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CHINESE HYPERSONIC ENGINE WINS AWARD, RESHAPES SPEED RACE?

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CHINESE HYPERSONIC ENGINE WINS AWARD, RESHAPES SPEED RACE?

CHINA STARTS FLYING AT MACH 5

By Jeffrey Lin and P.W. Singer Posted Yesterday at 11:01pm

chinese_hypersonic_uav.jpg

The Future? Grassroots (artist) Professor Wang's scramjet, together with combined cycle engines, could allow China to fly Mach 6 airplanes, like this fan art, which could fly anywhere in the world in under three hours, at speeds and altitudes imprevious to modern air defenses. It is highly likely that due to the nature of material sciences and laws physics, hypersonic aircraft like the American SR-72 and its Chinese counterparts would look similar to each other (like how most modern attack submarines share the same general shape).

"The Chinese nation is no longer satisfied with living like a farmer who eyes nothing but his own piece of land and a family to raise. We are looking up into space now."

chinese_waverider.jpg

Scramjet Concept Henri K This schematic from a Chinese academic journal shows a proposed Chinese scramjet. The scramjet developed and flown by Professor Wang's group would likely resemble this drawing.

This is what China's state owned Global Times newspaper declared Upon NASA's discovery of liquid Martian water last week. And thanks to Professor Wang Zhengou of the National Defense Science and Technology University, China has a critical piece of technology not just to get into space, but also into the global hypersonic arms race.

castc2015_award.jpg

Feng Ru CSAA Professor Wang Zhenguo was one of the nine recipients of the 2nd Feng Ru awards at CSAA's biennial conference in September 2015.

Scramjet engines mix together air and liquid fuel at supersonic speeds, to result in the rapid combustion that propels aircraft and missiles at hypersonic speeds over Mach 5. In September 2015, Professor Wang received an award from the Chinese Society for Aeronautics and Astronautics (CSAA) for the successful development of China's first scramjet engine over the past decade. In fact, Professor Wang took the top billing at the 2nd China Aeronautical Science and Technology Conference (CASTC2015) Feng Ru Aviaion Science & Technology Elite Awards (Feng Ru was an early 20th century Chinese aviation pioneer). CSAA took pains to mention that the kerosene-powered scramjet engine has successfully conducted flight tests, which makes China the second nation in the world, after the American X-43 and X-51 test vehicles, to develop a working scramjet engine for sustained atmospheric hypersonic flight.

jf-12_hypersonic_wind_tunnel.jpg

JF-12 Hypersonic Wind Tunnel Xinhua News Agency The JF-12 Hypersonic Wind Tunnel began operations in March 2014. It is the world's largest hypersonic wind tunnel, capable of achieving speeds of Mach 5 to Mach 9.

While China's seemingly sudden success in hypersonic flight may be surprising to outside observers, hypersonic technology is a key part of the national security 863 research initiative. In spite of longstanding Chinese difficulties in building turbofan engines, scramjet engines are a vastly different and emerging field that China has a opportunity to build a lead in. Along with the successful hypersonic glider vehicle WU-14 tests (which demonstrated Chinese capability in working high strength, thermal resistant aerospace materials), China has the world's largest hypersonic wind tunnel, the JF-12. The JF-12 can produce speeds of up to Mach 9 (NASA"s hypersonic wind tunnel reaches to only Mach 7). The JF-12 would provide Chinese scientists with a convenient way to observe supersonic airflow of different scramjet configurations, in addition to directly testing material durability in laboratory conditions, rather than having to make difficult and expensive high-altitude engine test flights.

hypersonic_testbed.jpg

The Missing Drone Bai Wei via lt.cjdby.net China was rumored to make the first flight of a Mach 4+ test drone in September 2015. Launched from a H-6 carrier aircraft, the drone fired up its combined cycle turbo-ramjet engine to accelerate from subsonic to high supersonic speeds. If the yanked CNA report is accurate, the UAV's ability to land makes it the fastest recoverable air breathing aircraft in the world.

Professor Wang's award comes after an interesting rumor making the rounds about Chinese supersonic flight. On September 18, 2015, China Aviation News, a respected source on Chinese aerospace developments, posted an article on the successful test flight of a Mach 4+ reusable UAV testbed that used a variable cycle turbo-ramjet engine (the engine uses a turbofan/turbojet at lower speeds, but redirects air to the ramjet at speeds above Mach 2.0). In comparison, the SR-71 only flew at speeds of about Mach 3.2. However, China Aviation News quickly yanked the article in a matter of hours, suggesting that they may have inadvertently (or deliberately as a signal) posted restricted information.

chinese_combined_cycle_engine.jpg

Combined Cycle Engine shinobiyan at cjdby.net The combined cycle engine shares the same inlet and exhaust nozzle for both the turbojet/turbofan and ramjet. In the upper diagram, the air intake ramps behind the ramjet spike direct airflow into the turbo core. In the bottom diagram, the air intake ramps gradually block off air flow to the turbo core, redirectly air into the ramjet combustion engine for high supersonic (Mach 3.0-Mach 4.0). Chinese combined cycle engines like this concept could be combined with the new scramjet to power hypersonic Chinese planes and missiles.

If it has flown, the Chinese variable cycle engine could be combined with Professor Wang's scramjet to form the holy grail of hypersonic flight, a combined turbine/scramjet engine. Such a combined engine would use subsonic speeds to takeoff, power the ramjet to high supersonic speeds, before transforming into scramjet mode for speeds above Mach 5. Lockheed Martin has proposed using a similar concept of combined engines for the Mach 6 SR-72, a near-space UAV, to the US Air Force.

shadow_dragon.jpg

Shadow Dragon Hypersonic Bomber Wendell Minnick The Shadow Dragon hypersonic bomber concept, from the PLAAF's Engineering College, won a second prize in the 4th National Future Aircraft Design Competition at the 2010 Zhuhai Airshow. The Shadow Dragon and other aircraft like it would be powered by scramjet technology that China is now racing to take a lead in.

That China has made so much progress in the new field of air breathing hypersonic flight graphically illustrates the ability of military newcomers to gain rapid advances in emerging technologies.

Thanks to Sinowarrior, John Fryer, Jeff Head and Andreas Rupprecht

CSAA 2015 Awards Professor Wang is the third entry before the bottom of the page, his entry has been shortened (possibly to conceal scramjet technical details).

Chinese Hypersonic Engine Wins Award, Reshapes Speed Race? | Popular Science
 
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China was rumored to make the first flight of a Mach 4+ test drone in September 2015. Launched from a H-6 carrier aircraft, the drone fired up its combined cycle turbo-ramjet engine to accelerate from subsonic to high supersonic speeds. If the yanked CNA report is accurate, the UAV's ability to land makes it the fastest recoverable air breathing aircraft in the world.

hi!
I am amazed by the chinese research efforts in this field,incidently i was having a talk on this topic with my college yesterday who works on indian scramjet engine. I must give chinese the due credit,i mean afterall,one can find a plethora of academic research literature coming from china in hypersonic scramjet engine. India too isnt far behind in hypersonic race. Our engine was tested for the first time in 2011 for 20 second duration.Here they're trying to modify the system so that it can last for at least 2 minutes.Sadly we have only one hypersonic wind tunnel and that too has a diameter of just 0.5m-IISC bangalore!
Indian Institute of Science (IISc) commissions Hypersonic Wind Tunnel
DRDL(hyd) is working on a bigger dia hypersonic tunnel similar to the chinese one (it would get operational status in next 2 years)- it too would be able to simulate downstream flows of above 7machs!
Hypersonic wind tunnels provide a lot of very useful insight into the stability of aerial vehicles under very high mach conditions-i tend to assume that with the possession of hypersonic facility chinese would be able to conduct wind tunnel analysis of their system much more comfortably vis-a-vis india for we have to run to russia and israel for hypersonic wind tunnel facilities!
Btw,on a serious note,how long were chinese able to fire their scramjet engine?
kudos to china!
 
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CASIC‘s TBCC simulation tests

三院31所成功完成首次试车台级高精度半实物仿真试验

【发布时间:2015年08月11日】 【来源:中国航天科工三院】

  近日,三院31所首次开展了试车台级高精度半实物仿真试验,该试验的成功标志着我所半实物仿真技术取得了里程碑式进步。

  某型发动机控制规律极其复杂,发动机成本较高,为了提高试验成功率,减少发动机试验次数,缩短研发周期,研究人员克服重重困难在CS01台临时搭建了高逼真度半实物仿真试验台。该试验台以某组合发动机实时模型为核心,其余部分均与正式试验状态一致,这包括了气路、油路部分。通过此半实物仿真台,对此发动机控制规律进行了充分验证与优化,发现多处在前一阶段仿真无法验证的问题。这不仅减少了正式试验次数、减小试验成本,更极大降低了预先研究阶段发动机损坏的风险,为后续发动机正反向模态转换试验一次成功奠定了坚实的基础。

  后续将进一步完善并推广试车台级高精度半实物仿真技术,以缓解紧张的试验条件。 (文/聂聆聪)


经营动态
 
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CASIC‘s TBCC simulation tests

三院31所成功完成首次试车台级高精度半实物仿真试验

【发布时间:2015年08月11日】 【来源:中国航天科工三院】

  近日,三院31所首次开展了试车台级高精度半实物仿真试验,该试验的成功标志着我所半实物仿真技术取得了里程碑式进步。

  某型发动机控制规律极其复杂,发动机成本较高,为了提高试验成功率,减少发动机试验次数,缩短研发周期,研究人员克服重重困难在CS01台临时搭建了高逼真度半实物仿真试验台。该试验台以某组合发动机实时模型为核心,其余部分均与正式试验状态一致,这包括了气路、油路部分。通过此半实物仿真台,对此发动机控制规律进行了充分验证与优化,发现多处在前一阶段仿真无法验证的问题。这不仅减少了正式试验次数、减小试验成本,更极大降低了预先研究阶段发动机损坏的风险,为后续发动机正反向模态转换试验一次成功奠定了坚实的基础。

  后续将进一步完善并推广试车台级高精度半实物仿真技术,以缓解紧张的试验条件。 (文/聂聆聪)


经营动态
I unfortunately can't read Chinese..I wish to learn it some day..:)
 
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The fact that Chinese can do science in their own language, is awesome, ain't it?
Well not so awesome,because, that makes them isolated, interestingly a lot of Chinese research papers get published in English first these days. No matter how much we grudge but English is the language of research and will continue to remain so as long as western world dominates research or in particular their research journals are the best- for instance AIAA etc
 
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Well not so awesome,because, that makes them isolated, interestingly a lot of Chinese research papers get published in English first these days. No matter how much we grudge but English is the language of research and will continue to remain so as long as western world dominates research or in particular their research journals are the best- for instance AIAA etc

Only a small body of Chinese research papers gets published in English。

I reckon the percentage may be between 3 and 5,definitely way under 10.

I could be wrong though。:D
 
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Only a small body of Chinese research papers gets published in English。

I reckon the percentage may be between 3 and 5,definitely way under 10.

I could be wrong though。:D

You are a bad guy, cirr. :D

Please take care of your information and I like your style. :D:D
 
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You are a bad guy, cirr. :D

Please take care of your information and I like your style. :D:D

The establishment of China Engine Industry Group Corporation is imminent。

The new entity,the 12th defence conglomerate under the direct supervision of the SASAC,might get an initial cash injection of 100 billion yuan。:D
 
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Only a small body of Chinese research papers gets published in English。

I reckon the percentage may be between 3 and 5,definitely way under 10.

I could be wrong though

Hi my dear chinese friend!
Well my point was very simple-one that i am afraid you failed to grasp at once- ENGLISH is the ligua fraca of science-nearly 80-85% of all scientific publication are in english- you are free to check SCIMAGO and others to satisfy yourself.So when that is the case then it will be only prudent for chinese research community to publish their work in english so that rest of the world can appreciate the research and further cite their work in their own research.It will help to improve the citation factor of the chinese research paper.
Oh and btw,one can get a lot of chinese and indian research papers in IEEE!
 
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