Chanjok Jachido-class cruiser: Difference between revisions

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{{Infobox ship class overview
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The '''Chanjok Jachido-class''' are a group of three large warships built for the [[Menghean Navy]] in the 1990s. While {{wp|English language|anglian}} sources usually refer to them as {{wp|cruiser}}s or {{wp|helicopter cruiser}}s due to their large size and command facilities, in Menghe they are officially classified as Large Anti-Submarine Patrol Ships (대형 대잠수함 초계함 / 大型對潛水艦哨戒艦, ''Daehyŏng Daejamsuham Chogyeham''). As the name suggests, they are designed to lead surface action groups on {{wp|Anti-submarine_warfare|anti-submarine patrols}}, and for this purpose they come equipped with advanced sonar equipment and a hangar supporting four [[Gyundoan-Han_GH-28_Ppulsoeori|GH-28]] helicopters. All three ships received major refits in the 2010s, and all remain in active service as of 2020.
The '''Chanjok Jachido-class''' are a group of three large warships built for the [[Menghean Navy]] in the 1990s. While {{wp|English language|anglian}}-language sources usually refer to them as {{wp|cruiser}}s or {{wp|helicopter cruiser}}s due to their large size and command facilities, in Menghe they are officially classified as Large Anti-Submarine Patrol Ships (대형 대잠수함 초계함 / 大型對潛水艦哨戒艦, ''Daehyŏng Daejamsuham Chogyeham''). As the name suggests, they are designed to lead surface action groups on {{wp|Anti-submarine_warfare|anti-submarine patrols}}, and for this purpose they come equipped with advanced sonar equipment and a hangar supporting four [[Gyundoan-Han_GH-28_Ppulsoeori|GH-28]] helicopters. All three ships received major refits in the 2010s, and all remain in active service as of 2022.


==Development==
==Development==
[[Image:DChD_Chanjok_Jachido.png|300px|thumb|left|3-view diagram of the Plan 435 cruiser design. The final version, Plan 436, differed in some respects.]]
The [[Democratic People's Republic of Menghe]] solicited several designs for an oceangoing anti-submarine flagship during the 1980s, including one with standoff rockets carrying nuclear depth charges. Large helicopter facilities were common to most of these designs, as the [[Ginam-class frigate]]s only carried a single helicopter each. Due to the economic instability under [[Ryŏ Ho-jun]] and the Emergency Shipbuilding Program's focus on anti-surface combatants, these designs never came to fruition. Following [[Choe Sŭng-min]]'s [[Decembrist Revolution]], however, the opportunity to build a new anti-submarine warship returned, especially after the completion of the [[Menghean aircraft carrier Haebang|aircraft carrier Haebang]] freed up more funds for construction.
The [[Democratic People's Republic of Menghe]] solicited several designs for an oceangoing anti-submarine flagship during the 1980s, including one with standoff rockets carrying nuclear depth charges. Large helicopter facilities were common to most of these designs, as the [[Ginam-class frigate]]s only carried a single helicopter each. Due to the economic instability under [[Ryŏ Ho-jun]] and the Emergency Shipbuilding Program's focus on anti-surface combatants, these designs never came to fruition. Following [[Choe Sŭng-min]]'s [[Decembrist Revolution]], however, the opportunity to build a new anti-submarine warship returned, especially after the completion of the [[Menghean aircraft carrier Haebang|aircraft carrier Haebang]] freed up more funds for construction.


As with the contemporary [[Ansa-class frigate]]s, Menghe tried to take advantage of the improved diplomatic situation by seeking foreign sellers for the ship's electronics and powerplant. [[Tír Glas]] blocked the sale of {{wp|General_Electric_LM2500|LM2500}} gas turbines due to objections from [[Dayashina]], leaving Menghe with no option but to modify the design for a domestic {{wp|steam turbine}} powerplant - making her the last Menghean warship class to use a powerplant of this type. [[Hallia]], however, agreed to provide an advanced sonar suite consisting of the AN/SQS-53B hull-mounted sonar and AN/SQR-19 towed array sonar, as part of an effort to limit EC influence in the South Menghe Sea.
As with the contemporary [[Ansa-class frigate]]s, Menghe tried to take advantage of the improved diplomatic situation by seeking foreign sellers for the ship's electronics and powerplant. [[Tír Glas]] blocked the sale of {{wp|General_Electric_LM2500|LM2500}} gas turbines due to objections from [[Dayashina]], leaving Menghe with no option but to modify the design for a domestic {{wp|steam turbine}} powerplant - making her the last Menghean warship class to use a powerplant of this type. [[Hallia]], however, agreed to provide an advanced sonar suite consisting of the AN/SQS-53B hull-mounted sonar and AN/SQR-19 towed array sonar, as part of an effort to limit EC influence in the South Menghe Sea.


The resulting design was given the project designation Plan 435. This was the final iteration of the design, with a revised deck layout and superfiring surface-to-air missile mounts. The first ship in the class was laid down on February 7th, 1991, at Drydock 1 of the [[Songsu-do_Naval_Base#Gy.C5.8Fngsan_Songsu-do_shipyard|Gyŏngsan Songsu-do shipyard]].
The resulting design was given the project designation '''Plan 435'''. This was the first major iteration of the design, with a revised deck layout and superfiring surface-to-air missile mounts. Further revisions were made during the fine-tuning of the design. In particular, the hull was extended somewhat at the waterline and the bridge and main radar mast were moved aft, with the YDH-24 missile boxes relocated forward of the bridge. Prior to these changes, the bridge had been too far forward, and calculations showed that excessive pitching would create problems for the officers on the bridge. The final version of the design was called '''Plan 436'''.
 
The first ship in the class was laid down on 7 February 1991, at Drydock 1 of the [[Songsu-do_Naval_Base#Gy.C5.8Fngsan_Songsu-do_shipyard|Gyŏngsan Songsu-do shipyard]].


==Characteristics (as built)==
==Characteristics (as built)==
Line 78: Line 81:


===Propulsion===
===Propulsion===
[[File:DChD_Chanjok_Jachido_interior.png|600px|thumb|right|Cross section of ''Chanjok Jachido'' as built, showing the steam turbine power plant and extensive command spaces.]]
[[File:DChD_Chanjok_Jachido_interior.png|600px|thumb|right|Cross section of the original Plan 435 design, showing the steam turbine power plant and extensive command spaces. The internal configuration remained more or less identical on the final Plan 435G iteration, except that parts of the superstructure were moved aft.]]
The ''Chanjok Jachidos'' were the last Menghean warships to be built with {{wp|steam turbine}} propulsion rather than a more modern engine system. Each shaft is powered by a single 50,000-{{wp|shaft horsepower|shp}} turbine, with steam provided by four advanced high-pressure boilers. The original design made poor use of acousting damping, and vibration from the engines was easily detected on passive sonar, undercutting the ships' anti-submarine role.
The ''Chanjok Jachidos'' were the last Menghean warships to be built with {{wp|steam turbine}} propulsion rather than a more modern engine system. Each shaft is powered by a single 50,000-{{wp|shaft horsepower|shp}} turbine, with steam provided by four advanced high-pressure boilers. The original design made poor use of acousting damping, and vibration from the engines was easily detected on passive sonar, undercutting the ships' anti-submarine role.


Line 92: Line 95:


==After refits==
==After refits==
{{WIP}}
[[Image:DChD-04_Ragjok_Jachido_2010_2022-06-29.png|600px|thumb|right|Side view of DChD-04 ''Ragjok Jachido'' before her mid-life refits, but after incremental modifications made during the 2000s.]]
During the early 2010s, all three ships underwent major rebuilding as part of their mid-life refits. The goal of the refits was to extend the ships' service lives by fitting them with state-of-the-art machinery and weaponry. Compared with other mid-life refits in the Menghean Navy, the changes were relatively comprehensive, and in some respects amounted to a full rebuild.
[[Image:DChD-03_Chanjok_Jachido_2013_2022-06-29.png|600px|thumb|right|Side view of DChD-03 ''Chanjok Jachido'' after her extensive mid-life refits.]]
During the early 2010s, all three ships underwent major reconstruction as part of their mid-life refits. These refits were intended to fulfill two major purposes. First, they were to keep the Chanjok Jachidos technologically relevant for at least 15 years. Although a new class of large anti-submarine patrol ship, the [[Hasŏ-class cruiser]], was under development, these were meant to serve alongside the Chanjok Jachidos in new formations; the Chanjok Jachidos' eventual replacement would be the Hasos' successor class, which was projected to enter service in 2030 or later. In the interim, it was important to reduce noise from the Chanjok Jachidos' powerplant and improve their defensive weaponry, two areas in which the ships were becoming obsolete.
 
Second, the Menghean Navy saw the Chanjok Jachidos' mid-life refits as an opportunity to test out a new high-powered {{wp|integrated electric propulsion|IEP}} powerplant which would be used by the [[Hasŏ-class cruiser]]s and [[Insŏng-class destroyers]]. The [[Chunchŏn-class frigate]]s already under construction had a mixed {{wp|Combined_diesel–electric_and_gas|CODLOG}} propulsion system, but this used smaller electric motors with a 4,000 kW output; the motors used by the Hasŏs and Insŏngs would have to reach a peak output of more than ten times that amount in order to satisfy speed requirements. Test installations were already being set up on land, but installing prototype motors in an existing warship hull would give engineers a chance to identify problems and evaluate performance in a more realistic environment.


===Propulsion===
===Propulsion===
The most thorough changes concerned the ships' powerplant, which was already noisy and inefficient by the standards of the 1990s - a poor combination for an anti-submarine patrol ship. To correct this problem, the entire steam powerplant was torn out, a process which required cutting away large sections of the hangar and superstructure. This was the most expensive and time-consuming part of the refit process.
After considering a variety of different motor and generator layouts, Menghean naval engineers settled on a {{wp|Combined_diesel–electric_and_gas|CODLAGL}} IEP configuration. Two 2x LM2500+G4 gas turbine generators rated at 29,000 kWe each sit side-by-side in the superstructure between the revised radar mast and the hangar, underneath a new angular funnel. They are supported by two Taesan T16J diesel generators rated at 8,200 kWe each, each one installed in place of a boiler in the machinery spaces. More modern backup diesel generators were installed as well. The steam turbines were replaced by two electric motors rated at 55,000 kW each. With all propulsion-linked generators running, the new propulsion suite can only generate 74,400 kWe for a 110,000 kW powerplant, resulting in a lower top speed than what the pre-refit powerplant permitted. Nevertheless, because it is possible to allocate power between systems at will, testing staff were able to test the electric motors individually at full power by concentrating electricity flows to one motor and then the other.


In place of the old powerplant, the shipyard installed a new {{wp|Integrated_electric_propulsion|IEP}} system using a combined-gas-electric-and-gas (COGLAG) arrangement. To preserve the arrangement of the propeller shafts, brushless electric motors were installed in place of the steam turbines, and four LM2500 gas turbines connected to electric generators were installed in place of the boilers. This resulted in two engine rooms, each containing one shaft and two turbine-generator sets. The backup diesel generators were also replaced with newer, more efficient models, which could supply the propulsion systems as well.
In addition to allowing the testing of new machinery, the revised powerplant dramatically reduced the ships' acoustic output, a major consideration for an anti-submarine flagship. The large brushless electric motors ran much more quietly than the steam turbines that preceded them, and acoustic rafting around them reduced the transmission of vibrations to the hull. The use of an all-electric transmission allowed the generators to be heavily acoustically isolated as well. The gas turbine generators, mounted in the superstructure more than three decks above the waterline, transmitted especially little noise to the ocean, supporting naval engineers' plans to use superstructure-mounted gas turbine generators in the Hasŏs and Insŏngs. To further reduce the ships' acoustic signature, the undersea cooling water intakes for the boilers and turbines were welded over, and an acoustic masking system was installed around the hull, fed by bleed air from the turbines.


All components in the new powerplant were mounted on top of acoustic damping supports. In addition to the use of precisely engineered electric motors for the final transmission stage, this greatly reduced the ships' acoustic signature, especially while operating on reduced power. These damping supports also included rails, allowing individual pieces of machinery to be moved to the central compartment and lifted up through the funnel for easier maintenance. While the refits were initially intended to keep the ships effective in combat for the next 20 years, a Navy evaluation of improved maintenance options concluded that this could be extended to as long as 30 years through regular replacement of powerplant elements and electronics.
The new powerplant arrangement delivered secondary benefits as well. By placing the gas turbine generators well above the waterline, it isolated them from possible flooding, making the ships more survivable against torpedo and mine damage. The new diesels and gas turbines were much more fuel-efficient than the boilers that had preceded them, increasing the ships' operational range and reducing their operating costs. As on other ships with LM2500-family turbines, it was possible to lift the turbines out of their intake shafts for easy maintenance and replacement, whereas the former boilers were buried deep inside the hull underneath large sections of superstructure.


===Armament===
===Armament===
Another priority refit area was the ships' armament. Each forward single-arm SAM launcher was replaced by a 16-cell Mk41 strike-length VLS module, which fit in the same volume footprint, requiring minimal structural changes. This change had several beneficial effects. First, by removing the need to reload the missile arms and allowing the use of {{wp|active radar homing}} missiles, it increased the rate of fire, making the ships less vulnerable to saturation missile attacks. Second, it allowed the use of longer-ranged surface-to-air missiles, namely the [[YDG-60]]. [[YDG-62]] missiles can fit in the cells as well, but with its shorter-ranged air search radar, the refitted Chanjok Jachidos are not able to exploit their full range and do not carry them. Third, the use of Mk41 modules allowed the carriage of [[HŎ-3 Ryongorŭm]] standoff anti-submarine rockets. Compared with the HŎ-2 used by the pre-refit Chanjok Jachidos, the HŎ-3 does not fire its rocket motor underwater, and thus gives a targeted submarine less warning that it is under attack.
A "typical" Chanjok Jachido missile loadout would be comprised of eight HŎ-3 anti-submarine rockets, sixteen YDG-60 SAMs, and 32 [[YDG-64]] or [[YDG-66]] SAMs in quadpacked cells.
Other defensive weapon systems were upgraded as well. The port and starboard [[HP-76/1]] guns were replaced with newer models in stealthier turret shells, and the port and starboard [[GBM-30/6]] CIWS turrets were replaced by [[GBM-23/5 Bulkkot]] CIWS turrets, which can be targeted independently of one another. The [[YDH-24]] launch boxes were removed, and in their place, two quad-box [[YDH-26]] launchers were installed forward of the superstructure. The HBDJ-6/7 anti-frogman rocket launchers were retained. The two quadruple non-reloadable 533mm torpedo launchers were replaced by two twin 350mm launchers for the [[YŎ-35/2 torpedo]], along with a magazine of torpedo reloads. [[Baram (countermeasure)|Baram-2]] chaff and flare projectors were added at the base of the main radar mast to replace the removed Baram-1 countermeasures.


===Sensors and electronics===
===Sensors and electronics===


==Plan 351 Yerihan derivative==
==Plan 351 Yerihan derivative==

Latest revision as of 19:00, 18 January 2023

Chanjok Jachido class
DChD-03 Chanjok Jachido 1994 2022-06-29.png
DChD-03 Chanjok Jachido as commissioned in 1994.
Class overview
Name: Chanjok Jachido class
Builders: Gyŏngsan Songsu-do Naval Yard
Operators: Menghe
Preceded by: Ginam-class frigate
Succeeded by: Hasŏ-class cruiser
Built: 1991-1997
In service: 1994-present
Planned: 3
Completed: 3
General characteristics (as built)
Type: Helicopter cruiser
Displacement:
  • 7,200 tonnes standard
  • 8,600 tonnes full load
Length:
  • 153.9 m (waterline)
  • 164.5 m (overall)
Beam: 18.4 m (waterline)
Draft: 6.09 m (to keel)
Propulsion:
  • 2-shaft steam turbine
    • 4 boilers
    • 2 steam turbines (50,000 shp each)
Speed: 30 knots
Range: 6,000 nautical miles (11,000 km) at 14 knots
Complement:
  • 47 officers
  • 391 enlisted
Armament:
  • 2 × 3S90 single-arm launcher (32 reloads)
  • 2 × 4 YDH-24 anti-ship missile
  • 1 × HP-76/1 single 76mm turret
  • 2 × GBM-30/6 CIWS
  • 2 × RBU-6000 depth charge projector
  • 2 × 4 533mm torpedo tube (can fire HŎ-2 Poksŏl)
  • 4 × HBDJ-6/7 anti-frogman weapon

The Chanjok Jachido-class are a group of three large warships built for the Menghean Navy in the 1990s. While anglian-language sources usually refer to them as cruisers or helicopter cruisers due to their large size and command facilities, in Menghe they are officially classified as Large Anti-Submarine Patrol Ships (대형 대잠수함 초계함 / 大型對潛水艦哨戒艦, Daehyŏng Daejamsuham Chogyeham). As the name suggests, they are designed to lead surface action groups on anti-submarine patrols, and for this purpose they come equipped with advanced sonar equipment and a hangar supporting four GH-28 helicopters. All three ships received major refits in the 2010s, and all remain in active service as of 2022.

Development

3-view diagram of the Plan 435 cruiser design. The final version, Plan 436, differed in some respects.

The Democratic People's Republic of Menghe solicited several designs for an oceangoing anti-submarine flagship during the 1980s, including one with standoff rockets carrying nuclear depth charges. Large helicopter facilities were common to most of these designs, as the Ginam-class frigates only carried a single helicopter each. Due to the economic instability under Ryŏ Ho-jun and the Emergency Shipbuilding Program's focus on anti-surface combatants, these designs never came to fruition. Following Choe Sŭng-min's Decembrist Revolution, however, the opportunity to build a new anti-submarine warship returned, especially after the completion of the aircraft carrier Haebang freed up more funds for construction.

As with the contemporary Ansa-class frigates, Menghe tried to take advantage of the improved diplomatic situation by seeking foreign sellers for the ship's electronics and powerplant. Tír Glas blocked the sale of LM2500 gas turbines due to objections from Dayashina, leaving Menghe with no option but to modify the design for a domestic steam turbine powerplant - making her the last Menghean warship class to use a powerplant of this type. Hallia, however, agreed to provide an advanced sonar suite consisting of the AN/SQS-53B hull-mounted sonar and AN/SQR-19 towed array sonar, as part of an effort to limit EC influence in the South Menghe Sea.

The resulting design was given the project designation Plan 435. This was the first major iteration of the design, with a revised deck layout and superfiring surface-to-air missile mounts. Further revisions were made during the fine-tuning of the design. In particular, the hull was extended somewhat at the waterline and the bridge and main radar mast were moved aft, with the YDH-24 missile boxes relocated forward of the bridge. Prior to these changes, the bridge had been too far forward, and calculations showed that excessive pitching would create problems for the officers on the bridge. The final version of the design was called Plan 436.

The first ship in the class was laid down on 7 February 1991, at Drydock 1 of the Gyŏngsan Songsu-do shipyard.

Characteristics (as built)

Sensors and electronics

The centerpiece of the Chanjok Jachido's anti-submarine capability is its imported Hallian sonar suite. This consists of the AN/SQS-53B hull-mounted sonar and the AN/SQR-19 towed array sonar, two state-of-the-art Hallian systems. While some Mugunghwa-class corvettes were modified with experimental towed sonar systems, Chanjok Jachido was the first ship to carry an operational towed array sonar. Trials and exercises demonstrated that the AN/SQR-19 was, in one naval officer's words, "orders of magnitude superior" to the Letnian-designed MG-325 "Vega" on the Ansa-class frigates, prompting a modification of later Ansa hulls.

For air-search equipment, the Chanjok Jachido carries an MR-710M Fregat-M (Top Steer) D-band radar on a mast aft of the bridge. This is paired with two guidance radars for the 3S90 SAM system, both atop the bridge. Although this is half as many guidance radars as the smaller Ansa class, their positioning gives them wider 300-degree targeting arcs.

The ships' electronic warfare suite, consistent with other Menghean surface combatants of this period, consists of two passive ESM surveillance and classification antennas and four active ESM jamming antennas, all on the main radar mast.

Armament

Anti-submarine armament consists of two quadruple 533mm torpedo tubes, one on each side of the hull. They are located inside the superstructure, behind retractable panels which cover them when they are not in use. In addition to wire-guided torpedoes with active sonar, these mounts can fire the HŎ-2 Poksŏl anti-submarine weapon, which launches out of the water on a ballistic trajectory and carries a smaller homing torpedo to the target. Uniquely for a Menghean postwar warship, the mounts are reloadable: a total of 8 torpedo reloads are carried, usually a mix of wire-guided homing torpedoes and HŎ-2s.

Additionally, ships in the class carry two HBDJ-21/12 anti-submarine rocket launchers on the foredeck. Due to their short range, these are mainly used to deploy sonar decoys and, on later models, anti-torpedo hardkill countermeasures.

Air-defense armament consists of two 3S90 Uragan single-arm SAM launchers, in a superfiring arrangement forward of the bridge. While a twin-arm launcher would have been superior, the 3S90 mounts were purchased as off-the-shelf systems from Letnia, and installed in their present form. For short-range anti-missile defense, the ships carry two GBM-30/6 close-in weapon systems. Both are aimed by a single MR-123 radar director, meaning that the ship can only engage one missile threat at a time. They are also G-variant mounts, which rely on a manually pointed fire director for backup aiming. Furthermore, the surface-to-air missile systems are unable to engage threats to a 60-degree arc over the rear, and the AK-630 mounts are unable to engage threats over a 60-degree arc forward (they have overlapping coverage aft). These tradeoffs were considered acceptable for a warship which is mainly intended to conduct anti-submarine patrols in areas with a low enemy aircraft threat.

The Chanjok Jachidos have their AK-176 dual-purpose guns in an unusual amidships arrangement, giving each mount a roughly 160-degree firing arc. These mounts are capable of engaging aircraft and missiles, and have a maximum range of 15.5 kilometers against surface targets, with an effective range of 10 kilometers. These are also directed by MR-123 radar units, located above the bridge facing aft.

As designed, these ships did not carry anti-ship missiles, as their anti-submarine patrol role did not require it. During the fitting-out process, however, they were modified with four quadruple launch boxes for YDH-24 subsonic anti-ship missiles. Mounting atop the hangar structure was initially considered, but the missile boxes were moved to a position forward of the funnel due to concerns about the hangar structure's bracing being inadequate.

Propulsion

Cross section of the original Plan 435 design, showing the steam turbine power plant and extensive command spaces. The internal configuration remained more or less identical on the final Plan 435G iteration, except that parts of the superstructure were moved aft.

The Chanjok Jachidos were the last Menghean warships to be built with steam turbine propulsion rather than a more modern engine system. Each shaft is powered by a single 50,000-shp turbine, with steam provided by four advanced high-pressure boilers. The original design made poor use of acousting damping, and vibration from the engines was easily detected on passive sonar, undercutting the ships' anti-submarine role.

Command facilities

Owing to their role as flagships for anti-submarine fleets, Chanjok Jachido class cruisers have generous command facilities on board. Unlike the small command room on the Yobu-class destroyers, which serve as destroyer leaders for a brigade of 2-4 other ships, the command facilities on the Chanjok Jachidos are intended to support command and coordination of up to a dozen warships of different types under the command of a three-star vice admiral. The command room is located inside the hull of the ship, one deck above the combat information center, and includes facilities for communication and air traffic control.

Because of their onboard flag facilities, in addition to their large size, these ships are classified as cruisers by the Glasic, Dayashinese, and Hallian navies.

Aviation facilities

The ships' main anti-submarine capability comes from their aviation facilities. The large aft hangar structure can support four GH-28 helicopters, compared with one at most on all contemporary Menghean warships. The hangar itself is also more spacious, especially compared to the hangars on the Hyŏngnam-class destroyers and Ginam-class frigates, which include sloping floors and narrow walls to reduce the hangar's external footprint. As a result, servicing and reloading of helicopters is easier to carry out.

Aft of the hangar is a large helipad. The ships were originally intended to have two helicopter landing positions, but design evaluations concluded that a single landing position with two open-air servicing positions forward would result in faster turnaround times, preferable in anti-submarine operations. The single aft landing position is fitted with a hauldown winch to allow recovery of helicopters in heavy seas. A towing system can move anchored helicopters to either on-deck servicing area, but from there they must be rolled into the hangar manually.

After refits

Side view of DChD-04 Ragjok Jachido before her mid-life refits, but after incremental modifications made during the 2000s.
Side view of DChD-03 Chanjok Jachido after her extensive mid-life refits.

During the early 2010s, all three ships underwent major reconstruction as part of their mid-life refits. These refits were intended to fulfill two major purposes. First, they were to keep the Chanjok Jachidos technologically relevant for at least 15 years. Although a new class of large anti-submarine patrol ship, the Hasŏ-class cruiser, was under development, these were meant to serve alongside the Chanjok Jachidos in new formations; the Chanjok Jachidos' eventual replacement would be the Hasos' successor class, which was projected to enter service in 2030 or later. In the interim, it was important to reduce noise from the Chanjok Jachidos' powerplant and improve their defensive weaponry, two areas in which the ships were becoming obsolete.

Second, the Menghean Navy saw the Chanjok Jachidos' mid-life refits as an opportunity to test out a new high-powered IEP powerplant which would be used by the Hasŏ-class cruisers and Insŏng-class destroyers. The Chunchŏn-class frigates already under construction had a mixed CODLOG propulsion system, but this used smaller electric motors with a 4,000 kW output; the motors used by the Hasŏs and Insŏngs would have to reach a peak output of more than ten times that amount in order to satisfy speed requirements. Test installations were already being set up on land, but installing prototype motors in an existing warship hull would give engineers a chance to identify problems and evaluate performance in a more realistic environment.

Propulsion

After considering a variety of different motor and generator layouts, Menghean naval engineers settled on a CODLAGL IEP configuration. Two 2x LM2500+G4 gas turbine generators rated at 29,000 kWe each sit side-by-side in the superstructure between the revised radar mast and the hangar, underneath a new angular funnel. They are supported by two Taesan T16J diesel generators rated at 8,200 kWe each, each one installed in place of a boiler in the machinery spaces. More modern backup diesel generators were installed as well. The steam turbines were replaced by two electric motors rated at 55,000 kW each. With all propulsion-linked generators running, the new propulsion suite can only generate 74,400 kWe for a 110,000 kW powerplant, resulting in a lower top speed than what the pre-refit powerplant permitted. Nevertheless, because it is possible to allocate power between systems at will, testing staff were able to test the electric motors individually at full power by concentrating electricity flows to one motor and then the other.

In addition to allowing the testing of new machinery, the revised powerplant dramatically reduced the ships' acoustic output, a major consideration for an anti-submarine flagship. The large brushless electric motors ran much more quietly than the steam turbines that preceded them, and acoustic rafting around them reduced the transmission of vibrations to the hull. The use of an all-electric transmission allowed the generators to be heavily acoustically isolated as well. The gas turbine generators, mounted in the superstructure more than three decks above the waterline, transmitted especially little noise to the ocean, supporting naval engineers' plans to use superstructure-mounted gas turbine generators in the Hasŏs and Insŏngs. To further reduce the ships' acoustic signature, the undersea cooling water intakes for the boilers and turbines were welded over, and an acoustic masking system was installed around the hull, fed by bleed air from the turbines.

The new powerplant arrangement delivered secondary benefits as well. By placing the gas turbine generators well above the waterline, it isolated them from possible flooding, making the ships more survivable against torpedo and mine damage. The new diesels and gas turbines were much more fuel-efficient than the boilers that had preceded them, increasing the ships' operational range and reducing their operating costs. As on other ships with LM2500-family turbines, it was possible to lift the turbines out of their intake shafts for easy maintenance and replacement, whereas the former boilers were buried deep inside the hull underneath large sections of superstructure.

Armament

Another priority refit area was the ships' armament. Each forward single-arm SAM launcher was replaced by a 16-cell Mk41 strike-length VLS module, which fit in the same volume footprint, requiring minimal structural changes. This change had several beneficial effects. First, by removing the need to reload the missile arms and allowing the use of active radar homing missiles, it increased the rate of fire, making the ships less vulnerable to saturation missile attacks. Second, it allowed the use of longer-ranged surface-to-air missiles, namely the YDG-60. YDG-62 missiles can fit in the cells as well, but with its shorter-ranged air search radar, the refitted Chanjok Jachidos are not able to exploit their full range and do not carry them. Third, the use of Mk41 modules allowed the carriage of HŎ-3 Ryongorŭm standoff anti-submarine rockets. Compared with the HŎ-2 used by the pre-refit Chanjok Jachidos, the HŎ-3 does not fire its rocket motor underwater, and thus gives a targeted submarine less warning that it is under attack.

A "typical" Chanjok Jachido missile loadout would be comprised of eight HŎ-3 anti-submarine rockets, sixteen YDG-60 SAMs, and 32 YDG-64 or YDG-66 SAMs in quadpacked cells.

Other defensive weapon systems were upgraded as well. The port and starboard HP-76/1 guns were replaced with newer models in stealthier turret shells, and the port and starboard GBM-30/6 CIWS turrets were replaced by GBM-23/5 Bulkkot CIWS turrets, which can be targeted independently of one another. The YDH-24 launch boxes were removed, and in their place, two quad-box YDH-26 launchers were installed forward of the superstructure. The HBDJ-6/7 anti-frogman rocket launchers were retained. The two quadruple non-reloadable 533mm torpedo launchers were replaced by two twin 350mm launchers for the YŎ-35/2 torpedo, along with a magazine of torpedo reloads. Baram-2 chaff and flare projectors were added at the base of the main radar mast to replace the removed Baram-1 countermeasures.

Sensors and electronics

Plan 351 Yerihan derivative

Cross-section drawing of the Plan 351 design.

Plan 351 Yerihan ("Keen") was a cruiser design (officially classified as "main force escort" or juryŏk howiham) derived from the Chanjok Jachido class. The design was drawn up during the mid-1990s, and was intended as a fleet escort for the Chanjok Jachidos themselves and the Menghean aircraft carrier Haebang. It retained the hullform, powerplant, bridge, and forward armament of the Chanjok Jachido class, but replaced the helicopter hangar with eight 8-tube rotary launchers for the YDG-39 (Rif-M) surface-to-air missile. This gave it a powerful 64-missile long-range anti-air armament, compared to 54 missiles on the Pyŏng'an class, in addition to the forward-facing single-arm launchers.

The Plan 351 design also modified the layout of the boiler exhaust, which no longer had to be trunked together forward of the funnel. Instead, the ship would have been built with two large pyramid-like towers, each combining an exhaust vent and an air-search radar array with electronic warfare equipment along the sides. Because the boilers were arranged asymmetrically, the forward exhaust was offset to port, and the aft exhaust was offset to starboard. The main radar array was a Letnian Podberezovik-ET1, Menghean designation HR-300, later used on the Pyŏng'an class.

While mainly intended as wide-area anti-aircraft escorts, the Plan 351 ships retained most of the Chanjok Jachidos' anti-submarine capability. The hull and towed sonar were identical, and even with the large missile farm aft, the design had room for one helipad and two GH-28 helicopters. The torpedo tubes were moved slightly aft, with an improved onboard reloading system.

On paper, the Plan 351 design was superior to the competing Plan 332, which became the Pyŏng'an class. It offered a larger long-range missile magazine, better medium-range missile defenses, a superior air-search radar arrangement, and the advantages of a proven hull. It also retained the fleet command facilities of the Chanjok Jachido, and would almost certainly have been classified as a cruiser abroad if built. Choe Sŭng-min personally endorsed the design. Nevertheless, Navy administrative staff determined that the same budget would only support three of these ships, compared to five units of the Plan 332 design, which would allow more dispersed air-defense coverage. Detailed design work on Plan 351 also uncovered serious structural problems due to the added weight on the aft section and the bulkier pyramid masts. The last round of designs place full load displacement at slightly over 10,000 tons, after accounting for additional structural supports. In the end, the Ministry of National Defense selected the competing Plan 332 design, which went on to become the Pyŏng'an-class destroyer.

Role in reclassification of ships

Prior to the introduction of the Chanjok Jachido class, the hull type DChD (Large Anti-Submarine Patrol Ship) was assigned to the Ginam-class frigates, which had helicopter hangars and division command facilities. Because the Chanjok Jachidos were so much larger and more capable, the Menghean Navy decided to reclassify all of its anti-submarine warships to reflect their new distribution.

Under the updated classification scheme, the Chanjok Jachidos remained Large Anti-Submarine Patrol Ships; the Ginams were reclassified as Medium Anti-Submarine Patrol Ships; the Mugunghwas were reclassified as Small Anti-Submarine Patrol Ships; and the previous classes of Small Anti-Submarine Patrol Ship were retired from service, having long ago become obsolete.

Ships in the class

A total of three Chanjok Jachido-class cruisers were completed. All are named after Menghean Autonomous Provinces (자치도 / 自治道, jachido), specifically the autonomous provinces of the Chan (Argentan), Rak (Lac), and Gwangnae (Kungnai) minorities. The Hasŏ-class cruisers, which were built in the 2010s, carried on this tradition, bearing the names of Menghean provinces.

In 2018 the Menghean government formally renamed its southwestern province Menggugesŏ Chanjok Jachido, or "Autonomous Province of Chan People Living in Menghe," in a bid to improve relations with the newly independent state of Argentstan, which had separated from the Republic of Innominada under Menghean oversight. Despite initial reports that the province's namesake ship would also be renamed, DChD-03 retained her original name of Chanjok Jachido.

Hull no. Name Mengja Builder Laid down Launched Commissioned Status
DChD-03 Chanjok Jachido 儧族自治道 Gyŏngsan 1991 Feb 02 1992 Dec 25 1994 Mar 16 In service
DChD-04 Ragjok Jachido 駱族自治道 Gyŏngsan 1993 Jan 13 1994 Nov 14 1996 Jan 02 In service
DChD-05 Gwangnaejok Jachido 廣內自治道 Gyŏngsan 1994 Nov 28 1996 Aug 22 1997 Sep 16 In service

See also