Events

BRUSHLESS PUMPS
Electric motors continue to evolve and become increasingly more efficient. A significant improvement comes from brushless motor design which operates in a different manner than a standard DC brushed motor. For more details on how brushless motors work, CLICK HERE.
It is not uncommon to find OEM fuel pumps in modern high performance vehicle using brushless technology. They inherently draw less current (less heat) without sacrificing flow. But unlike traditional brushed variations, these pumps require a complex fuel controller to operate.

Dating back to 2013, Radium has embraced brushless pump technology. Fuel surge tanks utilizing both OEM brushless pumps (above) and aftermarket (below) have been available for several years. These have had limited interest due to the lack of affordable high-quality brushless controllers on the market. That is quickly changing.

For some time, the aftermarket company Injector Dynamics has been developing a state-of-the-art fuel controller for OEM brushless pumps from Bosch and Ti Automotive, shown below. 

The same Ti Automotive E5LM pump (found in the Bugatti Veyron) proved to have most potential. In it's most primitive state using the simple Ti Automotive BKS1000 controller, we've tested the E5LM pump at 13.5V to flow 590LPH at 43.5psi. See the tech article HERE.

We recently received a beta unit (above) from Injector Dynamics for testing. What you see is a high quality anodized aluminum control unit, Ti Automotive E5LM pump, stainless steel hardware, wire leads and associated components.

The fuel controller has 2 large cooling fans as well as diagnostic LEDs and a reset button for troubleshooting up to 11 error codes.

The Injector Dynamics BPC1100 system is RPM based and can run the pump at constant speed, MAP based speed, or PWM based speed using adjustable potentiometers (shown above). It is CAN equipped and has a pump speed output for ECU data logging. 

As expected, the controller is larger than others (Dim: 236mm x 160mm x 72mm). For a comparison, the Ti Automotive BKS1000 brushless controller is shown in the left foreground above.

To match all the features and capabilities of this unit, proper electrical is critical. It is mandated that a 125A fuse is used with 2AWG wire for the main power and ground connections. Shown above is an example of the minimum wiring to connect the ID BPC1100 to a Nissan R35 GT-R.

TEST RESULTS
The Radium Engineering flow bench was set up using a MPR to regulate fuel pressure. The fluid used in the test has a specific gravity of 0.77 and flowed through a 6u Microglass Fuel Filter. Shown below are actual recorded numbers from the test bench instruments.

The graph above illustrates current draw at full output and various pressures with a 13.54V input. In extreme situations (8V input and 130psi @ 1100LPH) the current draw can get up to 95A. But don't forget, it's doing more than 5 times the work load as compared to a normal controller in those conditions.

As depicted above, current draw is only 5.5A in typical conditions (400LPH, 3BAR, 13.5V). 

The graph shown above is NOT a misprint. This system can flow over 1100LPH at ANY pressure up to 150psi.

CONCLUSION
With all of its features and potential, this system from Injector Dynamics is very impressive. At maximum settings, the pump could easily output over 1100lph.

It's unique in that the controller will always hit the target flow, even when conditions like fuel pressure and voltage vary. The only difference you'll notice is the current draw required to make it happen will change. When you compare this system to many others, it doesn't seem possible. This system gives the user the ability to specify their flow rate at any pressure, something not possible with a brushed fuel pump.

We predict that this system could replace the need for mechanical fuel pumps and could even take the place of multiple brushed pump setups as the norm. At this time, we are unsure when it will be available or how much it will cost. But, expect to get what you paid for.

Furthermore, this system can be used in many current Radium Engineering products. As long as the description states "...Ti Automotive E5LM...", the BPC1100 brushless system is compatible.
For more information on pricing and availability, please contact Injector Dynamics.

INTRODUCTION
At Radium Engineering we design our surge tanks and fuel pump hangers around popular aftermarket fuel pumps from Walbro (aka Ti Automotive) and AEM. We have chosen to offer the highest performing pumps from the most reputable companies.
This article will describe each pump and provide information so you can choose the right pump (or pumps) for your application.

WALBRO F90000-SERIES FUEL PUMPS
Lets start with our most popular offering, the Walbro F90000-series pumps, officially called Ti Automotive 39/50 DCSS pumps. These gas/E85 compatible pumps have a stepped body and come in different flow rates depending on part number.
These are tricky to talk about because many people use the unofficial slang names given to these pumps, such as the "Hellcat pump" or the "Walbro 450" etc. These names rarely have anything to do with the actual flow rate of the pump and often just cause confusion. Here at Radium Engineering we call these pumps by their official F90000... part number, stamped right on the side of them, as shown below.
Ti Automotive has released many F90000-series pumps to the aftermarket over the years, but we are only going to focus on the three most popular: F90000274, F90000285 and F90000295

All of the F90000-series pumps have the same physical dimensions and same electrical connector, so they can be interchanged with each other in Radium products.

The "274" and "285 both have internal check valves, so they can be staged when using more than one in a surge tank or hanger. The "295" does not have a check valve (hence the higher flow) so line pressure immediatly drops when it turns off and it cannot be staged with other pumps, but it works great as a lift pump.
Radium Engineering only offers the F90000274 pre-assembled into products. If you would like to use the F90000285 or F90000295, select the Radium product version "pumps not included" and purchase the pumps you want to use separately.
In-house back-top-back testing of the three F90000-series pumps here at Radium Engineering resulted in the following performance curve:

The F90000285 outflows the F90000274 by about 8%, but requires about 15% more electrical current (more heat!). So only use the F9000285 if you absolutely have to in order to avoid excess heat going into the fuel.
Note that our test numbers are not a direct match to what TI Automotive advertises. This is due to different testing methods and conditions. Also, as pumps wear in, they generally increase in flow rate. This chart does provide a good back-to-back comparison of the pumps though.

The chart above shows how much current each pump uses when operating at 13.5VDC. The F9000285 is drawing considereably more current than the other pumps, this is where it's higher flow rate is coming from. Plan your wiring accordingly.

These pumps have a pressure relief valve setting of about 110-112 psi.  This means that if fuel pressure exceeds this value, a valve will open on the pump and let out excess fuel to keep the pump from hurting itself.

AEM E85 PUMPS
Advanced Engine Management (AEM) has been around a long time and is very well known in the aftermarket and motorsports industry. Their fuel pumps offer a lot of performance and value. The pumps are made to AEM's exact specifications, which are the result of many hours of R&D and countless hours of testing.
We are often asked "Because it is an E85 pump, does it work with gasoline?"  YES! It is compatible with gasoline and alcohol fuels. It even states this right on the side of the pump. These pumps flow 340LPH at 40psi and come in two heights. The size of these pumps mimics popular OEM fuel pumps sizing, so they can swapped into many cars without much work.

WALBRO GSS342
This tried and true option from Walbro is economical and effective. These pumps are great for vehicles with lower power output. This pump draws less electrical current, which helps keep fuel temps lower. However, this pump is not quiet. It is also not officially rated for use with E85, however historical data has shown that it does work fine with alternative fuels.

TI AUTOMOTIVE BKS1000
There is a new king on the block. This brushless pump system is a great option for high power vehicles. Brushless pumps creates a lot of flow without using much electrical power. This helps keep fuel temps and electrical load on the alternator low. Because of the popularity of this option, Radium has been intgrating this pump into new product designs.
A brushless pump always needs a controller. In this case, the controller is a separeate device that sits outside the fuel tank. Four wires connect the controller to the pump. This controller is not programmable in any way, which keeps its complexity and price down. Power is fed into the controller through the red and black wires.


The pump itlsef is called an E5LM. This was previously used in some supercars and high-end SUVs. It is the same 39mm diameter as the other pumps on this page, but it is quite a bit longer. This makes packaging difficult and requires unique designs for many Radium products.

BKS1000 IMPORTANT NOTES:
1. The outlet of the pump DOES NOT HAVE A CHECK VALVE! So you must be careful if planning to stage this with other pumps.
2. The system is only sold as pump + controller. It is not possible to buy only a pump or only a controller.
3. One controller per pump, you cannot use one controller for multiple pumps.
4. The controller can be run with up to 18VDC. As voltage increase, so does pump speed and output. 
5. When run at 18 volts, this pump puts out 26% more flow than it does at 13.5 volts.
CLICK HERE TO PURCHASE

SO WHICH PUMP DO I CHOOSE?

Selecting a fuel pump is based entirely on two factors: Fuel Type and power goal. Make sure the pump is compatible with your fuel type and that it flows enough to meet your horsepower goal (plus 20% or so safety factor). The table below can be used an approximate guide for selecting a fuel pump based on the power output of the engine. For multiple fuel pumps, just multiply the horsepower number by the number of pumps. The actual horsepower values achieved can vary greatly between different types of engines, so use this guide as a general approximation. Rotary engines should not use this table.


This chart shows flow rate vs. pressure for these popular pumps:


If noise is something that you are worried about, this chart compares pump noise. Each reading was taken under identical circumstances back-to-back.