Английская Википедия:CE-20

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Шаблон:Short description Шаблон:Infobox rocket engine

The CE-20 is a cryogenic rocket engine developed by the Liquid Propulsion Systems Centre (LPSC), a subsidiary of the Indian Space Research Organisation (ISRO). It has been developed to power the upper stage of the LVM3.[1] It is the first Indian cryogenic engine to feature a gas-generator cycle.[2] The high thrust cryogenic engine is the most powerful upper stage cryogenic engine in operational service.[3]

Overview

The CE-20 is the first Indian cryogenic engine to feature a gas-generator cycle.[4] The engine produces a nominal thrust of 200 kN, but has an operating thrust range between 180 kN to 220 kN and can be set to any fixed values between these limits. The combustion chamber burns liquid hydrogen and liquid oxygen at 6 MPa with 5.05 engine mixture ratio.[5][6] The engine has a thrust-to-weight ratio of 34.7 and a specific impulse of Шаблон:Convert in vacuum.[7]

Development and Testing

Файл:CE20 Engine 640 second test Front.jpg
CE-20 during static testing at Cryo Main Engine and Static Test facility (CMEST) of ISRO Propulsion Complex (IPRC), Mahendragiri on 19 February 2016
  • On 28 April 2015, CE-20 cleared a 635 seconds long duration hot test at IPRC, Mahendragiri test facility. This test was preceded by two cold start tests and four short duration hot tests.[8]
  • On 16 July 2015, the first developmental CE-20 engine 'E1' was successfully endurance hot tested at ISRO Propulsion Complex, Mahendragiri for a duration of 800 seconds with Mixture Ratio Controller (MRC) in closed loop mode. This duration is approximately 25% more than the engine burn duration in flight. This was tenth development test for CE-20 [9]
  • On 10 August 2015, a short duration (5.7 seconds) hot test on the CE-20 engine was done to demonstrate the successful engine ignition with tank pressure conditions as in flight.[10]
  • On 19 February 2016, the second developmental CE-20 engine 'E2'[11] was hot-tested for a duration of 640 seconds with Mixture Ratio Controller (MRC) in closed loop mode at ISRO Propulsion Complex, Mahendragiri.[12][13][14]
  • On 03 December 2016, flight acceptance test of 25 seconds in high altitude conditions was carried out on third developmental CE-20 engine (E3).[15][16][17] It was successfully flown on the first developmental flight 'D1' of the GSLV Mk-III on 5 June 2017.[18]
  • On 25 January 2017, CE-20 engine E2[17] integrated with development stage for GSLV Mk III, C25 'D' was tested for duration of 50 seconds.[19]
  • On 17 February 2017, CE-20 engine E2[17] integrated with development stage for GSLV Mk III, C25 'D' was tested for duration of 640 seconds.[20]
  • On 11 October 2018, CE-20 engine E6 completed 25 second long flight acceptance test in high altitude conditions for GSLV Mk III M1/Chandrayaan-2 mission[21]
  • On 16 December 2021, CE-20 (E9 engine) was tested to demonstrate the repeatability of engine ignition with stable combustion. Two ignition trial tests of 3.2 seconds duration were conducted nominally followed by a nominal hot test of 50 seconds duration.[22]
  • On 12 January 2022, CE-20 engine E9 completed 720 second long qualification test for Gaganyaan programme.[23]
  • On 29 October 2022, CE-20 engine E11[24] completed flight acceptance hot test for 25 seconds. Test was conducted to check the integrity of hardware, subsystems' performance and tuning the engine for LVM 3 M3 mission.[25]
  • On 9 November 2022, CE-20 engine E9 was hot tested for 70 seconds. During this test the engine operated at thrust level of approximately 20 tonnes for the first 40 seconds and then switched to an uprated thrust regime of 21.8 tonnes lasting ~30 seconds. This uprated engine would increase payload capacity of LVM3 to GTO by up to 450 kg along an appropriate stage with additional propellant loading. As part of engine modification, Thrust Control Valve (TCV), 3D-printed LOX and LH2 turbine, and exhaust casings were introduced for the first time.[26]
  • On 23 December 2022, CE-20 engine E9 was hot tested for 650 second duration. For the first 40 seconds of test, the engine was operated at 20.2 tonne thrust level, after this engine was operated at 20 tonne off-nominal zones and then for 435 seconds it was operated at 22.2 tonne thrust level. With this test, the 'E9' engine has been qualified for induction in flight. The E9 engine with this hot test has undergone twelve hot tests with 3370 seconds cumulative burn duration at different thrust & mixture ratio levels.[27]
  • On 24 February 2023, ISRO conducted successful Hot Test of CE-20 engine for 25 seconds at High Altitude Test Facility. CE-20 will now be combined with propellant tanks, stage structures and related fluid lines to produce an integrated flight cryogenic stage.[28][29] The test was part of Chandrayaan-3 mission.[30]
  • On 26 March 2023, during LVM3-M3 mission, a new white coloured C25 stage was introduced which has more environmental-friendly manufacturing processes, better insulation properties and the use of lightweight materials.[31]

CE20 Hot Tests for the Gaganyaan and 22t Thrust Qualification

  • On 9 August 2023, CE-20 engine E13 successfully operated with uprated thrust level of 22t for a nominal duration of 50 seconds. This hot test (HT-01) was aimed at engine tuning.[32]
  • On 30 August 2023, CE-20 engine E13 conducted second hot test (HT-02) to demonstrate the engine's reliability and stability for a long duration of 720 seconds with a thrust level of 19.7t.[32]
  • On 22 September 2023, CE-20 engine E13 successfully conducted for a long duration of 670 seconds with an uprated thrust level of 22t. With this third hot test (HT-03), qualification activities of the CE-20 engine for the Gaganyaan program were successfully completed.[33][34]
  • On 9 October 2023, CE-20 engine E13 underwent fourth hot test (HT-04), to demonstrate engine operation in off-nominal conditions. It was conducted nominally for a duration of 125 seconds. With this test, the CE-20 engine was qualified for operation at 22t thrust level during flight.[35][36]
  • On 19 October 2023, flight acceptance testing of CE-20 engine E12 was successfully completed for a duration of 25 seconds. This engine is assigned for the first uncrewed Gaganyaan mission HLVM3-GX.[36]

Manufacturing

The CE-20 cryogenic engine is manufactured by Hindustan Aeronautics Limited at its Integrated Cryogenic Engine Manufacturing Facility (ICEMF) in New Tippasandra, a suburb of Bengaluru.[37]

See also

Шаблон:Portal

References

Шаблон:Reflist

External links

Шаблон:Commons category

Шаблон:Indian space programme Шаблон:Rocket engines

Шаблон:Use Indian English

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