Xian WS-15

WS-15
Type	Turbofan
National origin	People's Republic of China
Manufacturer	Xi'an Aero-Engine Corporation
First run	2006^[1]
Major applications	Chengdu J-20

The WS-15 (Chinese: 涡扇-15; pinyin: Wōshàn-15; literally: "turbofan-15"), codename Emei, is a Chinese afterburning turbofan engine designed by the Shenyang Aeroengine Research Institute and manufactured by Xi'an Aero-Engine Corporation. It is intended to power the Chengdu J-20 fighter,^[2] which would be able to achieve supercruise.

Design and development

Development of the WS-15 began in the 1990s.^[2] The thrust target was reported as 180 kilonewtons (40,000 lb_f) in 2012.^[3] In 2005, the engine performed successfully on the testbed. In 2009, it was known that the prototype was able to achieve 160 kilonewtons (36,000 lb_f) and a thrust-to-weight ratio of 9.^[4]

Compared to other turbofan engines powering fourth-generation jet fighters, including China's own indigenous WS-10, the WS-15 features various improvements, including increased turbine inlet temperature, more efficient and durable wide-chord fan blades, and advanced manufacturing processes to produce integrated engine components.

SF-A

The SF-A is a high-bypass turbofan in development by the same group as the WS-15, and is based on the WS-15 core. SF-A was reported as being targeted for the Xian Y-20 strategic airlifter and the Comac C919 passenger aircraft, with a thrust of 127 kilonewtons (29,000 lb_f), and was projected to enter production in 2016.^[5]

Applications

Chengdu J-20^[6]

Specifications

General characteristics

Type: Afterburning turbofan
Length: 5.05m
Diameter:
Dry weight:

Components

Compressor: 3-stage low-pressure, 6-stage high-pressure compressor
Combustors: annular

Performance

Maximum thrust: Goal: 197 kilonewtons (44,000 lb_f) with afterburner^[3]
Turbine inlet temperature: 1850K
Thrust-to-weight ratio: 9.7-10.87

References

↑ https://www.flightglobal.com/news/articles/analysis-can-china-break-the-military-aircraft-engine-412424/
1 2 Fisher, Richard (27 May 2015). "ANALYSIS: Can China break the military aircraft engine bottleneck?". Flightglobal. Retrieved 28 May 2015.
1 2 China Aerospace Propulsion Technology Summit (PDF), Galleon (Shanghai) Consulting, 2012, p. 2, archived from the original (PDF) on 8 December 2013, retrieved 28 May 2015
↑ Fisher, Richard, Jr. (30 December 2009). "October Surprises In Chinese Aerospace". International Assessment and Strategy Center. Archived from the original on August 13, 2015. Retrieved 28 May 2015.
↑ CHINA AEROSPACE PROPULSION TECHNOLOGY SUMMIT Archived November 17, 2015, at the Wayback Machine.
↑ http://www.defensenews.com/article/20121119/DEFFEAT05/311190005/Deterring-China-8217-s-Fighter-Buildup?odyssey=nav%7Chead[]

External links

WS-15

AVIC aircraft and aero engines

Fighter and attack aircraft	J-5 J-6 J-7 J-8 J-9 J-10 JF-17 Q-5 J-11 J-15 J-16 J-20 J-31

Bombers	H-6 JH-7

Trainers	CJ-6 CJ-7 K-8 L-15 JL-9

Transport aircraft	Y-7 Y-8 Y-9 Y-11 Y-12 Y-20

Commercial aircraft	AG600 ARJ21 C919 MA60 MA600 Y-12

Helicopters	AC313 HC-120 Z-5 Z-9 WZ-10 Z-11 Z-18 Z-19 Z-20

Ultralight aircraft	Lucky Bird

Engines	CJ-1000A SF-A WS-9 WS-10 WS-20 WS-11 WS-13 WS-15

Missiles	PL-2 PL-5 PL-8 PL-9 PL-10 PL-12

People's Republic of China military aircraft engine designation system

Piston Engines	HS-5 HS-6 HS-7 HS-8

Turbojets	PF-1 WP-5 WP-6 WP-7 WP-8 WP-11 WP-13 WP-14

Turboprops/Turboshafts	WJ-5 WJ-6 WZ-6 WZ-5 WZ-8 WZ-9 WZ-16

Turbofans	WS-6 WS-8 WS-9 WS-10 WS-11 WS-13 WS-15 WS-17 WS-18 WS-20 Minshan

Abbreviations: HS - HuoSai - Piston Engines WJ - WoJiang - Turboprop WP - WoPen - Turbojet WS - WoShan - Turbofan WZ - WoZhou - Turboshaft

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