Why is diesel engine fuel system Better?

22 Aug.,2024

 

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When you're at the pump, you might not think much about what happens after you fill up your vehicle with fuel. However, the way fuel is delivered into your engine is fascinating and differs from vehicle to vehicle, especially if it's a diesel or gasoline one.

Fuel Injection Basics

Before we delve into the distinctions, let's briefly understand what fuel injection systems do. Fuel injection is the process of delivering the right amount of fuel into the engine at precisely the right moment. This process is crucial for optimal combustion, power production, and emissions control.

Gasoline Fuel Injection

Now that you have a better understanding of the fuel injection process, let's look at two of the main types of systems found in gasoline engines.

Port Fuel Injection (PFI)

Gasoline engines primarily use port fuel injection. In this system, fuel injectors spray fuel into the intake manifold just before the intake valve. The air-fuel mixture then enters the combustion chamber.

Direct Fuel Injection (GDI)

Some modern gasoline engines employ direct fuel injection. In GDI, fuel is injected directly into the combustion chamber, enhancing combustion efficiency and power output.

Diesel Fuel Injection

Direct Injection

Diesel engines use direct fuel injection, spraying fuel directly into the combustion chamber. Diesel fuel has a higher energy density than gasoline, and direct injection maximizes combustion efficiency.

Common Rail Injection

Many modern diesel engines feature common rail injection, which delivers fuel to multiple injectors via a high-pressure common rail. This system offers precise control over injection timing and fuel delivery.

How Do They Differ From Each Other?

The most obvious distinction is the fuel itself. Gasoline engines use, well, gasoline, while diesel engines rely on diesel fuel. Diesel's higher energy density and compression ignition are key factors.

Diesel engines compress air until it's hot enough to spontaneously ignite the diesel fuel. Gasoline engines use spark plugs to ignite a pre-mixed air-fuel mixture. Furthermore, diesel ones have higher compression ratios, typically around 15:1 to 20:1, compared to gasoline engines, with ratios around 8:1 to 12:1. This high compression is necessary for diesel self-ignition.

In diesel engines, fuel injection timing is critical and precisely controlled to achieve the right combustion characteristics. Gasoline engines rely on spark timing.

A vehicle without fuel is as good as a chunk of metal. That's why Accomplished Auto recommends following a strict maintenance schedule, ensuring that everything from the fuel injectors to the wheels is good to go at any time.

DIESEL FUEL SYSTEM BASICS

 INTRODUCTION 

The function of the diesel fuel system is to inject a precise amount of atomized and pressurized fuel into each engine cylinder at the proper time. Combustion in a diesel engine occurs when this rush of fuel is mixed with hot compressed air. (No electrical spark is used in a gasoline engine.)

The fuel system consists of the following components. 

 FUEL TANKS 

There are many different types and shapes of fuel tanks. Each size and shape is designed for a specific purpose. The fuel tank must be capable of storing enough fuel to operate the engine for a reasonable length of time. The tank must be closed to prevent contamination by foreign objects. It must also be vented to allow air to enter, replacing any fuel demanded by the engine. Three other tank openings are required--one to fill, one to discharge, and one to drain.

 FUEL LINES 

There are three types of diesel fuel lines. These include heavyweight lines for the high pressures found between the injection pump and the injectors, medium weight lines for the light or medium fuel pressures found between the fuel tank and injection pump, and lightweight lines where there is little or no pressure.

 FUEL FILTERS 

Diesel fuel must be filtered not once, but several times in most systems. A typical system might have three stages of progressive filters--a filter screen at the tank or transfer pump, a primary fuel filter, and a secondary fuel filter. In series filters, all the fuel goes through one filter and then through the other. In parallel filters, part of the fuel goes through each filter.

For more information on fuel filters, see Diesel Fuel Filter Basics.

 FUEL TRANSFER PUMPS 

Simple fuel systems use gravity or air pressure to get fuel from the tank to the injection pump. On modern high-speed diesel engines, a fuel transfer pump is normally used. This pump, driven by the engine, supplies fuel automatically to the diesel injection system. The pump often has a hand primer lever for bleeding air from the system. Modern injection pumps are almost all jerk pumps that use the plunger and cam method of fuel injection.

 FUEL INJECTION SYSTEMS 

There are four primary systems for injecting fuel:

     1. Individual pump and injector for each cylinder

     2. Combined pump and injector for each cylinder (unit injector type)

     3. One pump serving injectors for several cylinders (distributor type)

     4. Pumps in a common housing with injectors for each cylinder (common rail system)

The common rail system is rapidly gaining popularity for on-road applications. The in-line and distributor types are used on off-road vehicles and industrial machines.

 High Pressure Common Rail Fuel System Diagram 

 

 FUEL INJECTORS 

Diesel fuel injectors are arguably the most important fuel system component. The job of the injectors is to deliver a precise amount of atomized and pressurized fuel into each cylinder. Highly atomized, pressurized fuel distributed evenly throughout the cylinder results in increased power and fuel economy, decreased engine noise, and smoother operation.  

Modern diesel fuel injectors, such as those found in common rail fuel systems, use piezoelectricity. Piezoelectric injectors are extremely precise and can handle the very high pressures found in common-rail applications. 

 DIESEL FUEL 

The fuel used in modern high-speed diesel engines is derived from the heavier residues of crude oil that are left over after the more volatile fuels such as gasoline are removed during the refining process. The most common grade of diesel fuel is 2-D, more commonly known as ultra low sulfur diesel (ULSD). 

For more information on diesel fuel, see Ultra Low Sulfur Diesel Basics.

 WATER 

A common enemy of diesel fuel systems is water. Unfortunately, water is more common in diesel fuel than most people realize. Should water find its way into an injection system, it will rapidly oxidize ferrous metal (steel) components. Some of the most common failures attributed to water include:
  • Injection component seizure
  • Sticky metering components in both the pump and injector
  • Governor/metering component failure

 CONCLUSION 

A diesel fuel system is a critical component of any diesel engine and its optimum operation is essential for peak performance. E-ZOIL manufactures several additives formulated to address common issues encountered by the diesel fuel system. E-ZOIL additives increase fuel system lubricity and prevent premature failure of fuel pumps and injectors. Check out our line of additives to protect your fuel and equipment!

Why is diesel engine fuel system Better?

Diesel Fuel System Basics

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