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Indian Space Capabilities

India set to launch a reusable spacecraft
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India is surging ahead literally out of this world as Indian Space Research Organisation (ISRO) begins work on a wholly indigenous effort to build a space shuttle that will carry Indians into the space like US space shuttle, Columbia. India is planning to launch a reusable spacecraft for the first time in 2010 and to send a mission to Mars as early as 2012.

India has been successfully developing space program in recent years and regularly launching satellites using booster rockets. But with a little cooperation with either USA or Russia, India will be able to cut the huge costs and share technology to build its own shuttle. India has agreements with both and could get help from either or both countries.

Former ISRO Chairman, Dr K Kasturirangan, and now advisor says the first prototype is a few years away, “The instruments and the satellite are under the final tests in ISRO satellite centre. So this will take a month and a half for to go through these tests and make sure that all the systems are behaving normally under the conditions of the space. Subsequently, there will be flight readiness review and a mission readiness review. I can except anything earliest could be the next two months.”
 
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marshal, is this is the AVATAR

Isn't 2012 is too ambitious deadline for MARS mission?

But any way good news :cheers:
check some thing I have old references

ISRO completes ground trials of hyperplane engine
Monday April 5 2004 13:06 IST

KOCHI: After the US successfully flew its first hypersonic jet, it’s now India’s turn to test its air-breathing propulsion system.

The Indian Space Research Organisation (ISRO) has completed the ground-level trials of the air-breathing engine and is preparing to move into more advanced stages of development. Top sources told this newspaper that the ISRO would be able to launch the first technology-demonstrator within two years.

Special teams have been formed to prepare the indigenous system for its first flight. ‘‘We plan to put it on a sounding rocket instead of carrying it on an aircraft like NASA. The module will be launched at a height of 20-25 km at a speed of about Mach 6. It will draw oxygen from the atmosphere and convert it into fuel for further propulsion,’’ top sources said.

Through the Air-Breathing Propulsion Project (ABPP), being undertaken in Thiruvananthapuram, Indian space research will join the league of the US. Though many other countries attempted the concept, none had been successful.

‘‘We are happy with the ground tests. The system produced desirable floor rates. Next round of experiments will be held at the National Aeronautical Laboratory, Bangalore,’’ sources said.

The ISRO will also send a special team to the Liquid Propulsion Centre, Mahendragiri, for a crucial phase of the project. ‘‘This is injection of hydrogen into the system. During its supersonic flight, the technology will breath in oxygen. This will be mixed with hydrogen on board to create fuel for forward manoeuvres,’’ sources said.

The ABPP, also known as hyperplane, is intended at providing a most-efficient, technologically-reliable and cost-effective space launch system.

‘‘We have adopted a step by step approach. And the first strides have been quite satisfactory,’’ said G.Madhavan Nair, ISRO chairman. ‘‘The engine module has been satisfactorily tested at ground level. We are indeed hopeful of flying it in another 18 months’ time,’’ he said.

The ISRO is aiming to touch Mach 6 during the first flight. ‘‘We have demands for achieving Mach 10. This is, perhaps, the first step,’’ Madhavan Nair said.

The idea of using a two-stage sounding rocket is also to keep the costs down. The system may be accommodated in the second stage of the rocket that will effectively take it up to 25-km height. ‘‘The scientists have been able to hold combustion effectively. This, itself, is a significant landmark or a strong foundation for us to build further,’’ sources said.

India plans to use the hyperplane for cheaper satellite launches. A similar project, titled Avatar, is also being undertaken by the Defence Research and Development Organisation (DRDO). ‘‘Any rocket system will have military use also. So it’s not surprising,’’ sources quipped.

Link
- Newindpress.com

and
 
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In fact when I first saw the news on timesnow I thought it was a joke.....the reporter was even claiming that the Indian shuttle is comparabale to columbia..............but yes I think it has to be the AVTAR...... Remember India and Russia signed the deal to develope the space shuttle back in Jan 2007 during the visit of then Russian Pres. Putin. I think the probable russian involvement in this project could have played a part for early complition of the project..but this is just a speculation on my part...
 
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In fact when I first saw the news on timesnow I thought it was a joke.....the reporter was even claiming that the Indian shuttle is comparabale to columbia..............but yes I think it has to be the AVTAR...... Remember India and Russia signed the deal to develope the space shuttle back in Jan 2007 during the visit of then Russian Pres. Putin. I think the probable russian involvement in this project could have played a part for early complition of the project..but this is just a speculation on my part...

ok refer this also:

A scramjet that cruises at 17290 km/hr - Newindpress.com
 
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..............but yes I think it has to be the AVTAR......

Marshal, I may be wrong but Avatar(HSTD) is the system being devloped by DRDO while at the same time ISRO is devloping its own system called RLV. Both of them had set 2010 as deadline. So these are two seperate Programs running at the same time and ISRO seems ahead at this moment.

Found some details here..
India's hypersonic jets catch attention​

18 Aug 2008 06:12:00 PM IST

An Indian double has caught global attention in the hypersonic race for cheap and cost effective launch technology. Bidding for their rightful place among the world’s majors, two of the country’s premier agencies are in the advanced stages of proving scramjet (supersonic combustion ramjet) technology to meet their respective strategic needs.


While the Indian Space Research Organisation (ISRO) is working on the Reusable Launch Vehicle (RLV) for launching satellites, the Defence Research and Development Organisation (DRDO) is dreaming about a Hypersonic Technology Demonstrator (HSTD) to carry a range of weapons faster and farther.

Both have set a 2010 deadline. And both are in the pre-fabrication stage. But ISRO has the edge as it has already carried out a seven-second experimental combustion of a test engine. To state that both the projects are progressing at somewhat the same pace won’t be far off the mark.

But there’s a remarkable design difference between the RLV and the HSTD. ISRO’s hypersonic plane, being built at the Vikram Sarabhai Space Centre (VSSC), Thiruvananthapuram, is a winged body while the HSTD is a sleeker structure. The only common architecture, perhaps, is the air intake scoop at the front through which atmospheric air will be sucked in before oxygen is separated from it to oxidise the onboard fuel.

This is how the scramjet bypasses the need to carry an oxidiser on board. In a conventional rocket, the fuel and oxidiser are stored separately and burnt in a regulated combustion of eight grams of oxygen to one gram of fuel. But in the scramjet, oxygen is isolated from the air, compressed and introduced to a stream of fuel.

To ensure that sufficient oxygen is ingested for a self-sustaining flight, the scramjet must get to supersonic speeds before going ahead with its designated mission of launching a satellite for ISRO or delivering a warhead for DRDO.

This speed is achieved by coupling the scramjet to a conventional rocket during the initial phase of the flight. "We will mount the RLV prototype on a sounding rocket (S9). The rocket will speed it up to Mach 5 before the body is allowed to surf and suck air for onboard combustion. This process fires the scramjet and propels the payload to the desired orbit at speeds between Mach 8 and 10," says VSSC director K Radhakrishnan.

The DRDO plans to use a core-alone Agni stage (S1). The capsule containing the HSTD will ride on Agni to stratospheric heights. After the first stage separates, the capsule shifts to a horizontal alignment and opens up to allow the HSTD to skim the atmosphere and breathe air.

“We’re in an advanced stage. The shock tunnel test will soon be conducted. Our plan is to have a 400-second flight by 2009,’’ says M S Sundareshan, technical adviser at the Defence Research and Development Laboratory, Hyderabad. The DRDL is currently firing its test engine in a ground facility.

“The initial results are promising. We achieved significant thrust value,” says Sundareshan, adding that achieving hypersonic levels is a challenge that no nation except the US has met. The DRDO needs such speeds for weapon delivery at very great distances. The job is now done by Inter Continental Ballistic Missiles.

But like space rockets, ICBMs are a very costly chemical proposition. “The hyperplane can fly in at fast speeds, fire the missile or launch the warhead and return. The reusability will reduce our costs significantly,” says DRDL director Dr Venugopalan.

Cost figures in ISRO’s calculus as well. “The cost of launching a satellite using conventional rockets like the PSLV or GSLV is $25,000 to $28,000 per kg. The scramjet can reduce it to $500. This will make any nation with such a technology a launch destination,” says Radhakrishnan.

One great attraction is that the RLV can be brought back and reused. “The conventional rocket is expendable. Each stage burns out as the payload soars. But the RLV will come back after its mission,” he says.

ISRO will land the RLV on the sea using parachutes. But a project to facilitate its landing like an unmanned aircraft is on the anvil. DRDO also plans to land it like an aircraft. “We’ve a few UAV projects going where this technology is being experimented with. It can be integrated with the HSTD,” sources say.

Another frontier that scramjet research has opened up is advanced metallurgy. “We’re talking about a craft that moves at great speeds, breaks off from the atmosphere and re-enters, weathering high temperatures and atmospheric friction. There are several new alloys being developed. Apart from their use in scramjet vehicles, this research will impact the whole gamut of strategic metallurgy,” says Dr G Malakondaiah, director of the Defence Metallurgical Research Laboratory, Hyderabad.

India is experimenting with silica-carbon-silica and nickel-based alloys to cover the scramjet. Both alloys have high thermal resistance. A prototype using these alloys will be subjected to wind tunnel tests to gauge their strength against the vagaries of the atmosphere and beyond.

It is but natural for anyone to wonder why two Indian agencies are developing the same technology in parallel, with so much, except the sophisticated nature of the end-use, in common. ISRO insiders blame it on the absence of a pro-active culture within DRDO’s portals; the latter finds fault with ISRO’s big brother attitude.

“It’s the typical Indian defence story,” says one former top gun of ISRO. “In a way, it’s a blessing in disguise. Whoever proves it first will attract global attention. With the country inching closer to the concept of aerospace strategic forces, there will be a lot of give and take once the technology is proved indigenously,” he adds.

And the scramjet will place India in a league of nations that includes the US, Japan, China, Russia, Australia and Europe where this nascent technology is the latest scientific fad.

http://www.expressbuzz.com/edition/...n4=&SectionName=n5rce3HBdMPVeH7FlL5aBQ==&SEO=
 
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so guys, we are moving in two fronts. In my definition DRDO is working towards giving our armed forces "sudarshan chakra" (as the HSDTV can come back after weapons delivery) and ISRO towards reusable vehicles for satellite delivery.
 
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In response to an order placed by BEL, Ghaziabad for development of 12.88m dia radomes for the 9M dia Doppler Weather Radar developed by BEL-Ghaziabad (technology transferred from ISRAD-ISRO), NAL has successfully designed and built the country’s first state-of-the-art 12.88m dia MARK-II Radome, installed around the 9m dia DW Radar at BEL-Bangalore site.

In continuation to the MARK-I Radome (146 panels) developed earlier for ISTRAC-ISRO, this MARK-II Radome was developed to get better EM performance, with increased panel size of approx 7 sq. m (against the 3sq m of MARK-I). This MARK-II radome has only 66 panels and is configured with randomized joints. Non-linear FEM analysis was carried out to establish factors of safety against buckling at wind speeds of 250 kmph (normal) and 300 kmph (gust). A totally new tooling system was exclusively developed for large panel fabrication and the panels were fabricated using the room temperature vacuum bag moulding technique (RTVBM). The Radome panels after inspection by BEL has been installed at BEL-Bangalore site, to carry out the Radar Antenna-Radome Assembly tests, as per the test procedure evolved by ISRAD (ISRO). The end users of the radome are ISRO / DRDO / IMD. Efforts are on to transfer of technology (TOT) to BEL (GAD) for productionisation of these MARK-II Radomes.

News and Events, NAL, Bangalore
 
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SpectraTime to Supply Atomic Clocks to IRNSS | Inside GNSS

SpectraTime has announced its receipt of a contract valued at approximately €4 million to supply rubidium space clocks for the Indian Regional Navigational Satellite System (IRNSS), a GNSS system that is under development by the Indian Space Research Organization (ISRO).

The IRNSS will consist of seven satellites, three in geostationary orbit and the other four in geosynchronous orbit. First launch of an IRNSS is currently expected in 2009. The system will transmit BOC(5,2) and BPSK signals at the L5 frequency (1176.45 MHz) and also in S-band.

Headquartered in Neuchatel, Switzerland, SpectraTime is part of the Orolia group of companies and has provided atomic clocks for Europe’s Galileo and China’s Compass GNSS systems.

Within 5 years, the company expects to have more spaceborne atomic clocks in orbit than any other company, according to Pascal Rochat, SpectraTime’s CEO.
 
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Bangalore to host India's maiden space exposition
Friday, 05 September , 2008, 13:18


Bangalore: The Confederation of Indian Industry (CII) in association with Indian Space Research Organisation and its marketing arm Antrix is organising India's maiden space exposition from November 29 to December 1.

To be held at the Bangalore International Exhibition Centre (BIEC), the Bengaluru Space Expo (BSX) 2008 will showcase the latest in technology and products from various space agencies, entrepreneurs and industries focusing on areas such as space science, space technology, infrastructure, space application and space exploration items, according to an ISRO announcement today.

A concurrent two-day international conference "world Space-Biz" would be organised to highlight the achievements of the industry and to discuss its future requirements and deliberate on commercialisation of space.

Presentations will be made by experts from the space industry from India and overseas.

Speakers from global space agencies and industry would discuss on agendas such as access to space, space commercialisation, space adventure and exploration, space vendors and suppliers and risk management.

Bangalore to host India's maiden space exposition - Sify.com
 
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http://news.webindia123.com/news/articles/Science/20080907/1047129.html

NSG waiver will give access to latest technology: ISRO chief

September 7th, 2008 - 6:33 pm ICT by IANS -

Chennai, Sep 7 (IANS) The lifting of the 34-year embargo against nuclear supplies to India would help the nation access latest global technological advancements, Indian Space Research Organisation (ISRO) chairman G. Madhavan Nair said Sunday.”Though we are fairly advanced in this field, thanks to the NSG nod we will have access to uninterrupted supply of global inputs and technological advancements as the development is a clear recognition of our nuclear capability,” Nair told reporters.

The preparations for the unmanned space mission Chandraayan was proceeding as planned and some of its vital parametrical needs would be completed by October, Nair added.

Nair was en route to a nearby university to accept a honorary doctorate.
 
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Chandrayaan-I passes thermal vacuum test

BANGALORE: The Chandrayaan-I satellite has successfully undergone the thermal vacuum test even as Indian space scientists achieved a major milestone inching closer to the country's first mission to the moon.

A formal announcement on the date of the eagerly awaited launch is expected to be made by Chairman of the Bangalore-headquartered Indian Space Research Organisation (ISRO) G Madhavan Nair next week.

The two-week vacuum test to evaluate the thermal design of the spacecraft and to verify its endurance in the harsh environment of space, has just been completed at ISRO Satellite Centre here, sources in the space agency said.

"The test was satisfactory," an ISRO official said. "Environment and acoustics tests will follow, and the pre-shipment review is expected by this month-end".

The ambitious moon mission is slated for second half of October. An ISRO official said on condition of anonymity that the first available date is October 22, and the launch window has been fixed between October 22 and 26.

ISRO officials said it's an "exceptional example" of international collaboration towards exploring the moon.

The nearly 1,400 kg Chandrayaan-I satellite would be launched by the 316-tonne Polar Satellite Launch Vehicle (PSLV-XL) from Satish Dhawan Space Centre at the spaceport of Sriharikota.

There are six scientific payloads from NASA, ESA and Bulgaria in addition to the five Indian instruments onboard Chandrayaan-I.

Chandrayaan-I passes thermal vacuum test-India-The Times of India
 
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The Hindu Business Line : GAGAN project gets Govt nod

GAGAN project gets Govt nod
Our Bureau

New Delhi, Sept 11

In a move, which will allow seamless navigation and better use of Indian air space, the Government on Thursday approved a joint proposal of Airports Authority of India (AAI) and the Indian Space Research Organisation (ISRO) to implement Global Position System aided Geo Augmented Navigational system or GAGAN programme.

Seamless navigation
The complete implementation of the programme will allow India to have satellite-based navigation system instead of the ground-based navigation system being adopted at present. “The operationalisation of the system will allow seamless navigation over Indian air space apart from a enabling aircraft to navigate a straight route instead of navigating a zig-zag path over land based stations at present. Besides, the system will provide coverage of oceanic areas which is not possible with a terrestrial system,” said a senior official of the Ministry of Civil Aviation.

Two phases
The programme will be realised in two phases – the GAGAN technology demonstration system, which was completed in August last year and the final operation phase to be implemented for operations use and to be certified by the Directorate General of Civil Aviation. This phase is expected to be completed by May 2011.

India will become only the fourth country globally to implement such a programme.

The cost of the project is estimated at Rs 774 crore of which Rs 148 crore was spent during the TDS phase while the remaining amount will be spent to implement the final operation phase, officials said.

AAI is expected to contribute Rs 596 crore, which will be mainly garnered from internal resources, while ISRO will contribute Rs 178 crore from its budget.
 
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The Hindu Business Line : GAGAN project gets Govt nod

GAGAN project gets Govt nod
Our Bureau

New Delhi, Sept 11

In a move, which will allow seamless navigation and better use of Indian air space, the Government on Thursday approved a joint proposal of Airports Authority of India (AAI) and the Indian Space Research Organisation (ISRO) to implement Global Position System aided Geo Augmented Navigational system or GAGAN programme.

Seamless navigation
The complete implementation of the programme will allow India to have satellite-based navigation system instead of the ground-based navigation system being adopted at present. “The operationalisation of the system will allow seamless navigation over Indian air space apart from a enabling aircraft to navigate a straight route instead of navigating a zig-zag path over land based stations at present. Besides, the system will provide coverage of oceanic areas which is not possible with a terrestrial system,” said a senior official of the Ministry of Civil Aviation.

Two phases
The programme will be realised in two phases – the GAGAN technology demonstration system, which was completed in August last year and the final operation phase to be implemented for operations use and to be certified by the Directorate General of Civil Aviation. This phase is expected to be completed by May 2011.

India will become only the fourth country globally to implement such a programme.

The cost of the project is estimated at Rs 774 crore of which Rs 148 crore was spent during the TDS phase while the remaining amount will be spent to implement the final operation phase, officials said.

AAI is expected to contribute Rs 596 crore, which will be mainly garnered from internal resources, while ISRO will contribute Rs 178 crore from its budget.
 
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