Type 052D destroyer

First in class, CNS Kunming (DDG-172)
Class overview
Builders:
Operators: PLA Navy Surface Force
Preceded by: Type 052C
Succeeded by: Type 055
Building: 5
Planned: 26 [1]
Completed: 9
Active: 6[2]
General characteristics
Type: Destroyer
Displacement: 7,500 tons (full load)[3]
Length: 157 m (515 ft)[3]
Beam: 17 m (56 ft)[3]
Draught: 6 m (20 ft)[3]
Propulsion:
  • CODOG
  • 2 × UGT25000 gas turbine engines, each generates 28MW[4]
  • 2 × MTU 20V 956TB92 diesel engines, each generates 6 MW
Speed: 31 knots (57 km/h; 36 mph)
Complement: 280
Sensors and
processing systems:
Armament:
  • 1 × H/PJ-45A 130mm dual purpose gun
  • 64 VLS
  • 2 × 30 mm remote controlled gun
  • 1 × H/PJ-12 CIWS or H/PJ-11 CIWS
  • 1 × HHQ-10 short range SAM in 24-cell launcher
  • 6 torpedo tubes
  • 4 × 18-tube decoy rocket launcher
Aircraft carried: 1 helicopter
Aviation facilities:
  • Stern hangar
  • Helicopter landing platform

The Type 052D destroyer (NATO code name Luyang III class, or Kunming class after the lead ship) is a class of guided missile destroyers being deployed by the Chinese People's Liberation Army Navy Surface Force. Currently it is being built at two different Chinese ship yards.

After the Type 052C destroyer (NATO code name Luyang II class, or Lanzhou class after the lead ship), two new hulls were spotted under construction at Changxingdao-Jiangnan Shipyard (JNCX) in August 2012. According to imagery, they were armed with a new 130 mm main gun and new AESA radar system. Altogether five vessels of this class are now fitting out or under construction, four vessels are on sea trial and five vessels are active.

Despite being only halfway through the 052D production run, the PLAN has begun serial construction of the class successor, the larger and more powerful Type 055 destroyer.[6]

Design

The layout of the Type 052D is similar to the earlier Type 052C, but the superstructure of the Type 052D slopes inward at a greater angle, providing reduced radar cross-section. The helicopter hangar on the Type 052D is moved to the center, as opposed to being on the left like on the Type 052C. A pair of enclosed boat/raft launching systems similar to that of the Type 054A frigate is added, with one on each side of the helicopter hangar. The H/LJQ-517B VHF radar mast is moved toward the stern of the ship. There are several mounting sites for a new single barrel 30 mm stealthy gun mount that is fully automated. The addition of this small caliber weapon is presumably for the need to counter non-conventional threats such as potential terrorist attacks and anti-piracy operations, but as of the end of 2012, no 30 mm gun mounts have been observed to be installed on the hull yet.

Sensor

Type 052D is fitted with the improved H/LJG-346A (NATO reporting name: ‘Dragon Eye’) multifunctional active phased array radar (APAR) system developed by Nanjing Research Institute of Electronic Technology (CETC 14 Institute). Each rectangle-shaped radar array consists of several thousands of S-band transceiver modules for long-range air search and a C-band module for HHQ-9 SAM targeting.

Compared with the H/LJG346 APAR on Type 052C, the new radar features four larger radar arrays, presumably housing more radar transceivers. The curving radar arrays resulted by the need for air circulation on the earlier APAR on Type 052C have been replaced by flat arrays, suggesting the adoption of a liquid cooling system instead of the mixed air and liquid cooling system on earlier APAR on board Type 052C.

The sensors suite also includes a H/SJD-9 hull-mounted sonar, a towed array sonar (TAS), a variable depth sonar (VDS), a Type IR-17 optronic system and jammers.

Vertical Launching System

The Type 052D has a brand new vertical launching system (VLS) for surface-to-air missiles, cruise missiles, anti-submarine missiles, and anti-ship missiles, and is capable of quad-packing missiles and cold launch; it is the third type of Chinese VLS system identified, after the circular version of VLS on Type 052C destroyer and the rectangular version on Type 054A frigate.[7] The VLS system on Type 052D differs from that on Type 052C. The circular-shaped VLS system on Type 052C is replaced by the VLS with rectangular cells on Type 052D.[8] Moreover, this box-like VLS looks different from the VLS system of Type 054A.[9] Photos show that Type 052D's VLS system does not contain the shared exhaust vents between the rows of launching tubes,[10] which is the common feature of Type 054A's VLS.[11] Instead, the VLS on Type 052D looks more similar to the American Mk 41 VLS, but without obvious indication of exhausts. The lack of exhaust vents in the leaked photos leads to some Chinese internet forums postulating the cold launch method is adopted on Type 052D, but such claims cannot be confirmed by independent or official sources.

Other sources on Chinese internet forums state that the difference between the VLS on Type 052D and VLS on Type 054A is simply a rearrangement of exhaust to a different location and Type 052D is still utilizing the hot launch method like Type 054A, but used a more advanced method of concentric canister launch (CCL) system (同心筒式垂直发射系统),[12] first pioneered by USA in the mid-1990 for Mk 41 VLS upgrade. This second claim appears more probable than the cold launch claims, because official Chinese sources have confirmed the existence of CCL VLS developmental program headed by the School of Mechatronics Engineering of Beijing Institute of Technology, and various research papers have been publicized, such as the effect of the flow mechanism and annular size of CCL and others.[13][14] It is reported that chief designers of Chinese CCL VLS included Professor Yuan Zenfeng (袁曾凤), Professor Miao Peiyun (苗佩云) and professor Liang Shijie (梁世杰). When using CCL method, the flame produced in hot launch is diverted through the space between the inner and outer canisters within each individual VLS cell, so no specially dedicated exhaust shared by several cells are needed, thus similar to how British vertical launched (VL) Sea Wolf missile operates,[15] and this is why CCL VLS can be mistaken for cold launch due to the lack of dedicated exhaust sandwiched between two rolls of cells in traditional VLS, while in reality, the exhaust of CCL VLS is within each individual cell.

What is also confirmed by semi-official sources in China is that the VLS on Type 052D is built to GJB 5860-2006 standard (GJB = Guo-jia Jun-yong Biao-zhun, 国家军用标准, "National Military Standard"),[16] so that different types of missiles can be launched by a single launching system.[17] According to some of the publicized examples of GJB 5860-2006 requirement, there are 3 types of VLS that differs in length: 9 meter, 7 meter and 3.3 meter respectively (section 5.1.3), but the diameter is same for all, 850 mm maximum (section 6.1.2), with each launching tube filled with either dry air or nitrogen inside (section 6.1.4), and with higher internal pressure. (section 6.1.4). Similar to U.S. Navy's MK 41, a launching module includes 8 launching tubes (section 5.2.4), and each tube can house 1~4 missiles (section 5.2.4). Each launching model has a launching control unit (section 5.3.7), which can simultaneously launch up to 4 missiles of different kind (section 5.3.6). The launching control unit must have built-in test/diagnostic function (section 5.3.8). These publicized portions of GJB 5860-2006 are surprisingly similar to that of Mk 41 VLS,[18] which prompt some Chinese internet sources to claim that there are potential future export of such system so that it has to comply to Mk 41 VLS, the most widely used VLS in the world.

Missiles

The Type 052D destroyer is mounted with a multi-purpose vertical launch system for firing CJ-10 land-attack cruise missiles, HHQ-9 series long-range surface-to-air missiles (SAMs), HQ-16 and DK-10A (possibly quad-packed) medium-range SAMs, YJ-18 and YJ-83 anti-ship missiles, as well as CY-5 series anti-submarine missiles. For close range engagement, the ship is equipped with HHQ-10 short-range SAM.

Guns

Another improvement of the Type 052D is that the Type H/PJ87 100mm gun on the Type 052C is replaced by a new single barrel 130 mm gun, designated as the Type H/PJ38 CIWS.[19]

Based on photos, Type 052D destroyers starting with the 9th hull will be fitted with the H/PJ-11 CIWS instead of the previous smaller H/PJ-12 currently fitted on existing hulls. Compared to the seven-barreled H/PJ-12, the H/PJ-11 is an eleven-barreled 30 mm CIWS (export designation Type 1130) that was so far exclusively fitted on the Liaoning aircraft carrier and the latest few Type 054A frigates. According to local media, it can fire up to 10,000 rpm and intercept incoming anti-ship missiles up to a speed of Mach 4 with a claimed 96% success rate,[20] though such high-speed interception claims are questionable.[21]

Anti-submarine systems

The destroyer integrates two Type 7424B triple torpedo tubes for launching Yu-7 torpedoes and four 18-tube launchers for firing decoy rockets.

Sources on the Chinese Internet have stated that Type 052D is equipped with a newest Chinese data link which has just completed national certification in Jun 2012 and publicized by the end of year.[22] Designated as JSIDLS (Joint Service Integrated Data Link System, 全军综合数据链系统), this is the Chinese equivalent of Link 16,[23] a significant improvement of earlier HN-900 which is the Chinese equivalent of Link 11/TADIL-A[24] installed on Type 052C. The general designer of JSIDLS is Major General Wang Jianxi (王建新), who was the also head of the research institute of the People's Liberation Army General Staff Department assigned as primary contractor of JSIDLS. More than 300 establishments and 8000 people were involved in the development of JSIDLS, and it won State Science and Technology Prizes after completion.[25]

Chinese Aegis

China's state-run media informally designate the Type 052D as Chinese Aegis (Chinese: ; pinyin: Zhōnghuá Shéndùn, 'Chinese God-Shield'). The new destroyer is equipped with a flat-array AESA radar, a 64-cell VLS and modern long-range anti-air missiles. The destroyer is expected to have capabilities similar to those of U.S. Arleigh Burke-class destroyers.[26]

There is speculation that the radar systems on Type 052D destroyers are able to detect stealth fighter aircraft, particularly the American F-35 Lightning II, especially if the Type 346A radar is an S-band radar like the American SPY-1 radar. Tactical stealth fighters are optimized to be undetectable from higher-frequency radar bands such the C, X, and Ku, but features like the tail-fin may make it susceptible to lower S or L-band frequencies. Depending on the distance between the ship and aircraft and the strength of the return of the omni-directional signal, a target may not be picked up at a tactically significant distance since L-band and most S-bands have resolution cells that cannot generate quality targets for weapons tracking. However, the SPY-1 and Air and Missile Defense Radar operate in higher frequency portions of the S-band and are able to generate weapons quality tracks, so Chinese systems could be similar. China is also speculated to be reducing the size of the large radar resolution cells by connecting multiple low-frequency radars through high-speed data-networks, which can refine resolution enough for tracking a missile to the target.[27]

Ships of class

# Pennant number Name Builder Launched Commissioned Fleet Status
1 DDG-172 昆明 / Kunming Jiangnan Shipyard (Group) Co. Ltd. 28 August 2012 21 March 2014 South Sea Fleet Active[28]
2 DDG-173 长沙 / Changsha Jiangnan Shipyard (Group) Co. Ltd. 28 December 2012 12 August 2015 South Sea Fleet Active[29]
3 DDG-174 合肥 / Hefei Jiangnan Shipyard (Group) Co. Ltd. 1 July 2013 12 December 2015 South Sea Fleet Active[30]
4 DDG-175 银川 / Yinchuan Jiangnan Shipyard (Group) Co. Ltd. 30 March 2014 12 July 2016 South Sea Fleet Active[31]
5 DDG-117 西宁 / Xining Jiangnan Shipyard (Group) Co. Ltd. 26 August 2014 22 January 2017 North Sea Fleet Active[32]
6 DDG-154 厦门 / Xiamen Jiangnan Shipyard (Group) Co. Ltd. 30 December 2014 8 June 2017 East Sea Fleet Active[33]
7 DDG-118 乌鲁木齐 / Ürümqi [34] Jiangnan Shipyard (Group) Co. Ltd. 7 July 2015 Est November 2017 North Sea Fleet Sea trial
8 DDG-119 贵阳 / Guiyang [35] Dalian Shipbuilding Industry Company 28 November 2015 Est March 2018 North Sea Fleet Sea trial
9 DDG-155 南京 / Nanjing [36] Jiangnan Shipyard (Group) Co. Ltd. 28 December 2015 Est April 2018 East Sea Fleet Sea trial
10 DDG-156 太原 / Taiyuan [37] Jiangnan Shipyard (Group) Co. Ltd. 28 July 2016 Est November 2018 East Sea Fleet Fitting out
11 DDG-120 成都 / Chengdu
[38]
Dalian Shipbuilding Industry Company 3 August 2016 Est December 2018 North Sea Fleet Fitting out
12 DDG-157 南宁 / Nanning [39] Jiangnan Shipyard (Group) Co. Ltd. 26 December 2016 [40] Est April 2019 East Sea Fleet Fitting out
13 齐齐哈尔 / Qiqihar [41] Dalian Shipbuilding Industry Company 26 June 2017 [42] Fitting Out

See also

Comparable ships

References

  1. http://navyrecognition.com/index.php/focus-analysis/naval-technology/5337-chinese-cruiser-or-destroyer-full-details-on-plan-s-first-type-055.html
  2. "最新一艘052D舰西宁号正式入役 现场曝光(secondary sources, by anonymous author, with other person's photographs)". 搜狐. 22 January 2017. Retrieved 15 March 2017.
  3. 1 2 3 4 Stephen Saunders (2015). Jane's Fighting Ships 2015-2016. IHS Janes Information Group. p. 138.
  4. "Chinese Marine Propulsion". globalsecurity.org. 5 March 2017.
  5. 1 2 "Type 052D Kunming Class Destroyer - Chinese Navy". Navy Recognition.
  6. Tate, Andrew (27 April 2017). "Construction of China's Type 055 destroyers forges ahead". Janes.com.
  7. "Type 054A VLS". 2012.
  8. Type 052D VLS Archived 2013-10-29 at the Wayback Machine.
  9. Type 052D & Type 054A VLS Archived 2012-09-18 at the Wayback Machine.
  10. VLS on Type 052D
  11. "Type 054A VLS". 2012.
  12. Chinese CCL VLS prototype
  13. Chinese CCL VLS research
  14. Chinese CCL VLS research papers
  15. Chinese CCL VLS
  16. "谜一样的战舰 从052D驱逐舰看中舰艇系统,A Ship of Mystery: The Shipborne Systems of Type 052D". September 2012.
  17. "GJB5860-2006: General Requirement for Generalized Vertical Launcher of Shipborne Missiles".
  18. Chinese VLS
  19. "H/PJ38 on 052D".
  20. Newly Built PLAN Type 052D Destroyers Getting Fitted with Larger H/PJ-11 CIWS - Navyrecognition.com, 25 July 2016
  21. No, China Can NOT Shoot Down 90% of Hypersonic Missiles - Nationalinterest.org, 16 January 2016
  22. PLA data link
  23. "我海军已装备全军综合数据链 应对更严酷作战环境, New joint service data link system adopted by the Chinese navy".
  24. "解放軍網戰建設, "Developments in PLA cyberwarfare capabilities"". 2012年6月. Check date values in: |date= (help)
  25. "总参某信息化研究所:一切为打赢未来信息化战争, Research institute of the General Staff Department develops new data link system". April 2012.
  26. China building Type 052D guided missile destroyers
  27. Can China’s New Destroyer Find U.S. Stealth Fighters? - News.USNI.org, 14 May 2014
  28. LaGrone, Sam (23 July 2015). "China Commissions Second Advanced Destroyer". usni.org.
  29. "Advanced destroyers boost combat capability of PLA". ecns.cn. 15 December 2015.
  30. "China commissions new guided-missile destroyer Yinchuan". chinamil.com. 12 July 2016.
  31. Tate, Andrew (23 January 2017). "China's North Sea Fleet receives first Type 052D destroyer". janes.com.
  32. Rahmat, Ridzwan (21 July 2017). "China commissions sixth Type 052D-class destroyer into East Sea fleet". janes.com.
  33. "118号052D舰名曝光:乌鲁木齐". 腾讯网(secondary sources, by anonymous author, with other person's photographs). Retrieved 2017-01-24.
  34. "舾装完毕 052D导弹驱逐舰119贵阳舰曝光". 多维新闻(by anonymous author, with other person's photographs). Retrieved 2017-01-14.
  35. "今年中国将有3艘052D驱逐舰服役,明年或将有4艘入役". 搜狐军事. Retrieved 2017-06-08.
  36. "今年中国将有3艘052D驱逐舰服役,明年或将有4艘入役". 搜狐军事. Retrieved 2017-06-08.
  37. "今年中国将有3艘052D驱逐舰服役,明年或将有4艘入役". 搜狐军事. Retrieved 2017-06-08.
  38. "今年中国将有3艘052D驱逐舰服役,明年或将有4艘入役". 搜狐军事. Retrieved 2017-06-08.
  39. "Jiangnan Shipyard in China Launched the Twelfth Type 052D Destroyer for the PLAN". Navy Recognition. Retrieved 2017-06-29.
  40. "已是第十三艘!中国齐齐哈尔号052D驱逐舰下水". 新浪军事. Retrieved 2017-06-28.
  41. "China launches 13th Type 052D destroyer". IHS Janes. Retrieved 2017-06-29.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.