mechanical pump increases as the cube of its speed – so when the mechanical pump speed doubles from idle speed say; 600rpm to 1200 rpm, the power it takes increases by eight times. Then another eight times going to 2400 rpm, and so on up to maximum engine speed. It is this extra power and torque that is released by deleting the mechanical pump that provides the fuel savings that is estimated to be 3.5% to 10%.

Major European Manufacturers have implemented EWP’s as standard issue on a number of their vehicles, we have documents show that and EWP uses 90% less energy than conventional systems, i.e.: the mechanical water pump. Other advantages will include lower emissions by virtue of faster engine warm up, better engine temperature management, eliminating engine heat soak and improved engine life.

Weight reduction is a key requirement of any automotive manufacturer seeking fuel savings and our EWP will weight around 900 grams up to 1,151 grams (dependent on EWP Type) compared to a typical mechanical pump at 3 to 4 kg. Not only is our EWP considerably lighter when matched against the mechanical pump but we would also be replacing several outdated components with one environmentally friendly product which once again helps improve performance and fuel consumption.

Davies, Craig’s range of patented Electric Water Pumps include the EBP (12v), EWP®80 (12v) and the EWP®115 (12v & 24v) in both Nylon66 and Alloy housings. The new EWP®115 (115 litres per minute) in Alloy and Nylon66 is designed to replace a vehicle’s existing mechanical belt-driven water pump and is the latest in Davies Craig’s range of simple, DIY electric water pumps which are all univesal fit. Its lightweight, compact, more powerful design is suitable for all types of vehicles including small, to large plus high-performance and 4WD vehicles. It’s a vital performance product that improves engine cooling management whilst giving more power, torque and increased fuel economy. All deliver 3% to 5% improved fuel economy, increased power while lowering environmental impact by reducing emissions.



The EWP® is available in 2 sizes:
EWP80 (12 volt only) - for engines up to 3 litres "naturally aspirated" (INSTRUCTION SHEET)
EWP115 (12 & 24 volt only) - for V8 engines, heavy duty 4WDs or over 400HP (INSTRUCTION SHEET)
The EWP® can be used to replace the existing mechanical water pump or as a ‘booster’ to your existing mechanical pump. EWP® fit most makes and models of vehicles on the road today and by removing the parasitic power losses of belt-driven water pumps, the EWP® may provide up to 10kW of extra power.

The many benefits of the EWP include:
Increased Power and Torque
Increased cooling capability
Eliminating Heat Soak
Better control of engine temperature
Flexible options for pump control
Options for pump control
1. Used in conjunction with Digital EWP® Controller
The Digital Controller has a micro-processer which will run the EWP® at exactly the right flow rate maintaining the engine temperature you ‘set’.

2. Use in conjunction with Thermal Switch
Combine the EWP® with an adjustable Thermal Switch to add a cooling boost to an overheating mechanical pump cooling system.

3. Continuous Running
Wire the pump to the ignition for maximum cooling - suitable for race vehicles, very hot climates and chronically overheating engines.

EWP Kits come with everything you need for DIY installation including easy to understand instructions.
Digital Controller and Thermal switches are sold separately.