RU2017116446A

RU2017116446A - HEAT-INSULATED FUEL INJECTOR FOR GAS-TURBINE UNIT

Info

Publication number: RU2017116446A
Application number: RU2017116446A
Authority: RU
Inventors: Бехруз Н. РУСТОМИ; Питер Джозеф ГИЛЛА; Джеймс Скотт ПАЙПЕР; Рамарао Венкат БАНДАРУ
Original assignee: Соулар Тёрбинз Инкорпорейтед
Priority date: 2014-10-27
Filing date: 2015-10-21
Publication date: 2018-11-14
Also published as: DE112015004452T5; CN107076421A; RU2017116446A3; RU2696158C2; WO2016069339A1; US20160116168A1

Claims

1. Fuel nozzle (310) for a combustion chamber (300) of a gas turbine unit (100); a fuel injector (310) comprising:

a flange (312) having mounting holes (313);

the protrusion (315) for the fittings protruding from the flange (312);

a hollow body (320) extending from the flange (312) in the direction opposite to the direction of the protrusion (315) for the fittings;

a longitudinal section (325) at the end of the hollow body 320, distant with respect to the flange (312);

a channel (321) of liquid fuel, extending from the protrusion (315) for the fittings to the longitudinal section (325) through the hollow body (320);

a plug (323) of the channel (321) of liquid fuel on the protrusion (315) for fittings;

a heat shield (360) of the liquid fuel extending from the plug (323) in the direction of the longitudinal portion (325) inside the channel (321) of the liquid fuel; heat shield (360) of liquid fuel selected in size and forming a gap (369) between the heat shield of (360) liquid fuel and a hollow body (320) along the channel (321) of liquid fuel; and

a burner pipe (330) connected to the longitudinal section (325); a burner tube (330) in fluid communication with a heat shield (360) of the liquid fuel.

2. A fuel nozzle (310) according to claim 1, characterized in that the liquid fuel channel (321) has a straight circular cylinder profile, and the liquid fuel heat shield (360) has a hollow cylinder profile.

3. Fuel injector (310) according to claim 1, characterized in that the heat shield of the liquid fuel (360) is soldered to the plug (323).

4. The fuel nozzle (310) according to claim 1, characterized in that the heat shield of the liquid fuel (360) extends to the longitudinal section (325).

5. A fuel injector (310) according to any one of the preceding claims further comprising:

a gas fuel channel (322) extending from the protrusion (315) for the fittings to the longitudinal section (325) through the hollow body (320);

a gas fuel fitting (317) connected to a gas fuel channel (322) on a protrusion (315) for the fittings;

a gas fuel heat shield (380) extending from the gas fuel nozzle (317) at least partially through the gas fuel channel (322); a heat shield (380) of gas fuel selected in size and forming a gap (389) between the heat shield (380) of gas fuel and a hollow body (320) along the channel (322) of gas fuel.

6. A fuel nozzle (310) according to claim 1, characterized in that the gas fuel channel (322) has a horizontal cylinder segment profile, and the gas fuel heat shield (380) has a hollow horizontal cylinder segment profile.

7. The fuel injector (310) according to claim 1, characterized in that the gap (389) of the heat shield of the gas fuel is from 5 mils to 15 mils, and the gap (369) of the heat shield of the gas fuel is from 5 mils to 15 mil.

8. The fuel injector (310) according to claim 1, characterized in that the gap (389) of the heat shield of the gas fuel does not have a liquid screen with the heat shield (380) of the gas fuel, and the gap (369) of the heat shield of the gas fuel does not have liquid screen with heat shield (360) of liquid fuel.

9. A fuel injector (310) according to claim 1, characterized in that the heat shield of the gas fuel is soldered to the gas fuel fitting (317).

10. Fuel injector (310) according to claim 1, characterized in that the length of the heat shield (380) of gas fuel is from 65 to 85 percent of the length of the channel (322) of gas fuel.