| F | SK | MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING |
| F02 | KL | COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS |
| F02C | UKL | GAS-TURBINE PLANTS; AIR INTAKES FOR JET-PROPULSION PLANTS; CONTROLLING FUEL SUPPLY IN AIR-BREATHING JET-PROPULSION PLANTS (construction of turbines F01D; jet-propulsion plants F02K; construction of compressors or fans F04; combustion apparatus in which combustion takes place in a fluidised bed of fuel or other particles F23C 10/00; generating combustion products of high pressure or high velocity F23R; using gas turbines in compression refrigeration plants F25B 11/00; using gas-turbine plants in vehicles, see the relevant vehicle classes) |
| F02C 1/00 | HGR | Gas-turbine plants characterised by the use of hot gases or unheated pressurised gases, as the working fluid (by the use of combustion products F02C 3/00, F02C 5/00) [1, 3, 2006.01] |
| F02C 1/02 | UGR1 | | . | the working fluid being an unheated pressurised gas [1, 3, 2006.01] |
|
| F02C 1/04 | UGR1 | | . | the working fluid being heated indirectly [1, 3, 2006.01] |
|
| F02C 1/05 | UGR2 | | . . | characterised by the type or source of heat, e.g. using nuclear or solar energy [3, 2006.01] |
|
| F02C 1/06 | UGR3 | | . . . | using reheated exhaust gas (F02C 1/08 takes precedence) [1, 3, 2006.01] |
|
| F02C 1/08 | UGR2 | | . . | Semi-closed cycles [3, 2006.01] |
|
| F02C 1/10 | UGR2 | | . . | Closed cycles [3, 2006.01] |
|
| F02C 3/00 | HGR | Gas-turbine plants characterised by the use of combustion products as the working fluid (generated by intermittent combustion F02C 5/00) [1, 2006.01] |
| F02C 3/02 | UGR1 | | . | using exhaust-gas pressure in a pressure exchanger to compress combustion-air (pressure exchangers per seF04F 13/00) [1, 2006.01] |
|
| F02C 3/04 | UGR1 | | . | having a turbine driving a compressor (power transmission arrangements F02C 7/36; control of working fluid flow F02C 9/16) [1, 5, 2006.01] |
|
| F02C 3/045 | UGR2 | | . . | having compressor and turbine passages in a single rotor (F02C 3/073 takes precedence) [3, 2006.01] |
|
| F02C 3/05 | UGR3 | | . . . | the compressor and the turbine being of the radial flow type [3, 2006.01] |
|
| F02C 3/055 | UGR2 | | . . | the compressor being of the positive-displacement type [3, 2006.01] |
|
| F02C 3/06 | UGR2 | | . . | the compressor comprising only axial stages (F02C 3/10 takes precedence) [1, 3, 2006.01] |
|
| F02C 3/067 | UGR3 | | . . . | having counter-rotating rotors (F02C 3/073 takes precedence) [3, 2006.01] |
|
| F02C 3/073 | UGR3 | | . . . | the compressor and turbine stages being concentric [3, 2006.01] |
|
| F02C 3/08 | UGR2 | | . . | the compressor comprising at least one radial stage (F02C 3/10 takes precedence) [1, 3, 2006.01] |
|
| F02C 3/09 | UGR3 | | . . . | of the centripetal type [3, 2006.01] |
|
| F02C 3/10 | UGR2 | | . . | with another turbine driving an output shaft but not driving the compressor [1, 2006.01] |
|
| F02C 3/107 | UGR2 | | . . | with two or more rotors connected by power transmission [5, 2006.01] |
|
| F02C 3/113 | UGR3 | | . . . | with variable power transmission between rotors [5, 2006.01] |
|
| F02C 3/13 | UGR2 | | . . | having variable working fluid interconnections between turbines or compressors or stages of different rotors [5, 2006.01] |
|
| F02C 3/14 | UGR1 | | . | characterised by the arrangement of the combustion chamber in the plant (combustion chambers per seF23R) [1, 3, 2006.01] |
|
| F02C 3/16 | UGR2 | | . . | the combustion chambers being formed at least partly in the turbine rotor [1, 2006.01] |
|
| F02C 3/20 | UGR1 | | . | using a special fuel, oxidant, or dilution fluid to generate the combustion products [1, 3, 2006.01] |
|
| F02C 3/22 | UGR2 | | . . | the fuel or oxidant being gaseous at standard temperature and pressure (F02C 3/28 takes precedence) [1, 3, 2006.01] |
|
| F02C 3/24 | UGR2 | | . . | the fuel or oxidant being liquid at standard temperature and pressure [1, 3, 2006.01] |
|
| F02C 3/26 | UGR2 | | . . | the fuel or oxidant being solid or pulverulent, e.g. in slurry or suspension [1, 2006.01] |
|
| F02C 3/28 | UGR3 | | . . . | using a separate gas producer for gasifying the fuel before combustion [3, 2006.01] |
|
| F02C 3/30 | UGR2 | | . . | Adding water, steam or other fluids to the combustible ingredients or to the working fluid before discharge from the turbine (heating of air intakes to prevent icing F02C 7/047) [3, 2006.01] |
|
| F02C 3/32 | UGR1 | | . | Inducing air flow by fluid jet, e.g. ejector action [3, 2006.01] |
|
| F02C 3/34 | UGR1 | | . | with recycling of part of the working fluid, i.e. semi-closed cycles with combustion products in the closed part of the cycle [3, 2006.01] |
|
| F02C 3/36 | UGR1 | | . | Open cycles [3, 2006.01] |
|
| F02C 5/00 | HGR | Gas-turbine plants characterised by the working fluid being generated by intermittent combustion [1, 2006.01] |
| F02C 5/02 | UGR1 | | . | characterised by the arrangement of the combustion chamber in the plant (combustion chambers per seF23R) [1, 3, 2006.01] |
|
| F02C 5/04 | UGR2 | | . . | the combustion chambers being formed at least partly in the turbine rotor [1, 2006.01] |
|
| F02C 5/06 | UGR1 | | . | the working fluid being generated in an internal-combustion gas generator of the positive-displacement type having essentially no mechanical power output (internal-combustion engines with prolonged expansion using exhaust gas turbines F02B) [1, 2006.01] |
|
| F02C 5/08 | UGR2 | | . . | the gas generator being of the free-piston type [1, 2006.01] |
|
| F02C 5/10 | UGR1 | | . | the working fluid forming a resonating or oscillating gas column, i.e. the combustion chambers having no positively actuated valves, e.g. using Helmholtz effect [1, 3, 2006.01] |
|
| F02C 5/11 | UGR2 | | . . | using valveless combustion chambers [3, 2006.01] |
|
| F02C 5/12 | UGR1 | | . | the combustion chambers having inlet or outlet valves, e.g. Holzwarth gas-turbine plants [1, 2006.01] |
|
| F02C 6/00 | HGR | Plural gas-turbine plants; Combinations of gas-turbine plants with other apparatus (aspects predominantly concerning such apparatus, see the relevant classes for the apparatus); Adaptations of gas-turbine plants for special use [3, 2006.01] |
| F02C 6/02 | UGR1 | | . | Plural gas-turbine plants having a common power output [3, 2006.01] |
|
| F02C 6/04 | UGR1 | | . | Gas-turbine plants providing heated or pressurised working fluid for other apparatus, e.g. without mechanical power output (F02C 6/18 takes precedence) [3, 2006.01] |
|
| F02C 6/06 | UGR2 | | . . | providing compressed gas (F02C 6/10 takes precedence) [3, 2006.01] |
|
| F02C 6/08 | UGR3 | | . . . | the gas being bled from the gas-turbine compressor [3, 2006.01] |
|
| F02C 6/10 | UGR2 | | . . | supplying working fluid to a user, e.g. a chemical process, which returns working fluid to a turbine of the plant [3, 2006.01] |
|
| F02C 6/12 | UGR3 | | . . . | Turbochargers, i.e. plants for augmenting mechanical power output of internal-combustion piston engines by increase of charge pressure [3, 2006.01] |
|
| F02C 6/14 | UGR1 | | . | Gas-turbine plants having means for storing energy, e.g. for meeting peak loads [3, 2006.01] |
|
| F02C 6/16 | UGR2 | | . . | for storing compressed air [3, 2006.01] |
|
| F02C 6/18 | UGR1 | | . | using the waste heat of gas-turbine plants outside the plants themselves, e.g. gas-turbine power heat plants (using waste heat as source of energy for refrigeration plants F25B 27/02) [3, 2006.01] |
|
| F02C 6/20 | UGR1 | | . | Adaptations of gas-turbine plants for driving vehicles [3, 2006.01] |
|
| F02C 7/00 | HGR | Features, component parts, details or accessories, not provided for in, or of interest apart from, groups F02C 1/00-F02C 6/00; Air intakes for jet-propulsion plants (controlling F02C 9/00) [1, 3, 2006.01] |
| F02C 7/04 | UGR1 | | . | Air intakes for gas-turbine plants or jet-propulsion plants [1, 3, 2006.01] |
|
| F02C 7/042 | UGR2 | | . . | having variable geometry [3, 2006.01] |
|
| F02C 7/045 | UGR2 | | . . | having provisions for noise suppression [3, 2006.01] |
|
| F02C 7/047 | UGR2 | | . . | Heating to prevent icing [3, 2006.01] |
|
| F02C 7/05 | UGR2 | | . . | having provisions for obviating the penetration of damaging objects or particles [3, 2006.01] |
|
| F02C 7/052 | UGR3 | | . . . | with dust-separation devices [3, 2006.01] |
|
| F02C 7/055 | UGR3 | | . . . | with intake grids, screens or guards [3, 2006.01] |
|
| F02C 7/057 | UGR2 | | . . | Control or regulation (conjointly with fuel supply control F02C 9/50, with nozzle area control F02K 1/16) [3, 2006.01] |
|
| F02C 7/06 | UGR1 | | . | Arrangement of bearings (bearings F16C); Lubricating (of engines in general F01M) [1, 3, 2006.01] |
|
| F02C 7/08 | UGR1 | | . | Heating air supply before combustion, e.g. by exhaust gases [1, 2006.01] |
|
| F02C 7/10 | UGR2 | | . . | by means of regenerative heat-exchangers [1, 2006.01] |
|
| F02C 7/105 | UGR3 | | . . . | of the rotary type (rotary heat exchangers per seF28D) [3, 2006.01] |
|
| F02C 7/12 | UGR1 | | . | Cooling of plants (of component parts, see the relevant subclasses, e.g. F01D; cooling of engines in general F01P) [1, 2006.01] |
|
| F02C 7/14 | UGR2 | | . . | of fluids in the plant [1, 2006.01] |
|
| F02C 7/141 | UGR3 | | . . . | of working fluid (F02C 3/30 takes precedence) [3, 2006.01] |
|
| F02C 7/143 | UGR4 | | . . . . | before or between the compressor stages [3, 2006.01] |
|
| F02C 7/16 | UGR2 | | . . | characterised by cooling medium [1, 2006.01] |
|
| F02C 7/18 | UGR3 | | . . . | the medium being gaseous, e.g. air [1, 2006.01] |
|
| F02C 7/20 | UGR1 | | . | Mounting or supporting of plant; Accommodating heat expansion or creep [1, 2006.01] |
|
| F02C 7/22 | UGR1 | | . | Fuel supply systems [1, 2006.01] |
|
| F02C 7/224 | UGR2 | | . . | Heating fuel before feeding to the burner [3, 2006.01] |
|
| F02C 7/228 | UGR2 | | . . | Dividing fuel between various burners [3, 2006.01] |
|
| F02C 7/232 | UGR2 | | . . | Fuel valves; Draining valves or systems (valves in general F16K) [3, 2006.01] |
|
| F02C 7/236 | UGR2 | | . . | Fuel delivery systems comprising two or more pumps [3, 2006.01] |
|
| F02C 7/24 | UGR1 | | . | Heat or noise insulation (air intakes having provisions for noise suppression F02C 7/045; turbine exhaust heads, chambers, or the like F01D 25/30; silencing nozzles of jet-propulsion plants F02K 1/00) [1, 3, 2006.01] |
|
| F02C 7/25 | UGR2 | | . . | Fire protection or prevention (in general A62) [3, 2006.01] |
|
| F02C 7/26 | UGR1 | | . | Starting; Ignition [1, 2006.01] |
|
| F02C 7/262 | UGR2 | | . . | Restarting after flame-out [3, 2006.01] |
|
| F02C 7/264 | UGR2 | |
| F02C 7/266 | UGR3 | | . . . | Electric (sparking plugs H01T) [3, 2006.01] |
|
| F02C 7/268 | UGR2 | | . . | Starting drives for the rotor [3, 2006.01] |
|
| F02C 7/27 | UGR3 | | . . . | Fluid drives (turbine starters F02C 7/277) [3, 2006.01] |
|
| F02C 7/272 | UGR4 | | . . . . | generated by cartridges [3, 2006.01] |
|
| F02C 7/275 | UGR3 | | . . . | Mechanical drives [3, 2006.01] |
|
| F02C 7/277 | UGR4 | | . . . . | the starter being a turbine [3, 2006.01] |
|
| F02C 7/28 | UGR1 | | . | Arrangement of seals [1, 2006.01] |
|
| F02C 7/30 | UGR1 | | . | Preventing corrosion in gas-swept spaces [1, 2006.01] |
|
| F02C 7/32 | UGR1 | | . | Arrangement, mounting, or driving, of auxiliaries [1, 2006.01] |
|
| F02C 7/36 | UGR1 | | . | Power transmission between the different shafts of the gas-turbine plant, or between the gas-turbine plant and the power user (F02C 7/32 takes precedence; couplings for transmitting rotation F16D; gearing in general F16H) [3, 2006.01] |
|
| F02C 9/00 | HGR | Controlling gas-turbine plants; Controlling fuel supply in air-breathing jet-propulsion plants (controlling air intakes F02C 7/057; controlling turbines F01D; controlling compressors F04D 27/00) [1, 3, 2006.01] |
| F02C 9/16 | UGR1 | | . | Control of working fluid flow (F02C 9/48 takes precedence; control of air-intake flow F02C 7/057) [3, 2006.01] |
|
| F02C 9/18 | UGR2 | | . . | by bleeding, by-passing or acting on variable working fluid interconnections between turbines or compressors or their stages [3, 5, 2006.01] |
|
| F02C 9/20 | UGR2 | | . . | by throttling; by adjusting vanes [3, 2006.01] |
|
| F02C 9/22 | UGR3 | | . . . | by adjusting turbine vanes [3, 2006.01] |
|
| F02C 9/24 | UGR2 | | . . | Control of the pressure level in closed cycles [3, 2006.01] |
|
| F02C 9/26 | UGR1 | |
| F02C 9/28 | UGR2 | | . . | Regulating systems responsive to plant or ambient parameters, e.g. temperature, pressure, rotor speed (F02C 9/30-F02C 9/38, F02C 9/44 take precedence) [3, 2006.01] |
|
| F02C 9/30 | UGR2 | | . . | characterised by variable fuel pump output [3, 2006.01] |
|
| F02C 9/32 | UGR2 | | . . | characterised by throttling of fuel (F02C 9/38 takes precedence) [3, 2006.01] |
|
| F02C 9/34 | UGR3 | | . . . | Joint control of separate flows to main and auxiliary burners [3, 2006.01] |
|
| F02C 9/36 | UGR2 | | . . | characterised by returning of fuel to sump (F02C 9/38 takes precedence) [3, 2006.01] |
|
| F02C 9/38 | UGR2 | | . . | characterised by throttling and returning of fuel to sump [3, 2006.01] |
|
| F02C 9/40 | UGR2 | | . . | specially adapted to the use of a special fuel or a plurality of fuels [3, 2006.01] |
|
| F02C 9/42 | UGR2 | | . . | specially adapted for the control of two or more plants simultaneously [3, 2006.01] |
|
| F02C 9/44 | UGR2 | | . . | responsive to the speed of aircraft, e.g. Mach number control, optimisation of fuel consumption [3, 2006.01] |
|
| F02C 9/46 | UGR2 | | . . | Emergency fuel control [3, 2006.01] |
|
| F02C 9/48 | UGR1 | | . | Control of fuel supply conjointly with another control of the plant (with nozzle section control F02K 1/17) [3, 2006.01] |
|
| F02C 9/50 | UGR2 | | . . | with control of working fluid flow [3, 2006.01] |
|
| F02C 9/52 | UGR3 | | . . . | by bleeding or by-passing the working fluid [3, 2006.01] |
|
| F02C 9/54 | UGR3 | | . . . | by throttling the working fluid, by adjusting vanes [3, 2006.01] |
|
| F02C 9/56 | UGR2 | | . . | with power transmission control [3, 2006.01] |
|
| F02C 9/58 | UGR3 | | . . . | with control of a variable-pitch propeller [3, 2006.01] |
|