We offer fuel modification, deposit removal, energy saving and lubrication consultancy services. If your core objective is to reduce energy or maintenance costs or perhaps your current lubricant is over-challenged, then we can help.
Please see below for free advice on MPG saving.
POSITIVE vs NEGATIVE MPG GAIN
When examining the field of products, services, and techniques that promise to increase miles per gallon, you find a confusing minefield, at best. There are chronic sceptics on one side and loyal devotees on the other, in between there are a bunch of indifferent observers. Unfortunately, this has come from a long history of ignorance and misleading advertising. The dilemma for most is “who is right and who is wrong?”
Two other main questions also might come to mind:
1. How do you know if the advertised increase in MPG will be achieved?
2. Why are there such inconsistencies when it comes to product results, ranging from spectacular to absolute zero? Why is there such a large variance?
When we service fleets we combine our knowledge and experience to simplify the process for operators. Firstly, let us explain the type of gains available and the results you can expect to achieve. To best explain this we would like to introduce you to the concept of negative versus positive MPG gain.
Negative gain is the process of restoring engine economy and efficiency back to factory levels, or more accurately, how it was when it left the manufacturer, except with an engine that is now run-in.
These are not the factory-published figures regarding performance, but rather the actual performance that is possible from an engine that is run-in, deposit-free, and operating at full efficiency in real-life conditions. This is engine efficiency restoration.
Positive gain is the process of improving the standard MPG or performance of an engine that is deposit-free and running efficiently on standard pump fuel and lubricants, as recommended by the manufacturer. This is engine efficiency enhancement.
Virtually all suppliers of fuel and engine additives that claim 10%, 15%, 20%-plus improvements in MPG are relying heavily on the negative gain factor. The increased economy claims are based on an assumption that the fuel system has accumulated deposits and that the engine is experiencing a reduction in fuel economy and performance as a result.
This is very important. The reason for such inconsistency is that there are many variables in play. One vehicle may have a considerable reduction in fuel economy or performance (due to fuel system or engine deposits) whilst another has virtually none. Also, different engine designs respond to deposits in varying ways. It is really that simple. The majority of gain you tend to see, however great or small, is negative gain or performance and efficiency restoration. Unfortunately, negative gain or efficiency restoration potential is very difficult to predict.
This part of fuel and oil additive marketing is particularly troubling to us, as it can lead to unrealistic customer expectations. Our view is that it is misleading to make claims about MPG increases on an assumption that the fuel system and/or engine have accumulated substantial deposits. Of course, such claims are always caveated with increases “up to” a certain amount.
So how does the negative and positive gain theory work?
Negative Gain (Economy & Performance Restoration)
Assuming that the mechanical condition of an engine is good and that all its electrical components and respective sensors are operating correctly, there are three ways to restore lost MPG.
- Fuel system cleaning. This involves using a professional cleaner to remove any benign or debilitating deposits from the fuel system. It also includes any remedial work to remove biological or non-biological contamination within the fuel or fuel system. This restores the correct fuel flow and atomisation of fuel into the combustion chamber.
- Carbon removal. This is the process of using professional cleaners and combustion modification technology to remove carbon build-up from the combustion area and post combustion areas of the engine. These include emission control components like the exhaust gas recirculation system (EGR), diesel particulate filter (DPF), etc.
- Compression restoration. This is the process of restoring any lost engine compression by using a professional engine oil flush or lubricant-based cleanser to remove deposits from the pistons, piston rings and cylinder bores.
Depending on which of the above apply and assuming the correct products and processes are employed, virtually any engine can be restored to optimum efficiency and performance. The only notable exceptions are when an engine, or any of its periphery parts, are mechanically worn, degraded, or failed. Even then various technologies and processes exist to restore minor wear.
Positive Gain (Economy & Performance Enhancement)
Again, assuming all being equal and that an engine is in good working order, there are five ways to increase efficiency and performance above the standard factory figures.
- Friction reduction. This involves using specialist products and techniques to reduce friction to levels lower than that available from conventional oils and lubricants. Other benefits can include greater protection against reduced component wear and lower maintenance costs. This can be applied to engines, transmissions, differentials, wheel bearings, and so on.
- Fuel combustion modification. This includes the continuous use of professional chemistries to improve the combustion efficiency of the fuel, resulting in greater fuel economy, performance, and a reduction in exhaust emissions. Such products also can prevent fuel degradation, protect the fuel system, and control deposit build-up, thus removing any future need to use products to restore lost performance.
- Engine retuning (software). This is the process of altering the engine control unit (ECU) or how the ECU manages the injection of fuel, ignition timing, and other engine control parameters. This can provide a more efficient delivery of power and torque throughout the rev range, resulting in a reduction in fuel usage.
- Engine retuning (physical). This includes the physical modification of engine components, such as adjusting intake manifold air-flow dynamics, altering the exhaust system or DPF, and so on.
- Other modifications. Making other pragmatic modifications that are widely known, such as optimising tyre pressures, improving aerodynamics, reducing unwanted weight, altering driving style, etc, also can improve efficiency.
Positive gain can manifest itself as additional performance (as measured in horse power and torque), increase in fuel efficiency, or a combination of both.
Testing Protocols:
We specialise in the development of bespoke MPG testing protocols. With any test, whether it be a single consumer vehicle or a fleet of heavy goods vehicles, it is important to set out objectives and correctly plan how to both achieve and measure them.
Below are some of the contributory risks and variables that must be considered when developing a comprehensive test plan. Please note, we were advised against revealing this information as it would undoubtedly be copied and reused by other companies selling fuel-saving additives or devices. However, if it helps to restore some integrity to the field of MPG testing then we believe this benefits us all. Whether you sell fuel-saving technology or are looking to test and buy fuel-saving technology, let’s please restore some integrity to this field.
Risk | Mitigation / Containment | |
1 | Length of test is too short. | It goes without saying that the more test data available the easier it is to discern positive, neutral, or negative results. |
2 | Lack of availability of historical test data and seasonal differences. | It is of paramount importance that historic baseline data is available. If not, this should be captured first. Also take into consideration the seasonal variations. For example, if you are conducting a three-month test between April and June, it would be advantageous to have baseline data for the same months in the previous year, as well as, the months of January to March immediately before the test. You would be surprised with the variance of data between seasons. |
3 | Inaccurate MPG monitoring techniques. | The most common are on-board monitoring and manual calculations. Where possible use both monitoring techniques. Telematics that include average speed are also extremely valuable as they will help validate or invalidate MPG figures. If the average speed for a vehicle increases during a particular month then the MPG would be expected to increase by default and vice versa. |
4 | Varying climatic conditions. | Weather can have a profound effect on results, and not just temperatures. Wind can affect drag; rain can affect grip, etc. A combination of controlled and real-life tests can mitigate this. |
5 | Varying traffic, routes, and loads. | Variances in routes, traffic, and loads can affect results. Choosing the most consistent routes with consistent loads in low traffic periods, as well as, a combination of controlled and real-life testing is the best bet, albeit not always possible. |
6 | Driver inconsistency. | Where possible, the same driver should be used. Otherwise any change of driver must be factored into the test results. |
7 | Varying vehicle history and condition. | Even vehicles of the same type and engine are different and can respond differently. Pick both a poor performing and good performing vehicle. It is important to understand that results are only applicable and valid to that particular vehicle/engine combination. |
8 | Fuel inconsistency. | Different brands and types of fuel (including seasonable blends) can affect results. Where possible, the exact same fuel should be used throughout the test and during any pretesting. |
9 | Poor accuracy with the administration of treatments. | How treatments are administered is important. For example, when testing fuel additives, treating the fuel at bunkered storage mitigates the risk of incorrectly applied ratios. Automated dispensing systems are also an alternative. |
10 | Driver awareness affecting results. | Blind testing always provides the most accurate results unless trust in the driver is assured. If the driver is aware then also make them aware during the pretesting (baseline) stage. This can best ensure that the driver will not significantly change driving style during testing. |
11 | Fuel or additives theft. | Unfortunately this does occur. There are ways to identify and mitigate this risk. However, it would not be appropriate to list them here. |
12 | Lack of test data. | Actually what to test (mpg, power, torque, emissions, oil quality, wearetc.) are fundamental to understanding the benefits, if any, of any given product(s). Simply, the more data, the greater the confidence in the decision-making process. |
There are other minor factors that we won‘t go into as they apply more to controlled testing, such as the effects of ambient temperature on the density of fuel and so on. However, the above 12 points will serve you well.
We make our clients fully aware of the common pitfalls and underhand techniques that some companies use. For example, a common tactic is to advise the client to notify the driver that a test is being conducted. The driver is then aware that his driving is likely to be scrutinised and as a result, drives in a more cautious and “efficient” manner. The client then witnesses a tangible increase that has little to do with the prescribed treatments but is instead from an improvement in driving style by the driver.
Another tactic is to convince the client to pick their worst performing vehicle for testing. This, of course, increases the probability of greater results. The client then becomes blinded by negative gain results that cannot be reproduced on their other, better-performing vehicles. Ideally, you should test average performing vehicles or both the worst and best performing vehicles in the fleet.
The key is to produce a test protocol that mitigates or eliminates as many variables as possible. This will help ensure accurate test data, which, in turn, enables the client to make informed decisions as to the actual ROI on particular treatments or processes.
If you require more information or a no obligation consultation on MPG reduction or engine cleaning, then please don’t hesitate to contact us.