Vertical launching system

cell of the Sejong the Great-class destroyer during maritime operations drills launching from a VLS cell on in 2008 A vertical launch system can be either "hot launch", where the missile ignites in the cell, or "cold launch", where the missile is expelled by gas produced by a gas generator which is not part of the missile itself, and then the missile ignites. "Cold" means relatively cold compared with rocket engine exhaust. A hot launch system does not require an ejection mechanism but does require some way of disposing of the missile's exhaust and heat as it departs the cell. If the missile ignites in a cell without an ejection mechanism, the cell must withstand the tremendous heat generated without igniting missiles in adjacent cells. Hot launch An advantage of a hot-launch system is that the missile propels itself out of the launching cell using its own engine, which eliminates the need for a separate system to eject the missile from the launching tube. This potentially makes a hot-launch system relatively light, small, and economical to develop and produce, particularly when designed around smaller missiles. A potential disadvantage is that a malfunctioning missile could destroy the launch tube. American surface-ship VLSs have missile cells arranged in a grid with one lid per cell and are "hot launch" systems. The engine ignites within the cell during the launch and so requires a way of venting rocket exhaust. France, Italy and Britain use a similar hot-launching Sylver system in PAAMS. Cold launch The advantage of the cold-launch system is in its safety: if a missile engine malfunctions during launch, the cold-launch system can eject the missile, reducing or eliminating the threat. For this reason, Russian VLSs are often designed with a slant so that a malfunctioning missile will land in the water instead of on the ship's deck. As missile size grows, the benefits of ejection launching increase. Above a certain size, a missile booster cannot be safely ignited within the confines of a ship's hull. Most modern intercontinental ballistic missiles and submarine-launched ballistic missiles are cold-launched. Russia produces both grid systems and a revolver arrangement with more than one missile per lid for its cold launch system. Russia also uses a cold launch system for some of its vertical launch missile systems, e.g., the Tor missile system. The United Kingdom's Common Anti-Air Modular Missile (CAMM) family of missiles utilises a similar cold-launching system, referred to as "soft-vertical-launch", and actively markets the advantages of the system. Soft-launch provides the missile with a reduce interception rate allowing for shorter ranged engagements, reduces the infrared homing signature of the ship and the obscurant of visibility by rendering the ship in efflux for several minutes; and most notably, the lack of hot efflux and reduced stress on the ship's structure allows for a much greater choice of launch systems, such as the lighter "Mushroom Farm" launcher whilst also still enabling installation into the heavier Mark 41 in a quad-pack or dual-packed configuration (two or four missiles per cell) for a costly, but more space efficient option. Concentric canister launch Some warships of China's People's Liberation Army Navy use a concentric canister launch (CCL) system that can launch using both hot and cold methods in the cell module, onboard the Type 052D destroyer and the Type 055 destroyer. The universal launch system is offered for export. Older Chinese ships use single launch system: Type 052C destroyers use a cold launch system, while Type 054A frigates use a hot launch system. ==Other platforms==

Transporter erector launchers are wheeled or tracked land vehicles for the launch of surface-to-air and surface-to-surface missiles. In most systems the missiles are transported in a horizontal out-of-battery configuration: in order to fire, the vehicle must stop and the transport/launch tube must be raised to the vertical before firing. BAE Systems has filed patents relating to the use of Vertical Launch missiles from modified passenger aircraft. == List of VLS ==

• VLS with multiple types of missile launching capability: • 3S-14 (Russia) • GJB 5860-2006 (China) • Korean vertical launching system (South Korea) • Mark 41 vertical launching system (USA) • Mark 48 vertical launching system (USA) • Mark 57 vertical launching system (USA) • MiDLAS vertical launching system (Turkey) • Sylver vertical launching system (France) • HY-VLS (Taiwan) • VLS made for only single model of missile or missile family: • GWS 26 vertical launching System (UK) • GWS 35 vertical launching System (UK) ==Systems in use by states==

NATO In 2021, the Centre for Military Studies published the total number of VLS cells in use with fourteen NATO navies. The results are displayed below. Note: The above table does not include NATO navies which do not possess vertical launching systems, namely Albania, Croatia, Estonia, Iceland, Latvia, Lithuania, North Macedonia, Poland, Romania and Slovenia. Other ; • El Radii-class frigates – Umkhonto (32 cells) ; • – Mark 41 Mod 16 (8 cells) • – Mark 41 (48 cells) • – Mark 41 (32 cells) ; • – GWS-35 (12 cells) ; • – Mark 48 Mod 1 (16 cells) • Type 23 frigate – GWS-35 (32 cells) • – Mark 41 Mod 16 (8 cells) ; ;Surface As of 2025, PLAN has an arsenal of 4864+ ship-based VLS. VLS on submarines not included. • Type 055 destroyer – GJB 5860-2006 Concentric Canister Launch System (112 cells) • Type 052D destroyer – GJB 5860-2006 Concentric Canister Launch System (64 cells) • Type 052C destroyer – H/AJK-03 HHQ-9 (48 cells) • Type 051C destroyer – 48N6E (48 cells) • Type 051B destroyer – H/AKJ-16 (8 cells) • – H/AKJ-16 (32 cells) • Type 054B frigate – H/AKJ-16 (32 cells) • Type 054A frigate – H/AKJ-16 (32 cells) ; • Tahya Misr – SYLVER A43 (16 cells) ; • Kang Ding-class frigate – HY-VLS (32 cells) ; • – Umkhonto (8 cells) • – Umkhonto (8 cells) ; ;Surface (32 ships with 1,040 cells) • – Barak 8 (64 cells) • – Barak 1 and Barak 8 (48 cells) • (4) – BrahMos (16 cells) and Barak 8 (32 cells) • (3) – BrahMos (16 cells) and Barak 8 (32 cells) • (3) – Barak 1 (32 cells) • (3) – BrahMos (8 cells) and VL-SRSAM or Barak 1 (16 cells) • (3) – BrahMos (8 cells) and Barak 8 (32 cells) • (3) – Club or BrahMos (8 cells) and Barak 1 (32 cells) • (Batch III) (2) – BrahMos (8 cells) and Shtil-1 (24 cells) • Talwar-class frigate (Batch I & II) (6) – Club or BrahMos (8 cells) • (3) – Barak 1 (24 cells) ;Submarine • (2) – K-4 or K-15 (4 cells) ; • – SD-3 or Navvab and Q-474 CMs (22 cells) • Zulfighar-class fast attack craft – Navvab (4 cells) ; • – VL MICA (16 cells) • – VL MICA (12 cells) • – Yakhont VLS (4 cells) Ex- ; • – – Barak 1 Barak 8 (2 x 32 cells) ; • – Mark 41 (16 cells) • – Mark 41 (90 cells) • – Mark 41 (96 cells) • – Mark 41 (96 cells) • – Mark 41 (16 cells) + Mark 48 (16 cells) • – Mark 41 (32 cells) • – Mark 41 (32 cells) • – Mark 41 (32 cells) • - Mark 41 (16 cells) • - Mark 41 (8 cells) ; • - GWS-26 (16 cells) ; • Mohammed VI – SYLVER A50 (16 cells) ; • Anzac-class frigate – GWS-35 (20 cells) ; • – VL MICA (12 cells) '' firing a missile from the Tor VLS ; • – HQ16 (32 cells) • – GWS-35 (12 cells) ; • - MICA (16 cells) ; ;Surface • – Granit (12 cells) + Kinzhal (192 cells) • – Granit (20 cells) + Fort/Fort-M (96 cells) + Kinzhal (128 cells) • – Fort (64 cells) • – Kinzhal (64 cells) • – Kinzhal (32 cells) • – 3S14 for Kalibr or BrahMos (8 cells) + 3S90M for 9M317M (24 cells) • – 3S14 for Kalibr or Oniks (16 cells) + Redut system for different type of missiles (32 cells) • – 3S14 for Kalibr or Oniks (8 cells) • – Redut (12 cells) • – Redut (2 x 8 cells) + 3S14 for Kalibr or Oniks ( 8 cells) • Buyan-M-class corvette – 3S14 for Kalibr or Oniks (8 cells) • – 3S14 for Kalibr or Oniks (8 cells) • Project 22160E patrol ship – 3S14 for Kalibr or Oniks (8 cells) • Korsar-class escort ship – 3S14 for Kalibr (8 cells) ;Submarine • Amur 950-class submarine – 3S14 for Kalibr or BrahMos (10 cells) • – Granit (24 cells) + RPK-2 Vyuga (28 cells) • Yasen-M-class submarine – 3S14 for Kalibr (40 cells) or Oniks (32 cells) • – R-39 Rif (20 cells) • – R-29 Vysota (16 cells) • Delta IV-class submarine – R-29RMU Sineva or R-29RM Shtil (16 cells) • – RSM-56 Bulava (16 cells) ; • – Umkhonto (16 cells) ; modules on board Sejong the Great-class destroyer ;Surface • (KDX-I) – Mark 48 (16 cells) • (KDX-II) – Mark 41 (32 cells) + Korean Vertical Launching System (K-VLS) (24 cells / 32 cells) • (KDX-III) – Mark 41 (80 cells) + K-VLS (48 cells) • – K-VLS (4 cells) • – K-VLS (4 cells) • – K-VLS (16 cells) ;Submarine • – K-VLS (10 cells) ; • – SYLVER (32 cells) • – Barak 1 (2 x 8 cells) • – VL MICA-M (12 cells) ; • – Mark 41 (8 cells) • – Mark 41 (8 cells) ==See also==