DE2336044A1 - INJECTION DEVICE FOR FLOWABLE AGENTS FOR GAS TURBINE TO REDUCE THE EMISSION OF NITROGEN OXYDES - Google Patents

Description

Dr. rer. naf. Horst pupil

PATENT ADVOCATE

6 Frankfurt / Main 1, July 13, 1973 Niddastraße 52 WK / kÖ

Telephone (0011) 237220 Postal check account. 282420 Frankfurt / M. Bank account: 225/0389 Deutsche Bank AG, Frankfurt / M.

2389-51-GA-2001

23360U

GENERAL ELECTRIC COMPANY

1 River Road
Schenectady, NY, USA

Injection device for flowable agents for gas turbine for Reduction of the emission of nitrogen oxides

The invention relates generally to reducing concentration of nitrogen oxides in exhaust gases from a gas turbine. It also includes such an injection device for water in combination with a vortex generator of a fuel nozzle to reduce the operating temperature in the combustion chamber in order to reduce the rate of formation of nitrogen oxides.

309885/0552

Among the products of the combustion of hydrocarbon fuels also include the oxides of nitrogen, their toxicity well known in the case of plants and animals for nitrogen dioxide is. Because the concentrations are far below these toxic Values were previously the emission of oxycinn of nitrogen in exhaust not a major concern. Recently, however, the role of these compounds in the formation of photochemical smog has been highlighted determined and there are therefore stricter controls for the "emission of" in measures to prevent environmental pollution Oxides of nitrogen prescribed. Comparative concentration levels are between 500-1000 ppm for diesel and spark motors and between 100 - 1000 ppm for the exhaust gas of larger steam boilers. The values for highly loaded gas turbines are in the range from 20-160 ppm, but they are with a larger amount excess air measured as the values for the above sources mentioned. .

The nitrogen is oxidized in the combustion system or burner system. In contrast to soot and other intermediate products of the combustion of the fuel, however, the unique image of nitrogen oxide remains and is released into the atmosphere. It is mainly formed and released as nitrogen oxide. The presence of nitrogen oxide in the exhaust products from the combustion of hydrocarbon fuels in air can be caused by three known mechanisms. They can be referred to as:

1. "hot air",

2. "Trip" and

3. "organic".

"Hot air" nitrogen oxide is in the hottest area, the "post-flame zone" (post flame zone) of the combustion gases, generated by reactions that are highly dependent on temperature. This mechanism normally makes the largest contribution to nitrogen oxide concentration.

309885/0552

A second contribution, accounting for up to a third of the proportion formed by the hot air mechanism, is the "trigger" mechanism. In contrast to hot air nitrogen oxide, which occurs in the hot post-flame zone with the presence of combustion products is formed, the trigger nitrogen oxide is formed in the combustion reaction zone or the primary flame zone. However, the formation of nitrogen oxide by the release mechanism is also temperature-dependent.

"Orsxan ischos" nitrogen oxide is formed from chemically in the fuel molecules bound nitrogen and is completely dependent on the fuel. The organic nitric oxide supplies in most of them Gas turbines burned fuels only made a small contribution to the total nitrogen oxide concentration.

Because of these reaction mechanisms, there are factors that determine how it works of combustion, which must be taken into account: for example the fuel composition, the flame temperature, the residence time, the fuel / air ratio and the Size and shape of the burner.

In the prior art, examples are already given for the injection of steam or water into a combustion chamber for the purpose of increasing thrust or cooling combustion products. For this reason, the usual embodiment includes water injection an injection device downstream of the primary flame zone is arranged. This type of cooling could potentially have a minor effect on total nitric oxide production own. However, it would not provide the desired reduction in "release" nitrogen oxide present in the primary flame zone is formed. In U.S. Patent 3,021,673 a water injection system shown in a gas turbine for an automobile is used for the purpose of increasing thrust. The water is downstream of the fuel nozzle and partly in the Injected inside the primary flame zone. However, such an arrangement does not fall within the scope of the present inventive concept

309885/0552

Combination. The patent also states that that the water supply is arranged so that it does not affect the initial combustion.

In a fuel nozzle for the burner of a gas turbine of the type According to the invention, water is fed into the combustion chamber with a vortex generator injected through openings in the vortex generator from a source which is upstream of the vortex generator and cooperates with this. Two embodiments of the present Invention contain a fuel nozzle with a nozzle ring, the adjacent to the vortex generator (vortex generator) is arranged surrounding it in a circular manner. In the other embodiment, a number of water injection nozzles may be circumferentially arranged around the fuel nozzle and onto the openings in be directed to the vortex generator. According to the present invention, a water spray or jet of water can enter the combustion chamber are injected under the influence of the vortex generator in order to lower the reaction temperatures in the combustion chamber and thereby reducing the rate of formation of nitrogen oxide, since this is highly temperature-dependent. In this way there is a reduction in the total nitrogen oxide concentration of the exhaust gases caused by the gas turbine.

It is therefore an object of the present invention ₍ to reduce the total concentration of nitrogen oxide in the exhaust gases of a gas turbine.

Other objects, advantages and features of the present invention can be seen from the following description of a preferred embodiment in conjunction with the figures.

Fig. 1 shows a side view, partly in section, for a gas turbine fuel nozzle and vortex generator which includes an embodiment of the invention.

309885/0552

233604A

Fig. 2 is a section along the line II-II of Figure 1, wherein the housing for the fuel nozzle and the burner is taken away.

Figure 3 is a view similar to Figure 1 showing one half of a dual or dual fuel nozzle with one Vortex generator and further shows a second embodiment of the invention.

Figure 4 shows an end view of a dual fuel nozzle, wherein the fuel nozzle and combustion chamber part are removed, and particularly shows the arrangement of the present invention with respect to the vortex generator.

From Figures 1 and 2 is a fuel nozzle for a gas turbine of the type which has a single source of liquid fuel and a nozzle housing 13 and a vortex generator 15 contains. The nozzle housing 13 protrudes concentrically into the vortex generator through a central opening supported, which is formed in the vortex generator. The vortex generator is enclosed by a circular retaining ring 19, which is part of the mouth plate 21 for the burner and the trim cap 23 is.

As such, any type of fuel nozzle can be used with the present invention can be used for a gas turbine with a vortex generator. In Figure 1, however, is an air atomized fuel nozzle of fuel and with combustion of an oil as Fuel shown. The nozzle with air atomization is used as an example and it should be noted that the present invention is also applicable to a pressure atomization nozzle. The fuel nozzle contains a central oil supply pipe 25 including a converging spin chamber 27. Air ducts 31 straighten the atomizing air through tangential grooves 33 the converging swirl chamber, which gives the air an inward direction

309885/0552

23360AA

directed rotational movement conveyed, so that the in this way obtained high air velocity the fuel in small Drip atomized.

The vortex generator 15 includes a number of circumferentially mounted Vanes or baffles 35, between which air passage slots 37 are defined. The function of the vortex generator is to let the air into the combustion chamber and this to convey a vortex movement, so that the smoke generation in the combustion chamber is reduced and the Stabilization of the flame is supported. A more detailed one Description of the vortex generator or air swirl cap can be seen in U.S. Patent No. 3,608,309.

The present invention is directed to a device for reduction the nitrogen oxide concentrations in the exhaust gases of a gas turbine directed. For example, it has been experimentally confirmed that the injection of water and fuel in proportion 1: 2 into a burner with a pressure of 8.9 atmospheres and an ignition temperature of about 970 C (1770 F) a more than 2; 1-fold reduction in the rate of formation of nitric oxide leads. A means which can be used to inject water into the combustion chamber can, for example have the form of a blind tube ring 39 which is arranged around the fuel nozzle and a number of has nozzle openings 41 attached to the circumference at a distance. The openings 41 are aligned with certain slots of the vortex generator according to FIG Arrangement every other slot is used. The dummy pipe 39 is filled with water from an external, not shown Reservoir or storage container supplied with the aid of a pump system, also not shown.

309885/0552

Figures 3 and 4 show a second embodiment of the invention. Figure 3 shows part of a double fuel nozzle with air atomization (it could also be a form with pressure atomization used) with a vortex generator. Such a fuel nozzle is described in more detail in U.S. Patent No. 3,630,024. The double fuel nozzle contains a nozzle housing 113 and a vortex generator 115. The vortex generator is inserted into a retaining ring 119 which forms part of the orifice plate 120 and the fairing cap 121. A liquid fuel nozzle 125 is provided inside the nozzle housing and contains one which converges forwardly Swirl chamber 127. The liquid fuel nozzle is surrounded by a number of passage channels 129 for atomizing air, around a stream of atomizing air over the slots 133 on the converging swirl chamber of the liquid fuel nozzle to judge. A second concentric arrangement includes passages 131 for gaseous fuel which are in the interior of the nozzle housing are attached.

The vortex generator contains a plurality of circumferentially attached Blades or guide surfaces 135 for generating vortices, between which the slots 137 are formed. The gaseous fuel tubes 131 are in fluid communication with. every second groove of the vortex generator with the help of measuring passages 13 9.

The embodiment according to Figures 3 and 4 has a number of circumferential spray nozzles 151 which are mounted in the housing for the fuel nozzle. The spray nozzles can be arranged approximately at every second slot of the vortex generator. The particular arrangement shown however, is for illustrative purposes only and is useful and by no means essential. The spray nozzles are designed to provide a water supply to the combustion chamber and to achieve this result they are provided with an external water supply (not

309885 / 05S2

- 8 shown) by means of water supply channels 155.

The operation of the arrangement according to the invention is from their Structure visible. In a fuel nozzle of the type with a In the vortex generator, the nitrogen oxide concentrations in the exhaust gases from the gas turbine are reduced by letting water enter the reaction zone the combustion is injected. Two embodiments have been disclosed above, namely a nozzle ring on the one hand with a circular blind tube and openings in the same to the direction of a water jet between, every other slot of the vortex generator. In the second embodiment, this is circular blind tube replaced by a multitude of individual water spray nozzles connected to an outside supply source connected and spray water droplets through all the slots of the vortex generator. Both embodiments are upstream arranged by the vortex generator.

The water jets of the nozzle ring or the ring of nozzles are directed onto the slot openings in the vortex generator. Thereafter, these water spray particles, together with the air that flows through the openings of the vortex generator, into the Combustion reaction zone carried. Because the jet of water is upstream from the vortex generator and also from the combustion chamber, it can effectively reduce the nitrogen oxide ; ·. Reduce atration in both primary flame zones and thereby the trigger mechanism and the hot air mechanism inhibit.

309885/055?

Claims (4)

Claims (1 J liquid injection system for a gas turbine burner in a fuel nozzle with an attached vortex generator, the vortex generator having a number of circumferentially arranged guide surfaces or vanes between which slots are defined for the inlet of air into the burner and for imparting a vortex movement to this air, characterized in that in combination with the vortex generator (15) upstream of and in alignment with the slots (37) in the vortex generator means (41) are provided for the direction of a liquid spray jet onto the slots in the vortex generator and are oriented so that the liquid subsequently passes through the Eddy current generator air can be conveyed through the slots in the burner to reduce the operating temperatures in the burner and to reduce the rate of formation of nitrogen oxide. 2. Injection device according to claim 1, characterized g e k e η η ζ e i c h η et that the spray device ■■■■ »contains blind tube (39) around the fuel nozzle arranged around and adjacent to the upstream side of the vortex generator (15) and a plurality of openings (41) which are aligned with the slots (37) in the vortex generator. 3. Injection system according to claim 1, characterized in that the spray device contains a number of spray nozzles (151) which are arranged in a ring-like shape upstream of the vortex generator around the fuel nozzle and are aligned with the slots (137) in the vortex generator. 309885/0552 4. Liquid injection device according to one of the claims 1-3, characterized in that the sprinklers are aligned with alternating slots on the circumference of the vortex generator. 309885/0552