Parchim-class corvette

Indonesian corvette KRI Cut Nyak Dien
Class overview
Name: Parchim class
Builders: Peenewerft, Wolgast, East Germany
Operators:
Built: 1985-1989
Completed: 24
Active: 24
General characteristics
Type: Anti-submarine corvette
Displacement: 800 tons standard, 950 tons full load
Length: 72.50 m (237 ft 10 in)
Beam: 9.40 m (30 ft 10 in)
Draught: 4.60 m (15 ft 1 in)
Installed power: 14,250 hp (10,630 kW)
Propulsion: 3 shaft M504 diesels
Speed: 24.7 knots (45.7 km/h)
Range: 2,100 nmi (3,900 km) at 14 knots (26 km/h; 16 mph)
Complement: 80
Sensors and
processing systems:
  • Radar: Positive-E, Spin Trough
  • Bass Tilt Hull Mounted Medium Frequency Sonar
Armament:
  • 1 twin 57 mm gun AK-725
  • 1 twin 30 mm gun AK-230
  • 2 SA-N-5 MANPAD positions
  • 2 RBU-6000 anti submarine depth charge rocket launchers
  • 4 400 mm torpedo tubes,
  • 12 depth charges

The Parchim-class corvette (Soviet designation Project 1331M) was developed for the East German Navy in the late 1970s, and built by the Wolgast Peene-Werft. The ships were designed for coastal anti-submarine warfare. In case of an all-out NATO-Warsaw Pact war in Europe their prime targets would have been the small U-206 coastal submarines of the West German navy. The first ship, Wismar (now the Indonesian KRI Sutanto), was launched on 9 April 1981 in Rostock, and subsequently another 15 ships were built until 1986. To make production more economical, the Soviet Union agreed to purchase another 12 ships from Wolgaster Peenewerft built between 1986 and 1990, thereby effectively subsidising the East German shipbuilding industry.

The ships of the Soviet Navy were named Parchim II by NATO. Though useful as a coastal ASW platform, the Soviet production of the similar but far more powerful Grisha class made this purchase even more illogical for the Red Navy. After German re-unification the former East German ships were sold to the TNI-AL (Indonesian Navy) in 1993. The Indonesian Navy extensively refurbished their Parchims, to the point where the refurbishing exceeded the cost of purchase. They are still in service, both in the Indonesian Navy and in the Russian Baltic Fleet.

Construction

The Parchims were built to replace the obsolete HAI III-class subhunters of the Volksmarine. Because of their displacement, over 800 tons in full load, they were able to leave coastal waters, even in rough weather. Propulsion consisted of 3 Soviet-designed M 504 56 cylinder diesel engines, a development of the M 503 A fast attack craft engine. The middle engine provided power to a variable-pitch propeller for cruising speed, while the two outer engines served two outer fixed-pitch propellers for boost speed. Total power output was 14,250 hp (10,630 kW). The ships were constructed with regular (stainless) steel and consisted of ten waterproof compartments.

Weapon systems and sensors

Air defence

Russian corvette Kazanets

For air defence, the ships were equipped with one double-barrel AK-230 30 mm gun and one double-barrel AK-725 57 mm gun. The Ak-725 double 57 mm AA gun, designed in 1959, was directed by the ESP-72 fire control system, which received ranging and target bearing information from an MR 103 (NATO codename 'MUFF COB') radar. The MR 103 had a 1.30 m (4.3 ft) parabolic radar dish, with an optical camera system slaved to it, as a backup system in case of failure or heavy EW environment. The barrels of the gun were water-cooled and belt-fed, with each belt containing 550 rounds, but the first round had to be manually chambered. In an emergency, the turret could be manually operated with an optical fire control system. The MR 103 radar system, already outdated when the Parchims were developed, used 1950s-style electromechanical systems, built around vacuum tubes. As a result, it wasn't considered to be an effective anti-missile system, or CIWS (Close-in weapon system), as was evidenced by a Soviet training accident in 1987 when a test missile drone accidentally locked in on a small Soviet Navy training vessel. Although the ship's AK-725 system kept firing until the moment of impact, no hits were scored and the ship was destroyed by the resulting fire, allegedly killing 39 crew members.

The AK-230 gun was a fully automatic, stabilized, NN-30 double-barrel, water-cooled, four-chamber revolver cannon. The guns had a 1,000 round per minute (rpm) rate of fire and were fed by independent 500 round ammunition belts. The regular associated radar system was the (NATO codename) DRUM TILT radar, which was not used in the Parchim class. According to some sources the AK-230 could not only be linked with the DRUM TILT but also with the MUFF COB radar system, but this is disputed by old East German naval sources. According to these East German sources, the AK-230 gun on the Parchim-class corvette was optically guided, thereby leaving the Parchim class without an effective CIWS, and therefore unable to counter anti-shipping missiles.

There were also two SA-N-5 (Naval SA-7 or Strela II) MANPAD positions aboard the Parchims. But without an effective, radar guided SAM missile system, the Parchims were left completely vulnerable to enemy precision guided anti-shipping weapons. This was a major restriction and confined the Parchims to brown water coastal operations, close to the protective air force and air defence umbrella.

The air search radar was the ubiquitous (NATO codename) STRUT CURVE radar. This radar had a 4 m (13 ft) parabolic radar dish, worked in the F-band frequency, and had a respectable 60 nautical miles (110 km) radar range against aircraft flying at 5,000 m (16,000 ft) height, and a less respectable 20 nautical miles (40 km) radar range against surface shipping or low flying aircraft. The electronic defense suite was very basic, and consisted of an IFF (Identification Friend or Foe) receiver and transmitter, and an 'ELOKA' multiband passive RWR antenna slaved to a double 16-cell chaff dispenser. All in all, air defence - or the lack of one - was a very restrictive factor in the tactical usefulness of the Parchim design.

Anti-submarine warfare

A major evolution over the old HAI III design was the new hydro-acoustic system. The sonar suite consisted of a bow sonar and a variable depth dipping sonar. The sonarscreen was panoramic, meaning that it gave a two dimensional radarscope-like view of the surrounding waters. This was a major improvement over the old auditive system in the HAI III class. Another weakness of the old HAI III was its inability to 'see through' water layers with different temperatures. While sound propagates pretty well in water of the same temperature, it gets easily disturbed by even modest differences in water temperature. Especially in the hot summer months these natural occurring phenomena give submarines an easy hide out for probable subchasing surface vessels. A solution is the use of a 'dipping sonar', which in a way is nothing more than a small sonar attached to a long cable. By using this device the Parchim's sonar system was able to search the different water layers.

The Parchims were also provided with capable anti-submarine warfare weapons. The 400 mm (16 in) torpedo tubes were loaded with acoustical and/or wire guided torpedoes. This gave the Parchims a precision submarine strike capability. The two RBU-6000 depth charge rocket launchers created a barrier defense against submarines, incoming torpedoes and frogmen. Though relatively unsophisticated by western standards, the RBU-6000 was a very successful and popular system, used on many small or large surface ships. It consisted of a twelve launch tubes for unguided rockets, armed with a compact but powerful depth charge. Rockets were directed by simply changing the angle of the tubes and thereby the ballistics of the unguided rockets. The launcher could elevate between -15° and +60°, and could traverse 180°, with each launcher thus covering one side of the ship. Range was between 350 m and 6000 m, and the charges could reach 500 m deep. The rockets, RGB-60's, weighed 110 kg (240 lb) of which 25 kg (55 lb) was a high-explosive warhead. The ammunition was swiftly and automatically reloaded from a magazine below deck, by turning the tubes 90° vertically. Maximum magazine capacity was 96 rounds. The whole system was remotely directed by the 'Burya' fire control system. The RBU-6000 could also be used for shore bombardment. The Parchims were also able to simply drop bigger and more powerful depth charges, and could transport and lay up to 60 mines.

Overview

All in all, the Parchims were up to their task, namely to hunt and destroy enemy submarines in coastal waters. Because of their lack of any real anti-shipping weapons and more importantly because of the absence of a modern air defence capability, their 'blue water' (out of the coastal regions) value would indeed have been slight. This shortcoming was partially offset by Volksmarine doctrine, which regarded the Koni-class frigates, equipped with the radar guided OSA/SA-N-4 SAMs, as the cornerstone of their naval blue water air defence. In other words, in order to survive a modern naval war, they had to be escorted by radar guided SAM carriers. But, as the biggest GDR warship building project in history, the Parchim class truly was the "Höhepunkt des DDR-Kampfschiffbaus".

Indonesian service

The 16 Parchims from the GDR were purchased by Indonesia in 1992 in a deal worth US$12.7 million arranged by then Minister of Research and Technology, Dr B.J Habibie. The transfer from the Volksmarine also included, 14 Frosch-class landing ships and 9 Kondor-class minesweepers. The Parchims, now known as the Kapitan Patimura class underwent a significant rehabilitation which included air-conditioning and engine replacements.[1]

The ships were KRI Kapitan Patimura (371), KRI Untung Suropati (372), KRI Nuku (373), KRI Lambung Mangkurat (374), KRI Cut Nyak Din (375), KRI Sultan Thala Syafuddin (376), KRI Sutanto (377), KRI Sutedi Senoputra (378), KRI Wiratno (379), KRI Memet Sastrawiria (380), KRI Tjiptadi (381), KRI Hasan Basri (382), KRI Imam Bonjol (383), KRI Pati Unus (384), KRI Teuku Umar (385), and KRI Silas Papare (386).[2]

Engine Power Ships
2 x Deutz TBD 620 V16 diesels 6,000 hp (4.5 MW) 372, 373, 374, 377, 378, 381
2 x MTU 16V 4000 M 90 diesels 7,300 hp (5.4 MW) 371, 379, 380, 382, 383,386
2 x Caterpillar 3516B diesels 5,200 hp (3.9 MW) 355, 376, 384, 385

Russian service

Ship Commander
Name Pennant Number Base Commissioned Notes Captain's rank Captain's name
MPK-99 Zelenodolsk Russian: МПК-99 «Зеленодольск» 308 Leningrad Naval Base since 1987 Under repair Captain 3rd Rank Evgenie Tishkevich[3]
MPK-192 Russian: МПК-192 304 Leningrad Naval Base since 1986 Captain Lieutenant Evgenie Kuznetsov[3]
MPK-205 Kazanets ('Citizen of Kazan') Russian: МПК-205 «Казанец» 311 (based Leningrad Naval Base) since 1987
264th Division of Anti-Submarine Ships
MPK-105 245 Baltiysk 1988 In repair 3rd-Class Captain Igor Mikhalyuk
MPK-224 Alexin 218 Baltiysk 1989 Captain 3rd Rank Sergei Lukin
MPK-227 243 Baltiysk 1989 Under repair Captain 3rd Rank Ruslan Yamaletdinov
MPK-228 Bashkortostan 244 Baltiysk 1989 Under repair Captain-Lieutenant Vadim Bukhamisty
MPK-229 Kalmykia 232 Baltiysk 1990 Captain 3rd Rank Vitaly Kondratiev

See also

References

Sources

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