Method and system for starting an aircraft turboengine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-007/268
F02C-007/264
F01D-019/00
F02C-007/275
출원번호
US-0426310
(2013-08-27)
등록번호
US-9874149
(2018-01-23)
우선권정보
FR-12 58460 (2012-09-10)
국제출원번호
PCT/FR2013/051977
(2013-08-27)
국제공개번호
WO2014/037649
(2014-03-13)
발명자
/ 주소
Harriet, Pierre
Marin, Jean Philippe Jacques
출원인 / 주소
TURBOMECA
대리인 / 주소
Christensen O'Connor Johnson Kindness PLLC
인용정보
피인용 횟수 :
0인용 특허 :
1
초록▼
The invention relates to a method for starting an aircraft turboshaft engine, said turboshaft engine comprising a combustion chamber, a compressor shaft on which a compressor wheel is mounted to feed compressed air to said combustion chamber, at least one starter connected to said shaft so as to pro
The invention relates to a method for starting an aircraft turboshaft engine, said turboshaft engine comprising a combustion chamber, a compressor shaft on which a compressor wheel is mounted to feed compressed air to said combustion chamber, at least one starter connected to said shaft so as to provide it with a specified starting torque for driving it in rotation. The method comprises accelerating the compressor shaft during a first start-up phase, then stabilizing the rotational speed of the compressor shaft during a second start-up phase. During acceleration of the compressor shaft, the rotational speed of the shaft is regulated such that the acceleration of the shaft remains substantially constant.
대표청구항▼
1. Method for starting an aircraft turboshaft engine, said turboshaft engine comprising a combustion chamber, a compressor shaft on which a compressor wheel is mounted to feed compressed air to said combustion chamber, at least one starter connected to said compressor shaft so as to provide the comp
1. Method for starting an aircraft turboshaft engine, said turboshaft engine comprising a combustion chamber, a compressor shaft on which a compressor wheel is mounted to feed compressed air to said combustion chamber, at least one starter connected to said compressor shaft so as to provide the compressor shaft with a specified starting torque for driving the compressor shaft in rotation,said method comprising: accelerating the compressor shaft during a first start-up phase (P1); then stabilising the rotational speed of the compressor shaft during a second start-up phase (P2) so as to allow fuel to be injected into the combustion chamber and to allow the fuel to be ignited, the rotational speed of the compressor shaft being regulated during acceleration of the compressor shaft during the first start-up phase (P1) and rotational speed of the compressor shaft being stabilised during the second start-up phase (P2) such that the acceleration of the compressor shaft remains substantially constant,wherein said accelerating the compressor shaft during a first start-up phase (P1) includes obtaining an acceleration value over an interval of time; calculating the difference between the obtained acceleration value and a reference acceleration value; comparing the calculated difference with a predetermined acceleration threshold; and determining a speed reference or torque reference from the calculated difference if said acceleration threshold is exceeded. 2. Method according to claim 1, wherein during the stabilisation of the rotational speed of the compressor shaft during the second start-up phase (P2), the rotational speed of the compressor shaft is kept between 10% and 15% of a nominal rotational speed of the shaft. 3. Method according to claim 1, further comprising detecting ignition is carried out when the temperature of the gases output from the turboshaft engine exceeds a predetermined threshold. 4. Method according to claim 1, further comprising, after ignition of the fuel, accelerating the shaft, which allows the compressor wheel to be accelerated, said acceleration being regulated by the torque reference. 5. Method according to claim 1, wherein the rotational speed is regulated periodically. 6. Method according to claim 1, wherein said obtaining an acceleration value over an interval of time is carried out from two consecutive measurements of the rotational speed of the compressor shaft. 7. System for implementing a method for starting up an aircraft turboshaft engine, said system comprising a turboshaft engine and a turboshaft engine management computer,the turboshaft engine comprising a combustion chamber, a compressor shaft on which a compressor wheel is mounted to feed compressed air to said combustion chamber, at least one starter connected to said compressor shaft so as to provide the compressor shaft with a specified starting torque for driving the compressor shaft in rotation,said starter configured to accelerate the compressor shaft during a first start-up phase in response to information received from the engine management computer, wherein said engine management computer is configured to accelerate the compressor shaft during a first start-up phase including obtaining an acceleration value over an interval of time; calculate the difference between the obtained acceleration value and a reference acceleration value; compare the calculated difference with a predetermined acceleration threshold; and determine a speed reference or torque reference from the calculated difference if said acceleration threshold is exceeded, andand said starter is configured to stabilise the rotational speed of the compressor shaft during a second start-up phase in response to information received from the engine management computer, so as to allow fuel to be injected into the combustion chamber and to allow the fuel to be ignited, the engine management computer being configured to regulate the rotational speed of the compressor shaft such that the acceleration of the compressor shaft remains substantially constant. 8. System according to claim 7, wherein the starter is electric and comprises an electronic circuit for controlling the torque provided to the shaft. 9. Aircraft comprising: a turboshaft engine; and a system comprising a turboshaft engine management computer, wherein the turboshaft engine comprises: a combustion chamber; a compressor shaft on which a compressor wheel is mounted to feed compressed air to said combustion chamber; and at least one starter connected to said compressor shaft so as to provide the compressor shaft with a specified starting torque for driving the compressor shaft in rotation,said starter configured to accelerate the compressor shaft during a first start-up phase (P1), and configured to stabilise the rotational speed of the compressor shaft during a second start-up phase (P2), so as to allow fuel to be injected into the combustion chamber and to allow the fuel to be ignited, wherein the turboshaft engine and said turboshaft engine management computer are configured to: accelerate the compressor shaft during the first start-up phase (P1), wherein acceleration of the compressor shaft includes obtaining an acceleration value over an interval of time; calculating the difference between the obtained acceleration value and a reference acceleration value; comparing the calculated difference with a predetermined acceleration threshold; and determining a speed reference or torque reference from the calculated difference if said acceleration threshold is exceeded,said starter is configured to then stabilise the rotational speed of the compressor shaft during a second start-up phase (P2) so as to allow fuel to be injected into the combustion chamber and to allow the fuel to be ignited,the rotational speed of the compressor shaft being regulated during acceleration of the compressor shaft during the first start-up phase (P1) and the rotational speed of the compressor shaft being stabilised during the second start-up phase (P2) such that the acceleration of the shaft remains substantially constant. 10. Aircraft comprising; a turboshaft engine; and a system comprising a turboshaft engine management computer, wherein the turboshaft engine comprises: a combustion chamber; a compressor shaft on which a compressor wheel is mounted to feed compressed air to said combustion chamber; and at least one starter connected to said compressor shaft so as to provide the compressor shaft with a specified starting torque for driving the compressor shaft in rotation,wherein the turboshaft engine and said turboshaft engine management computer are configured to: accelerate the compressor shaft during a first start-up phase (P1), wherein acceleration of the compressor shaft includes obtaining an acceleration value over an interval of time; calculating the difference between the obtained acceleration value and a reference acceleration value; comparing the calculated difference with a predetermined acceleration threshold; and determining a speed reference or torque reference from the calculated difference if said acceleration threshold is exceeded,the turboshaft engine and said turboshaft engine management computer configured to then stabilise the rotational speed of the compressor shaft during a second start-up phase (P2) so as to allow fuel to be injected into the combustion chamber and to allow the fuel to be ignited,the rotational speed of the compressor shaft being regulated during acceleration of the compressor shaft during the first start-up phase (P1) and the rotational speed of the compressor shaft being stabilised during the second start-up phase (P2) such that the acceleration of the shaft remains substantially constant.
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이 특허에 인용된 특허 (1)
Wahl Robert E. ; Stokes Richard F., Gas turbine starter assist torque control system.
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