초록 ▼

Disclosed herein is a fuel injection system, including: a fuel injection module including a primary fuel injector and one or more secondary fuel injectors disposed around the primary fuel injector; an air supply module for supplying air to the fuel injection module inwardly and outwardly; and a fuel

Disclosed herein is a fuel injection system, including: a fuel injection module including a primary fuel injector and one or more secondary fuel injectors disposed around the primary fuel injector; an air supply module for supplying air to the fuel injection module inwardly and outwardly; and a fuel supply module for supplying fuel to the fuel injection module, wherein the fuel injection module serves to generate multistage flames in a burner by forming a rich fuel flame region using the primary fuel injector and forming a lean fuel flame region behind the rich fuel flame region using the secondary fuel injectors through a burning process of gasifying secondary fuel.

대표청구항 ▼

1. A fuel injection system, comprising: a fuel injection module including a fuel injection tip, a primary fuel injector and one or more secondary fuel injectors disposed around the primary fuel injector;a rotary blower module provided at the injection tip of the fuel injection module, and including

1. A fuel injection system, comprising: a fuel injection module including a fuel injection tip, a primary fuel injector and one or more secondary fuel injectors disposed around the primary fuel injector;a rotary blower module provided at the injection tip of the fuel injection module, and including a hollow cylindrical body and guide blades disposed in the body, wherein the guide blades are obliquely directed with respect to an axial direction of the body;an air supply module which supplies air to the fuel injection module; anda fuel supply module which supplies fuel to the fuel injection module,wherein the rotary blower module is affixed to a free end of the primary fuel injector, and the guide blades of the rotary blower module encompass the free end of the primary fuel injector,wherein Dn is a diameter of the primary fuel injector, Dp is a diameter of the one or more secondary fuel injectors, D1⁢st(D1⁢st=A⁢π⁡(D3⁢r⁢⁢d2-Dn2)4⁢⁢(A⁢:⁢0.05|0.2)) is a diameter of a primary air discharge region from which primary air is discharged to a space between the primary fuel injector and the rotary blower module, D2nd D2⁢nd(D2⁢nd=B⁢π⁡(D3⁢r⁢⁢d2-D1⁢st2)4⁢⁢(B⁢:⁢0.3|0.6)) is an outer diameter of the rotary blower module, D3⁢r⁢⁢d⁢D3⁢⁢r⁢⁢d=CQ+Dn2⁢⁢(C⁢:⁢0.90*10-11~7.31*10-11⁡[(m2⁢s)/J])) is a diameter of a secondary air discharge region from which primary air is discharged to a circumferential space between the primary fuel injector and the at least one of the one or more secondary fuel injectors, and Q (J/s) is a heat load,wherein the rotary blower module is configured such that air is obliquely supplied with respect to an axial direction of the fuel injection module, andwherein the fuel injection module serves to generate multistage flames in a burner by forming a rich fuel flame region using the primary fuel injector and forming a lean fuel flame region behind the rich fuel flame region using the secondary fuel injectors through a burning process of gasifying secondary fuel. 2. The fuel injection system according to claim 1, wherein the secondary fuel injectors are disposed around the primary fuel injector such that the secondary fuel injectors are positioned on a circumference in the air supply module at equally spaced intervals. 3. The fuel injection system according to claim 2, wherein the number of the secondary fuel injectors is in a range from 6 to 12. 4. The fuel injection system according to claim 1, further comprising: a mounting module which includes a central hollow portion in which the fuel injection module is disposed and is connected one side thereof with the air supply module. 5. The fuel injection system according to claim 4, wherein the mounting module has an inner taper surface whose inner diameter is increased toward the burner, and, assuming that a diameter of an outer outlet of the inner taper surface is defined as “Dg”, and a distance between the inner end and outer end of the inner taper surface is defined as “Hg”, the relationship between Dg, Hg and D3rd is represented by the following Mathematical Formula DgD3⁢r⁢⁢d⁢:⁢2.0|4.0,HgD3⁢r⁢⁢d⁢:⁢0.4|1.2. 6. The fuel injection system according to claim 5, wherein the mounting module is provided therein with a fuel transport tube such that secondary fuel supplied from the fuel supply module is indirectly heated by primary flame generated in the rich fuel flame region. 7. The fuel injection system according to claim 6, wherein, assuming that a height of the secondary fuel injector protruding from the inner end of the inner taper surface of the mounting module is defined as “Hp”, the relationship between Hp and D3rd is represented by the following Mathematical Formula 0.2<=D3⁢r⁢⁢dHp<=200. 8. The fuel injection system according to claim 7, wherein the fuel transport tube is provided along an inner wall of the mounting module in the form of a coil. 9. The fuel injection system according to claim 4, wherein the mounting module is provided therein with a refractory material having high heat resistance. 10. The fuel injection system according to claim 1, wherein the fuel is liquid fuel such as diesel oil. 11. The fuel injection system according to claim 1, wherein the secondary fuel injectors are variably disposed with respect to the primary fuel injector such that the secondary fuel injectors protrude or retract from the burner.