RLV-TD – демонстратор индийского многоразового носителя с крылатой ступенью

Автор Salo, 07.01.2015 00:26:28

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triage

Цитироватьhttps://www.reddit.com/r/ISRO/comments/7r01u8/papers_on_rlvtd_mission_published_in_current/
The 10 January 2018 issue of the journal Current Science has a special section devoted to the Reusable Launch Vehicle - Technology Demonstrator that ISRO flight tested in May 2016:
Message - A.S. Kiran Kumar
Message - K. Sivan
Message - S. Pandian
Preface - B.N. Suresh
An overview of Reusable Launch Vehicle Technology Demonstrator by K. Sivan & S. Pandian
Aerodynamic design, characterization and flight performance of RLV-TD
Aerothermal design, qualification and flight performance
Flush air data sensing system
Development of slow-burning solid rocket booster for RLV-TD hypersonic experiment
Integrated electrohydraulic control actuation system with centralized power plant for the Reusable Launch Vehicle Technology Demonstrator
Mission design and performance of RLV-TD
Integrated navigation, guidance and control system and validation
An end-to-end airframe structural system design
Development of large-sized Titanium alloy Ti6Al4V and nickel-based superalloy Inconel-718 forgings for Reusable Launch Vehicle-Technology Demonstrator flight
Ceramic coating on flexible external insulation blankets for reusable missions
Quality assurance challenges in testing and evaluation of reusable launch vehicle systems
Часть долго скачивается, но статьи многостраничные

А тут деньги просят
ЦитироватьThe Journal of Aerospace Sciences and Technologies too has published a RLV-TD special issue. But only the paper abstracts are available online without subscription.
ЦитироватьAmazing haul! Didn't see this one among these.
"Development of RLV-TD Stage Separation System"
https://www.researchgate.net/publication/320807857_Development_of_RLV-TD_Stage_Separation_System
Edit: Direct link to issue
Volume 114 - Issue 01 : 10 January 2018
http://www.currentscience.ac.in/php/toc.php?vol=114&issue=01
На NSF в теме

ЦитироватьSaurav Jha‏ @SJha1618
10:48 - 29 янв. 2018 г.

Here's an image of the RLV-TD undergoing tests in the reverberation chamber at NAL's acoustic test facility.

А древнее фото
Цитироватьhttps://www.defenceaviation.com/2016/05/indias-attempt-to-develop-its-own-space-shuttle-the-reusable-launch-vehicle-technology-demonstrator-rlv-td.html

India's attempt to develop its own "Space Shuttle", The Reusable Launch Vehicle-Technology Demonstrator (RLV-TD)
Posted by: Larkins Dsouza May 23, 2016

Salo

https://www.thehindubusinessline.com/news/science/isro-moves-on-gears-up-to-test-semi-cryogenic-engine-in-ukraine/article29451601.ece#
Цитировать...

A new AVATAR

ISRO's rocketry has many ambitious milestones to cross. First, there is the re-usable launch vehicle but the real meat is to come later, hopefully by 2025, when the AVATAR vehicle will become operational.

Jointly developed by ISRO and Defence Research and Development Organization (DRDO), AVATAR will be a space plane that can take off and land from airfields, like commercial aircraft. It will be a technological marvel, which will collect air on its way up, separate oxygen from it and store the gas on-board for space use.

Apart from bringing down the cost of launching satellites incredibly, to under $100 a kg, the AVATAR is also expected to make 'space solar stations' possible. These are solar power plants in space that will produce electricity and beam it down as microwaves.

Today, taking up tonnes of material to build such a station makes it uneconomical, but AVATAR could favourably invert the economics of it. Incidentally, China has made substantial progress in building the first ever SSS.

In the meantime, ISRO is also trying to master the technology for 'docking' with a space station, so that Indian astronauts and supplies can be ferried up and down. ISRO indeed has little time to grieve over Chandrayaan-2.

Published on September 19, 2019
"Были когда-то и мы рысаками!!!"

triage

Цитироватьhttps://spacenews.com/india-outlines-launch-plans-progress-in-human-spaceflight-and-space-transportation/

by Andrew Jones — February 27, 2020

HELSINKI — India's launch plans for the coming year include a range of Earth observation, communication and navigation satellites according to an annual report.

Progress in the areas of space transportation and human spaceflight is also laid out in the Indian Space Research Organisation (ISRO) report.
...
In space transportation India is proceeding with a Reusable Launch Vehicle (RLV) project to demonstrate technologies for developing a wing body vehicle similar to that of an aircraft. A Landing Experiment to test autonomous landing at an airfield in Karnataka, southwest India following airdrop from a helicopter was stated to be planned for the last quarter of 2019. No update on its status or outcome was provided.
...
https://www.isro.gov.in/sites/default/files/flipping_book/annual_report_2019-20_english/index.html#68

triage

#43
Кажется треш и угар в тексте т.к. какой-то американский пример. Планируется сброс с вертолета и посадка на парашюте. Раньше на картинках на парашюте приземлялась вторая ступень или что-то другое

Цитата: undefinedhttps://swarajyamag.com/amp/story/insta%2Findias-own-space-shuttle-isro-likely-to-test-ground-landing-of-its-reusable-launch-vehicle-by-end-of-this-year

By IANS
October 07, 2020 at 4:23 PM

The Indian space agency is likely to test its reusable launch vehicle's (RLV) landing on the ground sometime in November or December 2020, said a senior official.

The Indian Space Research Organisation (ISRO) is targeting to build RLV similar to USA's space shuttle to put into orbit satellites and come back to land for the next mission. This in turn would bring down the satellite launch costs.

The two Indian rockets in service - Polar Satellite Launch Vehicle (PSLV) and Geosynchronous Satellite Launch Vehicle (GSLV) - and also the upcoming Small Satellite Launch Vehicle (SSLV) - are expendable ones.

"We are planning to test the Reusable Launch Vehicle's landing in Chitradurga District in Karnataka. We want to do the test in November/December this year," S Somanath, Director, Vikram Sarabhai Space Centre (VSSC) -- part of ISRO -- told IANS.

As per plans, the RLV will be lifted up by a helicopter and from the height of four km it will be released.

Post release by the helicopter, the RLV will glide and navigate towards the runway and land on its own in an airfield in Chitradurga District deploying its parachute, Somanath said.

According to ISRO, RLV Interface System (RIS) for interfacing with helicopter and Qualification Model of landing gear have been realised.

Simply put, RLV will ascend to orbit, stay there, re-enter and land on a runway like an aircraft. The technology has the challenges of meeting the complexities of both -- a rocket and an aircraft.

According to Somanath, about 30-40 ISRO officials have to be taken to Chitradurga and stay there for about two weeks.

In 2016, ISRO successfully tested RLV's descent from an altitude of 65 km, its atmospheric re-entry at around Mach 5 (five times the speed of sound).

According to ISRO, the vehicle's navigation, guidance and control system accurately steered the vehicle during this phase for safe descent.

After successfully surviving high temperatures of re-entry with the help of its Thermal Protection System (TPS), the vehicle successfully glided down to the defined landing spot over Bay of Bengal, at a distance of about 450km from Sriharikota in Andhra Pradesh.

Total flight duration from launch to landing of this mission lasted for about 770 seconds.

(This story has been published from a wire agency feed without modifications to the text. Only the headline has been changed.)

triage

Цитата: /Иван/ от 08.01.2022 21:21:44P.S.
https://www.isro.gov.in/launcher/rlv-td
Цитироватьhttps://www.isro.gov.in/launcher/rlv-td
The winged RLV-TD has been configured to act as a flying test bed to evaluate various technologies, namely, hypersonic flight, autonomous landing and powered cruise flight. In future, this vehicle will be scaled up to become the first stage of India's reusable two stage orbital launch vehicle.

triage

запланированы тестовые сбросы с вертолета
Цитироватьhttps://timesofindia.indiatimes.com/home/science/key-landing-test-will-push-reusable-vehicle-rlv-td-closer-to-orbital-re-entry-mission/articleshow/89596282.cms

Key landing test will push reusable vehicle RLV-TD closer to Orbital Re-Entry mission
Chethan Kumar | Updated: Feb 15, 2022, 19:44 IST

копи-паста приведенного тут текста отсюда
Цитироватьhttps://timesofindia.live/latest-news/rlv-key-landing-test-will-push-reusable-vehicle-rlv-td-closer-to-orbital-re-entry-mission-times-of-india/
BANGALORE: ISRO, which is making steady progress on its reusable launch vehicle-technology demonstrator (RLV-TD), wants to conduct a major landing test in the next few months – RLV-LEX – which will push it closer to an orbital. Re-entry Test (ORE). The planned landing test will be conducted at Challakere in Chitradurga district, about 220 km from Bangalore.
ISRO Chairman S Somanath, while confirming that the company has planned RLV-LEX this year, said: That will be the case. We are preparing for the test and the system is being prepared. We will make an announcement soon. "
On the LEX, the car will be flown by helicopter at an altitude of about 3 km to 5 km and will be dropped at a distance of about 4 km to 5 km from the runway with a horizontal speed. According to ISRO, after the release, the RLV glides, navigates the runway and makes a conventional autonomous landing with a landing gear.
S Unnikrishnan Nair, Director, Vikram Sarabhai Space Center (VSSC), said: "We are planning to test in the next three to four months, the hardware is almost ready. The RLV will be released from the helicopter under controlled conditions. It will have various control systems including its own navigation and guidance control system and aerodynamics sensors etc. This test will mimic the last 800 m to 1 km of the actual orbital mission. "
Referring to how landing on any mission is one of the most complex operations, Nair said the RLV-LEX technology would take the demonstration one step closer to the planned ORE.
"Once we have successfully completed this mission and we have verified the software, landing gear and data on how the aerodynamics sensors worked to operate the aircraft and bring it back to its intended place on runways and other complex technologies, we will be ready. Orbital re-entry test. For this, RLV will be increased, "said Nair.
According to ISRO, in ORE, a wing body called Orbital Re-entry Vehicle (ORV) will be carried into orbit by a boarding vehicle derived from existing GSLV and PSLV stages and remain in orbit for a specified period of time, re-entering and landing gear. Landing on a runway with autonomous co.
"Prior to RLV-LEX, we conducted RLV-TD HEX-01 (hypersonic test) mission where we successfully tested autonomous navigation, guidance and control, reusable heat protection system and re-entry mission management. Once LEX is done, we need to integrate both for ORE, "said Nair.
Operated on May 23, 2016, the RLV-TD HEX was a 770-second suborbital flight and was designed for landing at sea. Experimental missions have shown the HS9 solid rocket booster RLV-TD moving at an altitude of about 65 km from where the vehicle started its landing and then re-entering the atmosphere at Mach 5 (five times the speed of sound).
ISRO, which has been working on the technology for more than a decade, has decided to build it primarily to address cost and time issues. "The cost of access to space is a major barrier to space exploration and space use. A reusable launch vehicle is a low-cost, reliable and on-demand solution for gaining access to space," ISRO said.
However, mastering this technology will provide multiple benefits, including the development of different types of launch vehicles, space transport and much more. While the ORE will be a major milestone, the RLV-TD will only take longer to build a technology demonstrator and a truly reusable launch vehicle.

Цитироватьreusable launch vehicle-technology demonstrator (RLV-TD)
RLV-LEX – which will push it closer to an orbital. Re-entry Test (ORE)...  Nair said the RLV-LEX technology would take the demonstration one step closer to the planned ORE. ...
in ORE, a wing body called Orbital Re-entry Vehicle (ORV)
"Prior to RLV-LEX, we conducted RLV-TD HEX-01 ... Once LEX is done, we need to integrate both for ORE, "said Nair.
While the ORE will be a major milestone, the RLV-TD will only take longer to build a technology demonstrator and a truly reusable launch vehicle

Всё-таки есть в этой штуке что-то вроде безумно-гаражного шарма.

Starship, который ваяли из нержи в чистом поле выглядел необычно, но тут...

Тут эта штука ещё и маленькая)

Но вообще мило.

Arzach

Цитата: ISRO Spaceflight (@ISROSpaceflight)Председатель ISRO доктор С. Соманат сообщил, что посадочный эксперимент RLV-TD (LEX) состоится в эту субботу, 28 января.
То есть, насколько я понял, речь о "бросковом испытании" - сбросе с вертолета - для отработки приземления на ВПП. Следующим этапом станет ORE (Orbital Re-Entry Experiment) - вывод на орбиту с возвращением и приземлением на ВПП.

Вы не можете просматривать это вложение.

Искандер

Вроде и круто, но...
Она же ма-лень-ка-я!
Сейчас мировые планы по извозу выросли в разы, не будет хватать носителей.
Индия не собирается участвовать в этом празднике жизни? Тихо сам с собою?
Потом, это фактически микроСШ с крылышками для планирования, а как же ж пилотажка?
Короче - недоразмерен!
Aures habent et non audient, oculos habent et non videbunt

telekast

Цитата: Искандер от 26.01.2023 17:15:14Вроде и круто, но...
Она же ма-лень-ка-я!
Сейчас мировые планы по извозу выросли в разы, не будет хватать носителей.
Индия не собирается участвовать в этом празднике жизни? Тихо сам с собою?
Потом, это фактически микроСШ с крылышками для планирования, а как же ж пилотажка?
Короче - недоразмерен!
Ну, будут на нем отрабатывать систему, может какиенибуть наноспутники попутно выводить. Потом ю, на основе опыта смаштабируют. 
"Вызов" - это флаговтык!
Как тебе такое, "Джон Уик" ?! (с)

Искандер

Цитата: telekast от 26.01.2023 17:40:48
Цитата: Искандер от 26.01.2023 17:15:14Вроде и круто, но...
Она же ма-лень-ка-я!
Сейчас мировые планы по извозу выросли в разы, не будет хватать носителей.
Индия не собирается участвовать в этом празднике жизни? Тихо сам с собою?
Потом, это фактически микроСШ с крылышками для планирования, а как же ж пилотажка?
Короче - недоразмерен!
Ну, будут на нем отрабатывать систему, может какиенибуть наноспутники попутно выводить. Потом ю, на основе опыта смаштабируют.
Необязательно нано, но небольшие.
Для собственных потребностей Индии похоже этого достаточно.
Сейчас намечается явный дефицит средств выведения на мировом рынке - многим захотелось свои созвездия иметь или просто иметь свой спутник, SpaceX не всем подходит, да и он не справится. NewGlen, Вулкан, Старшип задерживаются, существующий парк не потянет. А Индии все пох, своя программа тихого попила.
Сама идея ведь классная - развитие темы Шатла+Старшипа. Тут ведь важно с размером угадать, покрыть потребности коммерческого выведения спутников, пилотируемой космонавтики, ну и собственных нужд.
Брали бы пример с Маска - он сразу замахивается на минимально необходимый размер под целевую задачу.
Aures habent et non audient, oculos habent et non videbunt

Astro Cat

Цитата: Искандер от 28.01.2023 19:56:03SpaceX не всем подходит, да и он не справится.

Справится и еще как! Сотнями мелочи запускают! Хеви вон простаивают - нет нагрузок!

Astro Cat

Цитата: Искандер от 28.01.2023 19:56:03Сама идея ведь классная - развитие темы Шатла

Ничего классного. Тащить на орбиту шасси и крылья. Для посадки нужен аэродром оборудованный. Промах мимо полосы - крах.

Корабль должен садится почти в любую точку земного шара. Плюс-минус метр точностью.

Arzach

Цитата: Astro Cat от 28.01.2023 22:00:12Для посадки нужен аэродром оборудованный.
Не факт. Под Dream Chaser уже несколько обычных аэропортов сертифицировали. И в любую точку садиться крылатые не смогут, энергетика не позволит. 

Цена крыльев и шасси на орбиту - как раз способность сойти с орбиты с минимальными перегрузками и сесть в обычном аэропорте, не требуя содержания всяких ПСС.

Искандер

Цитата: Astro Cat от 28.01.2023 21:56:22
Цитата: Искандер от 28.01.2023 19:56:03SpaceX не всем подходит, да и он не справится.

Справится и еще как! Сотнями мелочи запускают! Хеви вон простаивают - нет нагрузок!

Например, 
Амазон не будет обращаться к SpaceX.BO пока не имеет ракеты. ЕМНИП ULA все Атласы расписаны, Вулкана пока нет, Arianespace - дорого и ограничено! На минуточку - у Амазон группировка больше 3000 спутников!
Суть - у Индии нет возможностей поучаствовать в распиле на этом проекте к примеру, хотя могли бы.
Проект то интересный, но...
Aures habent et non audient, oculos habent et non videbunt

Искандер

Цитата: Astro Cat от 28.01.2023 22:00:12
Цитата: Искандер от 28.01.2023 19:56:03Сама идея ведь классная - развитие темы Шатла

Ничего классного. Тащить на орбиту шасси и крылья. Для посадки нужен аэродром оборудованный. Промах мимо полосы - крах.

Корабль должен садится почти в любую точку земного шара. Плюс-минус метр точностью.

Много у шатлов было промахов мимо полосы? Это очередной "страшный ветер".
Ну, зачем в любую точку? Кому это нужно? Нужно в определенные, на аэродромы, где его уже ждут.
Низкий "мю" - характерный признак всех многоразовых систем, но для них главное экономическая целесообразность, возможность возвращать грузы с орбиты и частота пусков, т.е. иначе производительность космической системы.
Aures habent et non audient, oculos habent et non videbunt

zandr

#56
https://twitter.com/CNSpaceflight/status/1642386024633626624
ЦитироватьChina 'N Asia Spaceflight  @CNSpaceflight
ISRO successfully conducted a landing test of the Reusable Launch Vehicle on 04/02. The test article was brought to a height of 4.5km by a Chinook helicopter of Indian Air Force at 01:40UTC & successfully landed at the Aeronautical Test Range in Chitradurga, Karnataka at 02:10UTC
фото см. ниже
[свернуть]

"Vehicle" переводится "носитель", но мы обычно под этим понимаем средство запуска. А здесь, очевидно, средство посадки, которое и может внутри себя "нести" некую ПН.
"Корабль" в названии может быть заменено в дальнейшем при появлении более удачных идей.

Объединено с ранней темой.

zandr

#57
И первоисточник:
https://twitter.com/isro/status/1642353304339636225
ЦитироватьISRO  @isro
India 🇮🇳 achieved it!
ISRO, joined by @DRDO_India @IAF_MCC, successfully conducted the Reusable Launch Vehicle Autonomous Landing Mission (RLV LEX)
at the Aeronautical Test Range (ATR), Chitradurga, Karnataka in the early hours on April 2, 2023.

RLV lands on a runway




zandr

ЦитироватьChethan Kumar  @Chethan_Dash
#Breaking #Space
@isro successfully completed the #RLVLEX the landing experiment of the re-usable launch vehicle at Challakere. Mission went on as planned. IAF's Chinook was used to drop RLV from 4.5km. It may have even set a record. More details & pics later.

triage

#59
Кажется индусы лучше всего объяснили что сбрасывал с вертолета в своем пресс релизе чем написало ТАСС

Цитироватьhttps://www.isro.gov.in/Reusable_launch_vehicle_autonomous_landing_mission.html

ISRO successfully conducts the Reusable Launch Vehicle Autonomous Landing Mission (RLV LEX)Home/ISRO successfully conducts the Reusable Launch Vehicle Autonomous Landing Mission (RLV LEX)

April 02, 2023

ISRO successfully conducted the Reusable Launch Vehicle Autonomous Landing Mission (RLV LEX). The test was conducted at the Aeronautical Test Range (ATR), Chitradurga, Karnataka in the early hours on April 2, 2023.

The RLV took off at 7:10 am IST by a Chinook Helicopter of the Indian Air Force as an underslung load and flew to a height of 4.5 km (above MSL). Once the predetermined pillbox parameters were attained, based on the RLV's Mission Management Computer command, the RLV was released in mid-air, at a down range of 4.6 km. Release conditions included 10 parameters covering position, velocity, altitude and body rates, etc. The release of RLV was autonomous. RLV then performed approach and landing maneuvers using the Integrated Navigation, Guidance & control system and completed an autonomous landing on the ATR air strip at 7:40 AM IST. With that, ISRO successfully achieved the autonomous landing of a space vehicle.

The autonomous landing was carried out under the exact conditions of a Space Re-entry vehicle's landing —high speed, unmanned, precise landing from the same return path— as if the vehicle arrives from space. Landing parameters such as Ground relative velocity, the sink rate of Landing Gears, and precise body rates, as might be experienced by an orbital re-entry space vehicle in its return path, were achieved. The RLV LEX demanded several state-of-the-art technologies including accurate Navigation hardware and software, Pseudolite system, Ka-band Radar Altimeter, NavIC receiver, indigenous Landing Gear, Aerofoil honey-comb fins and brake parachute system.

In a first in the world, a winged body has been carried to an altitude of 4.5 km by a helicopter and released for carrying out an autonomous landing on a runway. RLV is essentially a space plane with a low lift to drag ratio requiring an approach at high glide angles that necessitated a landing at high velocities of 350 kmph. LEX utilized several indigenous systems. Localized Navigation systems based on pseudolite systems, instrumentation, and sensor systems, etc. were developed by ISRO. Digital Elevation Model (DEM) of the landing site with a Ka-band Radar Altimeter provided accurate altitude information. Extensive wind tunnel tests and CFD simulations enabled aerodynamic characterization of RLV prior to the flight. Adaptation of contemporary technologies developed for RLV LEX turns other operational launch vehicles of ISRO more cost-effective.

ISRO had demonstrated the re-entry of its winged vehicle RLV-TD in the HEX mission in May 2016. The re-entry of a hypersonic sub-orbital vehicle marked a major accomplishment in developing Reusable Launch Vehicles. In HEX, the vehicle landed on a hypothetical runway over the Bay of Bengal. Precise landing on a runway was an aspect not included in the HEX mission. The LEX mission achieved the final approach phase that coincided with the re-entry return flight path exhibiting an autonomous, high speed (350 kmph) landing. The LEX began with an Integrated Navigation test in 2019 and followed multiple Engineering Model Trials and Captive Phase tests in subsequent years.

Along with ISRO, IAF, CEMILAC, ADE, and ADRDE contributed to this test. The IAF team hand in hand with the Project team and multiple sorties were conducted to perfect the achievement of release conditions. Dr. S Unnikrishnan Nair, Director, VSSC, and Shri Shyam Mohan N, Programme Director, ATSP guided the teams. Dr. Jayakumar M, Project Director, RLV was the Mission Director, and Shri Muthupandian J, Associate Project Director, RLV was the Vehicle Director for the mission. Shri Ramakrishna, Director, ISTRAC was present on the occasion. Chairman, ISRO/Secretary, DOS Shri S Somanath witnessed the test and congratulated the team.

With LEX, the dream of an Indian Reusable Launch Vehicle arrives one step closer to reality.

еще про RLV  и этапы
https://www.vssc.gov.in/Reusable_launch_Vehicle.html
https://www.vssc.gov.in/HINDI/Reusable_launch_Vehicle.html