VKS group. The logistical support of the Syrian group of the Russian Air Force is under threat. Bombs and rockets

On September 30, 2015, the operation of the Russian Aerospace Forces in Syria began. On this day, the Federation Council unanimously approved the use of the Russian Armed Forces in the Syrian Arab Republic, and the very next day - October 1 - the aerospace forces launched the first strikes on militant positions.

An advanced group of Russian specialists arrived in Syria in June 2015. It included several high-ranking military personnel and security. They were faced with the task of determining the location of the future military base. The group studied several sites, and after careful analysis, the choice fell on Basil Al-Assad Airport in the province of Latakia.

In the 1980s, there was a Soviet facility here, from where electronic reconnaissance was carried out. The airport was well known to our specialists. Also nearby, in Tartus, there was a logistics support center for the Russian Navy. This guaranteed fast delivery of goods and military equipment.

But Al Asad Airport had one serious drawback. At that time he was quite close to the front line. In the summer of 2015, clashes between militants and government troops took place in areas of mountainous Latakia - the airport was just over 30 km from there. And yet, the advance group recommended establishing an air base at the airport. Ultimately, this proposal was approved.

The so-called “Syrian Express” began operating on August 8. Six Russian large landing ships began transporting equipment and cargo. Until September, they completed the transition between bases more than ten times Black Sea Fleet and the Syrian port of Tartus. Later, a cargo ferry was also involved in transportation.

On September 7, the Khmeimim airbase received its first aircraft. On this day, the heavy military transport An-124 Ruslan, as well as the passenger Il-62M, landed in Latakia. The next day, another Ruslan arrived at the base.

By the time the “air bridge” opened, parking lots for equipment, airplanes and helicopters had already been built at the airbase. Additional taxiways were laid at the airfield and all the radio-electronic systems necessary to support flights were deployed.

On September 18, Khmeimim airbase began operating its own air defense system. On this day, four Su-30SM fighters arrived in Syria. They took over the function air defense. The cars were parked at the end of the runway. From that moment on, the pace of aircraft transfers increased many times over.

Already on September 21, in addition to four Su-30SM, 12 Su-24 front-line bombers, the same number of Su-25 attack aircraft, as well as four of the latest Su-34 multifunctional bombers were deployed in Latakia. By this time, a squadron of unmanned aerial vehicles was already operating at the airbase. aircraft"Outpost". Special tent hangars were built for their storage and maintenance.

In total, the Aerospace Forces aviation group initially included 49 aircraft and helicopters:

• 12 Su-24M front-line bombers,
• four Su-34 front-line bombers,
• four Su-30SM fighters,
• 12 Su-25SM/UB attack aircraft,
• 12 Mi-24P combat helicopters,
• five Mi-8AMTSh transport and combat helicopters.

The group was formed from crews of combat units of the Aerospace Forces.

To coordinate aviation actions, conduct reconnaissance and issue target designations, the A-50 and Tu-214R long-range radar detection and control aircraft, as well as an electronic reconnaissance aircraft and electronic warfare Il-20M1. Mi-24P helicopters were used to directly support the Syrian ground forces.

The expansion of the group continued in December 2015, when four Su-34s, four new Mi-35M combat helicopters and several Mi-8 transport helicopters arrived in Latakia. In January 2016, the group was replenished with four new multirole Su-35S fighters in Syria.

Basic impact force The Russian air group was a modernized front-line bomber Su-24M. It was equipped with a special computing subsystem SVP-24 “Hephaestus”, which expanded the aircraft’s capabilities to search and destroy targets. In addition to the Su-24M, Su-25SM and Su-34, multirole fighters Su-35S and Su-30SM were used for strike missions, although initially their main task was air cover for strike aircraft.

The Syrian campaign was the first combat use of supersonic strategic missile-carrying bombers Tu-160 and turboprop missile-carrying bombers of the Tu-95MS family. Long-range Tu-22M3 bombers also flew from Russian territory. Su-30SM and Su-35S, as well as modernized Su-27SM3 fighters, which had two additional hardpoints under the wing consoles, were used for escort.

Then the power of the “strategists” amazed the West, because for a long time it was believed that Russian aviation was not capable of fighting far from its borders. It was thanks to the Syrian successes of the Aerospace Forces that the decision was made to resume production of the Tu-160 bombers in the modernized version of the Tu-160M2. Thus, during the first combat mission, on November 17, 2015, two “White Swans” fired a total of 16 Kh-101 cruise missiles. All of them successfully hit the indicated targets, and the aircraft returned safely to the Russian Engels airbase.

For the first time, high-precision weapons were used in significant quantities, including KAB-500S satellite-corrected aerial bombs, and Su-25SM attack aircraft used free-fall high-explosive fragmentation aerial bombs (OFAB). They were used to destroy weakly protected military targets, armored and unarmored equipment, and manpower.

To destroy ground targets, the Su-24M and Su-34 used missiles with a Kh-29L laser homing head. An aviation guided multi-purpose air-to-surface missile equipped with a semi-active homing head, the Kh-25ML, was also used.

Su-34 bombers have flown with the latest Kh-35U guided anti-ship missiles, one aircraft of this type with a Kh-35U was demonstrated in February 2016 on a wall screen at a Russian Ministry of Defense press briefing.

During combat missions, the Tu-160 and Tu-95MS used the latest air-launched cruise missiles Kh-101 and Kh-555, which were carried in the intra-fuselage compartments. Tu-22M3 used free-falling bombs.

In the spring of 2016, a baptism of fire took place in the Syrian sky attack helicopters army aviation– Mi-28N “Night Hunter” and Ka-52 “Alligator”. It was reported that they were equipped with the same set of weapons - a 30-mm 2A42 automatic cannon, S-8OFP unguided aircraft missiles of 80 mm caliber and two types of Ataka guided missiles. Helicopters were used during the liberation of Palmyra and Aleppo.

In November 2016 - January 2017, the air group of the Northern Fleet heavy aircraft-carrying cruiser Admiral Kuznetsov took part in the hostilities. He made a long trip to the Mediterranean Sea, during which carrier-based aviation pilots flying Su-33 and MiG-29KR/KUBR fighters carried out 420 sorties, including 117 at night, and hit 1,252 terrorist targets. The ship's air wing also included Ka-27PL, Ka-27PS and Ka-29 helicopters.

During this campaign, the Ka-52K Katran naval helicopters were also tested, and the new Ka-31SV radar patrol helicopter, another designation Ka-35, was used for the first time.

The appearance of the fifth generation Su-57 aircraft in the skies of Syria became a sensation. According to the Russian Defense Minister, two such fighters successfully completed a two-day test program in combat conditions.

“To evaluate in a combat situation the declared capabilities of the military equipment being developed, practical launches of promising operational-tactical cruise missiles from a fifth-generation Su-57 aircraft were carried out in February 2018,” Sergei Shoigu later explained.

Since September 2017, the MiG-29SMT fighter has been successfully used in the Arab Republic. “The experience gained in Syria will be taken into account in the operation of these aircraft, and will also be implemented as part of the development of new aviation complexes“MiG” brands, including the MiG-35,” noted Sergei Korotkov, general designer of the United Aircraft Corporation.

The group was supplied by heavy military transport aircraft Il-76 and An-124. In total, 2,785 flights were carried out by air during the entire operation.

During the operation, the Russian Aerospace Forces carried out 39 thousand combat missions. The intensity of the use of military aviation exceeded 100 or more sorties per day; on November 20, 2015, the maximum number was recorded - 139 sorties. There were also 66 air-launched cruise missile strikes.

The last day of September was remembered for a lot of news regarding the armed conflict in Syria. The official authorities of this Middle Eastern state turned to Russia for military assistance, President Vladimir Putin received permission from the Federation Council to use armed forces abroad, and by the evening Russian aircraft began carrying out combat missions in Syria. All these events happened in less than one day.

According to official data, Russia sent an aviation group of the Aerospace Forces to Syria. For some time, Russian planes will strike targets of terrorist organizations, primarily the Islamic State, which is banned in our country. According to the announced plans, Russian participation in the war on terrorism it will be limited to air strikes, etc. actions. There are no plans to send ground troops or participate in ground operations.

On October 1, the Russian military department announced the first information about the quantitative and qualitative composition of the Aerospace Forces group. Official representative Ministry of Defense Major General Igor Konashenkov said that more than 50 aircraft and helicopters of several types were deployed to Syria. From other statements of the general it follows that the group included frontline bombers Su-24M and Su-34, as well as Su-25 attack aircraft. All these vehicles have already taken part in combat work and made several dozen sorties to strike enemy targets.

The Su-34 bomber landed. Still from a report from Channel One

The exact number of certain aircraft and helicopters has not yet been officially specified. However, thanks to foreign specialists, the general public has already been able to obtain some information about the Russian Aerospace Forces grouping in Syria. Apparently, an agreement on direct military assistance was reached by Moscow and Damascus several weeks ago, which resulted in the transfer of aircraft and auxiliary equipment.

A few weeks ago, the first satellite photographs of the Syrian international airport appeared on foreign specialized resources. Basil Al-Assad (the name “Hmeimim airbase” also appears), which showed Russian planes and helicopters. In addition, there were some other reports of Russian aircraft appearing in Syrian airspace. Thus, back on September 10, the American Fox News channel reported that several An-124 Ruslan military transport aircraft were spotted in Syria. Apparently, these vehicles delivered some equipment to the Middle Eastern country.

On September 20, The Aviationist published a satellite photograph dated the previous day. A reconnaissance satellite, filming an airport near the city of Latakia, captured four Su-30SM multirole fighters. This message caused a strong reaction from the domestic and foreign public. For the first time during the armed conflict, modern Russian aircraft were spotted on Syrian territory. In addition, during the discussion of information about the Su-30SM at the B. Al-Assad airport, assumptions were made for the first time about Russia’s future participation in the battles.

Subsequently, new photographs of the airport were published, but the number of Su-30SM fighters did not change over time. Probably only four such vehicles were deployed, which should now be responsible for intercepting various air targets and, possibly, participating in strikes against ground targets.

Satellite image of the Khmeimim base from September 20

Also on September 20, a video recording of the flight of several aircraft appeared. The filmed vehicles were identified as an Il-76 transport aircraft (or an Il-78 tanker) and Su-24 front-line bombers. The number of these machines was unclear until a certain time.

Following the front-line bombers in Syria, Su-25 attack aircraft were spotted. Satellite images from Allsource Analysis on September 20 and 23 showed up to 12 Russian-made attack aircraft. In addition, on September 23, there were four Su-30SM and four Su-24 at the airfield, as well as one military transport Il-76.

Comparing photographs from different days, you can see that personnel The aviation group took some measures aimed at hampering reconnaissance. Thus, in the photos of different days, the position of certain aircraft at the airfield changes, which to a certain extent makes it difficult to determine the exact amount of equipment.

Also on September 20, up to 12 helicopters, covered with camouflage nets, were seen at one of the sites of the B. Al-Assad airport. Foreign experts identified them as Mi-24 or Mi-35 type vehicles. A more accurate determination of the type of combat helicopters is made difficult by the poor quality of images, the presence of camouflage nets and insignificant external differences two cars.

General view of the airfield, September 20

It is noteworthy that some messages dated September 20 indicated total Su-24M bombers at the level of 12 units. However, vehicles of this type were first photographed only a few days later in slightly smaller numbers. Perhaps the satellite with the photographic equipment was unable to take a photo at the right moment, which is why information about an entire squadron of bombers was not confirmed until a certain time.

On September 21, ABC News, citing a source in the Pentagon, reported that not only combat helicopters, but also transport helicopters had arrived in Syria. According to these data, to perform transport tasks Several Mi-17 helicopters are used, and the total number of helicopter groups has reached 15 units. Equipment proportions various types remain unknown.

More than a week after the first reports of Russian aircraft in Syria, information appeared about additional transfers of aircraft. On September 29, photos appeared showing front-line Su-34 bombers in flight and during landing. It was alleged that the pictures were taken near the city of Latakia, i.e. in close proximity to the Khmeimim airbase.

Airstrips with camouflaged helicopters, September 23

Some foreign sources mentioned that the Russian aviation group included the Il-20 electronic reconnaissance aircraft. However, this information was provided with references to unnamed sources and has not yet been confirmed. Satellite photos of this aircraft have not yet appeared, but the use of such equipment in current situation may be justified.

On September 30, having received the order, Russian attack aircraft took off to destroy enemy targets. According to the Russian Ministry of Defense, during the first day of the operation, our aircraft carried out about two dozen strikes on eight targets in different regions of Syria. Successful destruction of targets was reported, including command posts, ammunition depots and other facilities belonging to terrorists.

For the first time in domestic practice, the Ministry of Defense began to publish not only short press releases with general information about the combat missions carried out, but also video recordings of strikes and destruction of targets. For example, by the evening of September 30, the general public was shown the process of destroying one of the enemy’s targets. Subsequently, the publication of similar recordings continued, and on October 1 and 2, the military shared footage of night strikes.

Warehouses, barracks, etc., September 23

The fact of the appearance of video materials demonstrating the combat work of Russian strike aircraft is a reason for several conclusions at once. First of all, he says that the Russian Aerospace Forces now have the ability to directly monitor the situation and control the results of strikes using unmanned aerial vehicles. In addition, it turns out that the aviation group in Syria includes not only combat aircraft and helicopters, but also reconnaissance UAVs. However, the quantity and types of this equipment remain unknown.

For obvious reasons, for the normal operation of combat aviation, not only an airfield is required, but also appropriate auxiliary equipment. Published satellite images show that barracks, warehouses, a residential complex, etc. were deployed on the territory of the Syrian airport. Thus, a small base appeared on the territory of a friendly state, suitable for solving the assigned tasks.

The satellites also “noticed” various ground weapons and military equipment. Some objects in the photographs were identified as artillery pieces, armored personnel carriers and tanks. In addition, at the airport. B. Al-Assad is present a large number of automotive equipment of various types.

The data published by this time allows us to compile a rough list of Russian aircraft serving at the Syrian Khmeimim base. These are four Su-30SM fighters, 12 Su-24M bombers and Su-25SM attack aircraft, as well as at least 6 Su-34 bombers. In addition, about one and a half dozen helicopters of several types, a number of UAVs, etc. were deployed to Syria.

Su-34 landing, photo dated September 29

The existing composition of the Russian Aerospace Forces aviation group directly speaks of its goals and objectives. Russian pilots will have to first attack terrorists' ground targets. In addition, as they say, just in case, several multirole fighters have been added to the group. If necessary, they will be able to protect attack aircraft and helicopters.

The composition of the Aerospace Forces group deployed to Syria, as well as the results of the first combat missions, allow us to look into the future with restrained optimism. Russian front-line aviation pilots have already shown that they are capable of solving assigned tasks and delivering precise strikes against enemy targets. Soon combat work aviation will continue. Thus, the Russian military will take an active part in the fight against terrorist organizations, and will also gain the most important experience of working in a real conflict.

Based on materials from sites:
http://ria.ru/
http://tass.ru/
http://interfax.ru/
http://lenta.ru/
http://theaviationist.com/
http://abcnews.go.com/
http://sandrermakoff.livejournal.com/
http://pfc-joker.livejournal.com/
http://spioenkop.blogspot.ru/

Videos of attacks on terrorist positions on the official YouTube channel of the Ministry of Defense:
https://youtube.com/playlist?list=PLtqIS4Gj9IdFcxQT2hTgkuG3tHMRxFq2L

The Russian Aerospace Forces group in Syria includes more than 50 aircraft and helicopters, including Su-34 and Su-24M front-line bombers, Su-25SM attack aircraft, Su-30SM and Su-35S fighters, attack helicopters Mi-24P, as well as Mi-8AMTSh transport and attack helicopters.

When preparing and setting tasks, aerial reconnaissance data and clarifications obtained from the headquarters of the Syrian army and with the help of space reconnaissance and drones are used. All Russian actions are coordinated with the Syrian side

In addition to the Russian Aerospace Forces, the Russian Navy was also involved in the operation. On the night of October 6-7, 2015, ships of the Caspian Flotilla of the Russian Navy from the Caspian Sea launched a massive strike with ZM-14 cruise missiles of the sea-based Caliber NK complex against Daesh* targets in Syria. 26 missiles were fired from the ships "Dagestan", "Grad Sviyazhsk", "Veliky Ustyug" and "Uglich".

On December 17, 2015, Long-Range Aviation aircraft of the Russian Aerospace Forces Tu-160, Tu-22M3 and Tu-95MS attacked Daesh* positions in Syria, launching 34 cruise missiles against militant targets in the provinces of Aleppo and Idlib. Cover for the air strike group was provided by 4 Su-27SM fighters.

On November 20, 2015, ships of the Caspian Flotilla launched 18 cruise missiles at seven targets in the provinces of Raqqa, Idlib and Aleppo, hitting all targets.

On February 1, 2016, Su-35S fighters were transferred to the Khmeimim airbase and began performing combat missions.

Su-24M "Fencer"

The main strike force of the Russian air group in Syria is the modernized Su-24M front-line bomber.

Su-24M

The Su-24 (according to NATO classification - Fencer-D) is a front-line bomber with a variable-sweep wing; it received the nickname “Fencer” for its elongated nose. Designed to carry out missile and bomb strikes in simple and adverse weather conditions, day and night, including at low altitudes. Chief designer - Evgeniy Felsner.

The plane made its first flight in 1976. The bomber is equipped with a special computing subsystem SVP-24 "Hephaestus", adopted for service in 2008, which expands the aircraft's capabilities to search and destroy targets. The Su-24M is capable of flying at low altitude and following the terrain. The bomber can strike both ground and surface targets using a wide range of ammunition, including high-precision weapons, including adjustable aerial bombs (KAB). Maximum speed flight near the ground - 1250 km/h, ferry flight range - 2,775 km (with two suspended fuel tanks PTB-3000). The aircraft is equipped with two AL-21F-3A turbojet engines with a thrust of 11,200 kgf each.

Armament - a 23 mm caliber cannon, on 8 suspension points it can carry air-to-surface and air-to-air missiles, adjustable and free-falling aerial bombs, as well as unguided aerial missiles, removable cannon installations, and tactical nuclear weapons.

Su-34 "Duckling"

The multifunctional fighter-bomber of the "4+" generation Su-34 (according to NATO classification - Fullback) is designed to carry out high-precision missile and bomb strikes, including using nuclear weapons, against ground and surface targets at any time of the day. The main attack aircraft of the Russian Aerospace Forces.

Su-34

Among the Russian military, the Su-34 received the nickname “Duckling” because of the nose of the aircraft, which resembles the beak of a duck.

The all-weather front-line bomber is a modernization of the Su-27 fighter. Chief designer - Rollan Martirosov.

The first flight took place on April 13, 1990. It was adopted by the Russian Air Force on March 20, 2014. Serially produced since 2006 at the Novosibirsk Aviation Plant named after V.P. Chkalova. Maximum speed - 1900 km/h, flight range - more than 4,000 km without refueling (7,000 km - with refueling), service ceiling - 14,650 meters. Armament - a 30 mm caliber cannon, on 12 hardpoints it can carry air-to-air and air-to-surface missiles of various types, unguided rockets and aerial bombs.

The aircraft is equipped with an in-flight refueling system. The Su-34 is equipped with two AL-31F M1 turbojet engines with a thrust of 13,300 kgf each in afterburner mode. The aircraft crew is 2 people.

According to information from open sources, in December 2014, the Russian Air Force had 55 Su-34 units in service. In total, the Russian Ministry of Defense intends to adopt 120 Su-34s.

Su-25SM "Rook"

The armored subsonic attack aircraft Su-25SM (according to NATO reporting name - Frogfoot-A), nicknamed "Rook", is designed for direct support of ground forces over the battlefield day and night with direct visibility of the target, as well as the destruction of objects with given coordinates around the clock in any weather conditions .

The aircraft differs from the base model of the Su-25 in the presence of an on-board sighting and navigation system PrNK-25SM "Bars" and equipment for working with the GLONASS satellite navigation system. The cockpit equipment has also been seriously updated - multi-function displays (MFDs) and a new head-up display (HUD) have been added in place of the old sights.

The Su-25SM is capable of using a wide range of ammunition, including precision weapons. The aircraft is equipped with a 30 mm double-barrel aircraft cannon GSh-30-2. The maximum flight speed near the ground is 975 km/h, the range of action is 500 km. The aircraft is equipped with two RD-195 turbojet engines with a thrust of 4,500 kgf each at maximum speed.

Su-25 became the most warlike aircraft Russian army. He participated in many military operations (Afghanistan, Angola, South Ossetia). It is the “Rooks” that leave plumes of colored smoke in the form of the Russian flag over Red Square at every Victory Parade.

Su-27SM

Su-27SM and MiG-29 at MAKS 2013

Multi-role fighter Su-27SM (according to NATO classification - Flanker-B mod.1). Designed to gain air superiority. The aircraft’s efficiency, compared to the base Su-27, has doubled when operating against air targets.

The Su-27SM is equipped with new avionics systems (avionics). The aircraft cockpit is equipped with multifunctional displays (MFDs). The range of used products has been expanded aviation assets lesions (ASP).

On Su-27SM3 type aircraft, two additional hardpoints are installed under the wing consoles.

Su-30SM

The task of the Su-30SM fighters (according to NATO classification - Flanker-H) is to cover bombers and attack aircraft striking at the positions of Daesh militants.

The two-seat multi-role heavy fighter of the "4+" generation was created on the basis of the Su-27UB through its deep modernization.

Su-30SM at MAKS 2015

Designed both for gaining air superiority and for striking ground and surface targets. The design of the aircraft uses the front horizontal tail (FH) and thrust vector control (TCV) engines. Thanks to the use of these solutions, the aircraft has super maneuverability.

The Su-30SM is equipped with a multifunctional radar station control system (RLSU) with a passive phased antenna array (PFAR) "Bars". The fighter's ammunition range includes a wide range of weapons, including air-to-air missiles and precision-guided air-to-surface weapons. The Su-30SM can be used as an aircraft for training pilots for promising single-seat fighters. Since 2012, the construction of these aircraft for the Russian Air Force has been underway.

The Su-30SM is capable of performing fighting associated with long range and flight duration and effective management a group of fighters.

The Su-30SM is equipped with an in-flight refueling system, new navigation systems, the group action control equipment has been expanded, and the life support system has been improved. Due to the installation of new missiles and a weapons control system, the combat effectiveness of the aircraft has been significantly increased.

Su-35S

The multi-role supersonic super-maneuverable fighter Su-35S belongs to the 4++ generation. It was developed in the 2000s by the experimental design bureau named after. BY. Sukhoi based on the Su-27 front-line fighter. The Su-35 made its first flight in 2008.

Su-35S fighters fly from Privolzhsky airfield to Syrian airbase Khmeimim

The aerodynamic design of the aircraft is made in the form of a twin-engine high-wing aircraft with a three-wheel retractable landing gear with a front strut. The Su-35 is equipped with AL-41F1S turbojet engines with an afterburner and a thrust vector controlled in one plane, which was developed on the basis of the AL-31F installed on Su-27 aircraft. Differs from its predecessor with an increased thrust of 14.5 tons (versus 12.5), b O longer service life and reduced fuel consumption.

The Su-35 has 12 external hardpoints for attaching high-precision missiles and bombs. Two more are for placing electronic warfare containers.

The Su-35's armament includes a whole range of air-to-air and air-to-surface guided missiles, as well as unguided missiles and aerial bombs of various calibers.

According to the nomenclature of bomber and unguided missile weapons The Su-35 in general is no different from today’s Su-30MK, but in the future it will be able to use improved and new models of aerial bombs, including those with laser correction. The maximum combat load weight is 8000 kg.

The fighter is also equipped with a GSh-30-1 cannon of 30 mm caliber (ammunition capacity - 150 rounds).

Long-Range Aviation aircraft based in Russia

Long-range supersonic missile carrier-bomber with variable wing geometry.

Designed to engage ground and sea targets with supersonic guided missiles at any time of the day and in any weather conditions.

Chief designer - Dmitry Markov. The first flight took place on June 22, 1977, in mass production launched in 1978, adopted by the USSR Air Force in March 1989.

The aircraft is equipped with two NK-25 turbojet engines, developing power with an afterburner of up to 25 tons. IN combat equipment aircraft can include: three supersonic rockets air-to-ground class, ten aeroballistic missiles to destroy enemy ground targets, as well as up to 12 tons of conventional or nuclear bombs, located in the fuselage and on the external sling. The aircraft is also equipped with defensive weapons - a GSh-23 cannon with a rate of fire of up to 4 thousand rounds per minute.

In total, about 500 Tu-22M of various modifications were built. The maximum speed of the aircraft is 2,300 km/h, the practical range is 5,500 km, the service ceiling is 13,500 m. The crew is 4 people. Can carry cruise missiles of various types with conventional or nuclear warheads.

Currently, aircraft of this model, which are in service with the Russian Aerospace Forces, are being repaired and modernized.

Tu-95MS

Turboprop strategic bomber-missile carrier - product “B”, according to NATO codification “Bear”.

Tu-95MS

Designed to destroy important targets with nuclear and conventional weapons in remote military-geographical areas and in the deep rear of continental theaters of military operations.

Chief designer - Nikolay Bazenkov. The aircraft was created on the basis of the Tu-142MK and Tu-95K-22. The first flight took place in September 1979. Adopted by the USSR Air Force in 1981.

Maximum speed is 830 km/h, practical range is up to 10,500 km, service ceiling is 12,000 meters. Crew - 7 people. Weapon - cruise missiles long range, 2 cannons of 23 mm caliber.

Currently, the Russian Aerospace Forces have about 30 units in service. Modernization to the Tu-95MSM version is underway, which will extend the service life of the aircraft until 2025.

Supersonic strategic missile-carrying bomber with variable wing geometry.

Designed to destroy the most important targets with nuclear and conventional weapons in remote military-geographical areas and in the deep rear of continental theaters of military operations.

Chief designer - Valentin Bliznyuk. The vehicle made its first flight on December 18, 1981, and was adopted by the USSR Air Force in 1987.

Maximum speed - 2,230 km/h, practical range - 14,600 km, service ceiling - 16,000 m. Crew - 4 people. Armament: up to 12 cruise missiles or up to 40 tons of air bombs. Flight duration is up to 15 hours (without refueling).

At least 15 aircraft of this type are in service with the long-range aviation of the Russian Aerospace Forces. By 2020, ten modernized Tu-160M ​​aircraft are expected to arrive.

Helicopters

Mi-8AMTSh "Terminator"

Mi-8AMTSh Terminator transport and attack helicopters are stationed at the Khmeimim air base. This is the latest modification of the well-known and proven military transport helicopter Mi-8.

"Terminator" is designed to destroy enemy equipment, including armored equipment, shelters and firing points, and manpower.

The range of ammunition used on board the Mi-8AMTSh, in addition to unguided weapons, includes high-precision weapons, in particular anti-tank guided missiles (ATGM) 9M120 "Attack" or 9M114 "Sturm". The helicopter can carry up to 37 paratroopers, up to 12 wounded on stretchers or transport up to 4 tons of cargo, perform search and rescue and evacuation operations.

The helicopter is equipped with two VK-2500 engines of increased power. Mi-8AMTSh are equipped with a set of means of protection against damage. The cockpit of the new helicopter is equipped with multifunctional indicators that display a digital map of the area, and the latest flight and navigation equipment that works with GPS and GLONASS navigation systems. Mi-8AMTSh helicopters are also distinguished by improved service life indicators, allowing significant savings on helicopter maintenance throughout the life cycle.

Crew - 3 people. Maximum speed - 250 km/h, flight range - up to 800 km, service ceiling - 6,000 meters.

Versatility and high performance characteristics have made Mi-8 helicopters one of the most popular Russian helicopters in the world.

The Mi-24P attack helicopter (according to NATO classification - Hind-F) is designed for visual surveillance and organization of a security zone in the area of ​​the Khmeimim airfield, as well as search and rescue operations. It is a modernized version of the Mi-24.

Each Mi-24P used in Syria carries four blocks of 20 unguided aircraft missiles. The helicopter is also equipped with guided missiles and a 30-mm double-barreled automatic aircraft cannon GSh-30K (ammunition - 250 rounds), capable of reaching speeds of up to 300 km/h and rising to a height of 4,500 meters. Can fly at extremely low altitudes up to 5 meters.

The helicopter made its first flight in 1974, mass production began in 1981.

The Mi-24P is designed to strike concentrations of manpower, combat equipment, including armored ones, and destroy low-flying, low-speed air targets.

The crews of the Mi-8AMTSh and Mi-24P helicopters are equipped with night vision goggles, which allows them to fly at night.

Weapons: bombs and missiles

Concrete-piercing bomb BETAB-500

The BetAB-500 concrete-piercing bomb was developed at the Basalt State Research and Production Enterprise. Designed for the destruction of concrete structures, bridges, naval bases. The main task of the bomb is to pierce the roof of a fortified facility; these could be underground fuel or weapons warehouses, or various concrete fortifications. BetAB-500 is capable of breaking through 1 meter of concrete buried 5 meters into the ground. In medium-density soil, this ammunition forms a crater with a diameter of 4-5 meters. Such parameters are achieved, firstly, due to the trajectory of the bomb falling - vertically downwards. After being dropped from an airplane, a special braking parachute opens at the ammunition, which directs the BetAB to the ground. In addition, when the parachute is fired, a rocket accelerator is activated in the tail of the bomb, which creates additional speed at which the ammunition meets the target. The mass of the bomb warhead is 350 kg.

BetAB has a reinforced shell compared to a conventional high-explosive bomb, which helps break through concrete and other fortifications.

Kh-29L and Kh-25ML missiles

The X-29 family of missiles were developed in the USSR and put into service back in 1980. Currently, the modernization and production of ammunition is carried out by the Tactical Missile Weapons Corporation.

Missiles of this type are designed to destroy ground targets such as strong aircraft shelters, stationary railway and highway bridges, industrial structures, warehouses, and concrete runways.

In the Kh-29L version, the missile is equipped with a laser homing head. In Syria, these missiles are used by Su-24M front-line bombers and Su-34 fighter-bombers.

The missile is equipped with a high-explosive penetrating warhead. Before launching a missile, the pilot can set the option for the missile to fire - instantaneous, upon contact of the missile with the target, or delayed firing.

The firing range of the Kh-29L missile is from 2 to 10 km.

The rocket has a powerful combat unit weighing 317 kg with mass explosive- 116 kg.

Kh-25 is an aviation guided multi-purpose air-to-surface missile equipped with a semi-active homing head (GOS). The Kh-25ML missile is equipped with a laser seeker.

Designed to destroy small targets both on the battlefield and behind enemy lines. Capable of breaking through up to 1 meter of concrete.

The maximum launch range is 10 km. Flight speed - 870 m/s. Warhead mass (warhead) - 86 kg.

KAB-500S

This adjustable bomb is designed for high-precision destruction of stationary ground targets - railway bridges, fortifications, communications centers. The bomb has high accuracy defeat due to the inertial-satellite guidance system. The ammunition can be used effectively both day and night in any weather.

The bomb can be dropped at distances from 2 to 9 km from the target and at altitudes from 500 meters to 5 km at a carrier aircraft speed of 550 to 1100 km/h. The mass of the bomb in different versions is 560 kg, the mass of the high-explosive concrete-piercing warhead is 360-380 kg.

The probable circular deviation of the bomb from the target, according to the Russian Ministry of Defense, is 4-5 meters, according to the manufacturer - from 7 to 12 meters.

KAB-500S has a fuse with three types of delay.

A direct hit from two such aerial bombs in Syria destroyed the headquarters of the Liwa al-Haq formation and immediately eliminated more than 200 militants.

OFAB of different weights

Free-fall high-explosive fragmentation bomb. It is used to destroy weakly protected military targets, armored and unarmored vehicles, and manpower. It is used from altitudes from 500 meters to 16 km.

In Syria, these munitions are used by Su-25SM attack aircraft.

Kh-555 cruise missile

Subsonic air-launched strategic cruise missile, modification of the X-55, equipped with a conventional warhead.

The missile is equipped with an inertial Doppler guidance system, which combines terrain correction with satellite navigation. X-555 can be equipped different types Warhead: high-explosive fragmentation, penetrating or cassette with different types of elements. Compared to the X-55, the weight of the warhead has been increased, which has led to a reduction in flight range to 2000 km. However, the X-555 can be equipped with conformal fuel tanks to increase flight range cruise missile up to 2,500 km. According to data from open sources, the circular probable deviation (CPD) of the missile ranges from 5 to 10 m.

According to data obtained from a video recording of the Russian Ministry of Defense, Kh-555 missiles were used from Tu-160 and Tu-95MS aircraft, which carried them in the intra-fuselage compartments.

Strategic missile carriers of these types are equipped with an MKU-6-5 drum-type launcher, which can carry 6 air-launched cruise missiles.

Cruise missile ZM-14

On October 7, 2015, three small missile ships of project 21631 of the Caspian flotilla (Uglich, Grad Sviyazhsk and Veliky Ustyug) and the patrol ship of project 11661K Dagestan launched 26 missiles at 11 ground targets located at a distance of about 1500 km . This was the first combat use of the missile system.

Included in the flotilla rocket ships projects 11661K and 21631 are equipped launchers tactical cruise missiles "Caliber" (according to NATO classification - SS-N-27 Sizzler).

The Kalibr missile system was developed and produced by the Novator Design Bureau in Yekaterinburg on the basis of the S-10 Granat complex, and was first introduced in 1993.

Ground-, air-, surface- and underwater-based complexes and export versions have been created on the basis of "Caliber". Currently different types"Caliber" complexes are in service with Russia, India and China.

Data on the maximum range of only the export version of the missile was officially disclosed; it is 275-300 km. In 2012, at a meeting with the President of Dagestan Magomedsalam Magomedov, Vice Admiral Sergei Alekminsky, who at that time held the post of commander of the Caspian Flotilla, said that the tactical version of the cruise missile of the Caliber complex (3M-14) could hit coastal targets at a distance of up to 2,600 km.

The performance characteristics of the 3M-14 missile are classified information and in open access are missing.

* Daesh - terrorist organization, banned in Russia*

Abbreviation VKS in Lately began to meet quite often. But for many people it is incomprehensible. And many people ask a logical question: what is videoconferencing? Well, it should be answered.

Definition

Another task is to manage satellite systems (both dual and purely military purposes). Launching spacecraft is also included in the list of responsibilities of the Aerospace Forces. The troops are also obliged to use all their forces and capabilities in order to provide the military and commanders-in-chief with the necessary information about what is currently happening (or not happening, this is also important) in the air and outer space. And finally, the forces undertake to maintain in working order the means by which they are launched.

As you can see, VKS must perform many tasks. This is indeed a very serious military unit. Therefore, serving in such troops is an honor and at the same time a responsibility.

HOW THE RUSSIAN MILITARY HELPED FIGHT TERRORISTS IN SYRIA

On March 14, 2016, Russian President Vladimir Putin ordered the withdrawal of the main Russian forces from Syria from March 15.

At the same time, two Russian bases- Khmeimim and Tartus. They will continue to monitor the ceasefire in coordination with foreign partners.

In total, the Russian operation in Syria lasted 5 months and 14 days, it involved formations of the Aerospace Forces (VKS) and the Navy (Navy) of the Russian Federation.

From September 30, 2015 to mid-February 2016, when ceasefire negotiations began (the agreement came into force on February 27), Russian aviation carried out more than 7.2 thousand sorties from the Khmeimim airbase, destroying over 12.7 thousand militant targets .

The support of the Russian Aerospace Forces allowed the Syrian government forces to stop the territorial expansion of terrorist groups and launch an offensive in the provinces of Hama, Idlib and Aleppo. In addition, thanks to Russian strikes, terrorists lost more than half of the income from oil illegally extracted in Syrian territory.

According to Defense Minister Sergei Shoigu, Russian troops killed more than 2 thousand militants from the Russian Federation in Syria, including 17 field commanders.

Combat losses The Russian Armed Forces consisted of three people, one plane and one helicopter.

How the Russian army fought and what diplomatic efforts are being made to ensure success military operation were acquitted,” according to TASS.

Main stages of the operation

On September 30, 2015, the Federation Council of the Russian Federation unanimously approved the request of Russian President Vladimir Putin to use the country's Armed Forces outside its territory. This decision made it possible to launch an operation of the Aerospace Forces (VKS) of the Russian Federation against terrorist groups." Islamic State" and "Jabhat al-Nusra" (banned in the Russian Federation) in Syria at the request of the country's President Bashar al-Assad.

Immediately after the decision of the Federation Council, a Russian aviation group stationed at the Syrian Khmeimim airfield launched the first targeted airstrikes against IS targets in the Syrian provinces of Homs and Hama.

In addition to the Russian Aerospace Forces, the Russian military was also involved in the operation. Navy. On the night of October 6-7, the ships of the Red Banner Caspian Flotilla of the Russian Navy from the Caspian Sea launched a massive strike with cruise missiles of the sea-based Kalibr complex against IS targets in Syria. 26 missiles were fired from the ships "Dagestan", "Grad Sviyazhsk", "Veliky Ustyug" and "Uglich".

On November 17, 2015, Putin demanded increased strikes Russian aviation in Syria. This happened after the head Federal service Security Alexander Bortnikov reported that the cause of the crash was the Russian airliner A321 in Egypt.

On the same day, in accordance with the assigned task, massive strikes were carried out on militant positions in Syria with air-launched cruise missiles and aerial bombs by the crews of the Long-Range Aviation of the Russian Aerospace Forces Tu-160, Tu-95 and Tu-22M3.

On November 20, Russia increased the air force participating in the operation to 69 aircraft. At the same time, the ships of the Caspian Flotilla launched 18 cruise missiles at seven terrorist positions, successfully hitting all targets.

On December 8, sea-based cruise missiles "Caliber" were launched for the first time from the submarine "Rostov-on-Don" from the water area Mediterranean Sea. As a result of the attack, two command posts IS in Raqqa province.

ISIS's income hits

In the first two months of the operation alone, 32 oil production complexes, 11 oil refineries, and 23 oil pumping stations were damaged. One thousand eighty tank trucks transporting petroleum products were destroyed. This made it possible to reduce the turnover of illegally extracted oil on Syrian territory by almost 50%.

According to Russian military data, the Islamic State's annual income from illegal oil sales amounts to about $2 billion a year.

Russia also accused Turkey's top leadership and President Recep Tayyip Erdogan personally of being involved in the illegal production and transportation of Syrian and Iraqi oil.

In turn, the head of the main operational directorate of the Russian General Staff, Sergei Rudskoy, said that the Russian Ministry of Defense has identified three main routes for transporting oil from Syria and Iraq to Turkey.

© Ministry of Defense of the Russian Federation

Combat losses

November 24, 2015 front-line bomber Su-24M ( tail number"83 white", registration number RF-90932) of a special aviation group of the Russian Aerospace Forces in Syria was shot down by an F-16 fighter of the Turkish Air Force on Syrian territory.

The pilots managed to eject, ground fire was opened on them, and the pilot, Lieutenant Colonel Oleg Peshkov, was killed.

According to the Turkish side, the bomber was shot down due to a violation of the airspace of this country. The Russian Ministry of Defense denied the fact that the Su-24M crossed the Turkish border.

Russian Aerospace Forces helicopters flew out to search for the pilots; during the operation, one of them (Mi-8AMTSh) was damaged by shelling from the ground, and a contract marine, sailor Alexander Pozynich, died on board. The helicopter made an emergency landing on neutral territory, the crew and personnel of the search and rescue group were evacuated, and the vehicle itself was later destroyed by mortar fire from territory controlled by gangs.

On February 1, 2016, as a result of a mortar attack by IS terrorists on a military garrison where one of the Syrian army units was stationed, a Russian military adviser was mortally wounded.

Coordination in the sky

The military operation required coordination with the countries of the region, as well as with the United States, which leads the coalition against the Islamic State, which has been fighting in Iraq and Syria since the fall of 2014.

The only party with which Russia had problems was Türkiye.

Putin instructed Russian Foreign Minister Sergei Lavrov to intensify Russia's participation

Lavrov, in turn, reported to the president that the operation of the Aerospace Forces contributed to the creation of conditions for the political process in Syria. The Foreign Minister recalled that Russia has consistently advocated the establishment of inter-Syrian dialogue.

It is noteworthy that the diplomatic process in Syria sharply intensified precisely with the start of the Russian military operation. Russia succeeded in bringing Iran into the negotiations, something Moscow had been insisting on since the beginning of the Syrian conflict in 2011. For the first time, the head of the Iranian Foreign Ministry joined negotiations on the Syrian settlement on October 30, 2015 in Vienna.

The second meeting in Vienna took place on November 14. Its participants agreed to facilitate the holding of a meeting between the delegations of the Syrian government and the opposition by January 1, 2016, in order to later reach the creation of a transitional governing body and begin preparations for the development of a new constitution. This process, according to the work developed in Vienna, " road map", should take about 18 months.

Peace talks were due to resume in Geneva in late January - early February 2016. However, the parties to Once again could not reach a compromise. Negotiations were “paused.”

The situation changed dramatically after the conclusion of the armistice agreement, which was agreed upon at the initiative of Russia and the United States. The ceasefire agreements do not apply to the Islamic State and Jabhat al-Nusra groups and other groups designated as terrorist by the UN Security Council. Russia and the United States are jointly monitoring compliance with the terms of the ceasefire.

This opened up a chance to start a new round of negotiations, which would not have been possible if not for the efforts that Russia has made on the diplomatic and military front over the past months.

What weapons did the Russian Federation use?

Initially included Russian group included 48 aircraft and helicopters, including Su-34 and Su-24M bombers, Su-25 attack aircraft, Su-30SM and Su-35S fighters, Mi-8 and Mi-24 helicopters.

The agreement on the deployment of a Russian aviation group at the Khmeimim airfield in Syria was concluded on August 26, 2015. The presence of Russian aviation, according to the document, “is defensive in nature and is not directed against other states.” The contract is concluded for an indefinite period.

The military operation also involved long-range aviation aircraft of the Russian Aerospace Forces Tu-160, Tu-95 and Tu-22M3 and about 10 ships of the Russian Navy.

On November 26, 2015, an anti-aircraft gun was deployed to the Khmeimim airfield. missile system S-400 "Triumph" to protect the Russian air group.

1">

1">

Su-24M "FENCER"

The main strike force of the Russian air group in Syria is the modernized Su-24M front-line bomber.

The Su-24 (according to NATO classification - Fencer-D) is a front-line bomber with a variable-sweep wing; it received the nickname “Fencer” for its elongated nose. Designed to carry out missile and bomb strikes in simple and adverse weather conditions, day and night, including at low altitudes. Chief designer - Evgeniy Felsner.

The plane made its first flight in 1976. The bomber is equipped with a special computing subsystem SVP-24 "Hephaestus", adopted for service in 2008, which expands the aircraft's capabilities to search and destroy targets. The Su-24M is capable of flying at low altitude and following the terrain. The bomber can strike both ground and surface targets using a wide range of ammunition, including high-precision weapons, including adjustable aerial bombs (KAB). The maximum flight speed at the ground is 1250 km/h, the ferry flight range is 2,775 km (with two PTB-3000 external fuel tanks). The aircraft is equipped with two AL-21F-3A turbojet engines with a thrust of 11,200 kgf each.

Armament - a 23 mm caliber cannon, on 8 suspension points it can carry air-to-surface and air-to-air missiles, adjustable and free-fall aerial bombs, as well as unguided aerial missiles, removable cannon installations. Can carry tactical nuclear bombs on board.

Currently, the Su-24 and its modifications are in service with the Russian Air Force, as well as Azerbaijan, Kazakhstan, Uzbekistan and Ukraine. About 120 modified units are planned to be replaced by the Su-34 by 2020.

© Ministry of Defense of the Russian Federation

Su-34 "DUCKING"

The multifunctional fighter-bomber of the "4+" generation Su-34 (according to NATO classification - Fullback) is designed to carry out high-precision missile and bomb strikes, including the use of nuclear weapons, against ground and surface targets at any time of the day. The main attack aircraft of the Russian Aerospace Forces.

Among the Russian military, the Su-34 was nicknamed "Duckling" due to the nose of the aircraft, which resembles a duck's beak.

The all-weather front-line bomber is a modernization of the Su-27 fighter. Chief designer - Rollan Martirosov.

The first flight took place on April 13, 1990. It was adopted by the Russian Air Force on March 20, 2014. Serially produced since 2006 at the Novosibirsk Aviation Plant named after V.P. Chkalova. Maximum speed - 1900 km/h, flight range - more than 4,000 km without refueling (7,000 km - with refueling), service ceiling - 14,650 meters. Armament - a 30 mm caliber cannon, on 12 hardpoints it can carry air-to-air and air-to-surface missiles of various types, unguided rockets and aerial bombs.

The aircraft is equipped with an in-flight refueling system. The Su-34 is equipped with two AL-31F M1 turbojet engines with a thrust of 13,300 kgf each in afterburner mode. The aircraft crew is 2 people.

According to information from open sources, in December 2014, the Russian Air Force had 55 Su-34 units in service. In total, the Russian Ministry of Defense intends to adopt 120 Su-34s.

© Ministry of Defense of the Russian Federation

Su-25SM "GRACH"

The armored subsonic attack aircraft Su-25SM (NATO reporting name - Frogfoot-A), nicknamed "Rook", is designed for direct support of ground forces over the battlefield day and night with direct visibility of the target, as well as the destruction of objects with given coordinates around the clock in any weather conditions .

The aircraft differs from the base model of the Su-25 in the presence of an on-board sighting and navigation system PrNK-25SM "Bars" and equipment for working with the GLONASS satellite navigation system. The cockpit equipment has also been seriously updated - multi-function displays (MFDs) and a new head-up display (HUD) have been added in place of the old sights.

The Su-25SM is capable of using a wide range of ammunition, including precision weapons. The aircraft is equipped with a 30 mm GSh-30-2 double-barreled aircraft cannon. The maximum flight speed at the ground is 975 km/h, the flight radius is 500 km. The aircraft is equipped with two RD-195 turbojet engines with a thrust of 4,500 kgf each at maximum speed.

The Su-25 has become the most combative aircraft in the Russian army. He participated in many military operations (Afghanistan, Angola, South Ossetia). It is the “Rooks” that leave plumes of colored smoke in the form of the Russian flag over Red Square at every Victory Parade.

© Ministry of Defense of the Russian Federation

Su-27SM

Multi-role fighter Su-27SM (according to NATO classification - Flanker-B mod.1). Designed to gain air superiority. The aircraft's efficiency has doubled compared to the base Su-27 when operating against air targets.

The Su-27SM is equipped with new avionics systems (avionics). The aircraft cockpit is equipped with multifunctional displays (MFDs). The range of aircraft weapons used has been expanded.

On Su-27SM3 type aircraft, two additional hardpoints are installed under the wing consoles.

Su-30SM

The task of the Su-30SM fighters (according to NATO classification - Flanker-H) is to cover bombers and attack aircraft that strike the positions of Islamic State militants.

The Russian two-seat multirole heavy fighter of the "4+" generation was created on the basis of the Su-27UB through its deep modernization.

Designed both for gaining air superiority and for striking ground and surface targets. The design of the aircraft uses the front horizontal tail (FH) and engines with thrust vector control (TCV). Thanks to the use of these solutions, the aircraft has super maneuverability.

The Su-30SM is equipped with a multifunctional control radar station (RLCS) with a Bars passive phased array antenna (PFAR). The fighter's ammunition range includes a wide range of weapons, including air-to-air missiles and precision-guided air-to-surface weapons. The Su-30SM can be used as an aircraft for training pilots for advanced single-seat fighters. Since 2012, the construction of these aircraft for the Russian Air Force has been underway.

The Su-30SM is capable of performing combat operations involving long range and flight duration and effective control of a group of fighters.

The Su-30SM is equipped with an in-flight refueling system, new navigation systems, the group action control equipment has been expanded, and the life support system has been improved. Due to the installation of new missiles and a weapons control system, the combat effectiveness of the aircraft has been significantly increased.

© Ministry of Defense of the Russian Federation

Su-35S

The Russian multi-role supersonic super-maneuverable fighter Su-35S belongs to the 4++ generation. It was developed in the 2000s by the experimental design bureau named after. BY. Sukhoi based on the Su-27 front-line fighter. The Su-35 made its first flight in 2008.

The aerodynamic design of the aircraft is made in the form of a twin-engine high-wing aircraft with a three-wheel retractable landing gear with a front strut. The Su-35 is equipped with AL-41F1S turbojet engines with an afterburner and a thrust vector controlled in one plane.

The 117C engine is responsible for the super-maneuverability of the Su-35. It was developed on the basis of its predecessors AL-31F, installed on Su-27 aircraft, but differs from them in increased thrust of 14.5 tons (versus 12.5), longer service life and reduced fuel consumption.

The Su-35 has 12 external hardpoints for attaching high-precision missiles and bombs. Two more are for placing electronic warfare containers.

The Su-35's armament includes a whole range of air-to-air and air-to-surface guided missiles, as well as unguided missiles and aerial bombs of various calibers.

In terms of the range of bomber and unguided missile weapons, the Su-35 is generally no different from today’s Su-30MK, but in the future it will be able to use improved and new models of aerial bombs, including those with laser correction. The maximum combat load weight is 8000 kg.

The fighter is also equipped with a GSh-30-1 cannon of 30 mm caliber (ammunition capacity - 150 rounds).

© TV channel "Zvezda"

Long-range aviation

Tu-22M3

Long-range supersonic missile carrier-bomber with variable wing geometry.

Designed to engage ground and sea targets with supersonic guided missiles at any time of the day and in any weather conditions.

Chief designer - Dmitry Markov. The first flight took place on June 22, 1977, it went into serial production in 1978, and was adopted by the USSR Air Force in March 1989.

In total, about 500 Tu-22M of various modifications were built. The maximum speed of the aircraft is 2,300 km/h, the practical range is 5,500 km, the service ceiling is 13,500 m. The crew is 4 people. Can carry cruise missiles of various types with conventional or nuclear warheads.

Currently, aircraft of this model, which are in service with the Russian Air Force, are being repaired and modernized.

© Ministry of Defense of the Russian Federation

Tu-95MS

Turboprop strategic missile-carrying bomber.

Designed to destroy important targets with nuclear and conventional weapons in remote military-geographical areas and in the deep rear of continental theaters of military operations.

Chief designer - Nikolay Bazenkov. The aircraft was created on the basis of the Tu-142MK and Tu-95K-22. The first flight took place in September 1979. Adopted by the USSR Air Force in 1981.

Maximum speed is 830 km/h, practical range is up to 10,500 km, service ceiling is 12,000 meters. Crew - 7 people. Armament - long-range cruise missiles, 2 23 mm cannons.

Currently, the Russian Aerospace Forces have about 30 units in service. Modernization to the Tu-95MSM version is underway, which will extend the service life of the aircraft until 2025.

© Ministry of Defense of the Russian Federation

Tu-160

Supersonic strategic missile-carrying bomber with variable wing geometry.

Designed to destroy the most important targets with nuclear and conventional weapons in remote military-geographical areas and in the deep rear of continental theaters of military operations.

Chief designer - Valentin Bliznyuk. The vehicle made its first flight on December 18, 1981, and was adopted by the USSR Air Force in 1987.

Maximum speed - 2,230 km/h, practical range - 14,600 km, service ceiling - 16,000 m. Crew - 4 people. Armament: up to 12 cruise missiles or up to 40 tons of air bombs. Flight duration is up to 15 hours (without refueling).

At least 15 aircraft of this type are in service with the long-range aviation of the Russian Aerospace Forces. By 2020, ten modernized Tu-160M ​​aircraft are expected to arrive.

© Ministry of Defense of the Russian Federation

Helicopters

Mi-8AMTSH "TERMINATOR"

Mi-8AMTSh Terminator transport and attack helicopters are stationed at the Khmeimim airbase. This is the latest modification of the well-known and proven military transport helicopter Mi-8.

"Terminator" is designed to destroy enemy equipment, including armored equipment, shelters and firing points, and manpower.

The range of ammunition used on board the Mi-8AMTSh, in addition to unguided weapons, includes high-precision weapons, in particular anti-tank guided missiles (ATGM) 9M120 "Attack" or 9M114 "Sturm". The helicopter can carry up to 37 paratroopers, up to 12 wounded on stretchers or transport up to 4 tons of cargo, perform search and rescue and evacuation operations.

The helicopter is equipped with two VK-2500 engines of increased power. Mi-8AMTSh are equipped with a set of means of protection against damage. The cockpit of the new helicopter is equipped with multifunctional indicators that display a digital map of the area, and the latest flight and navigation equipment that works with GPS and GLONASS navigation systems. Mi-8AMTSh helicopters are also distinguished by improved service life indicators, allowing significant savings on helicopter maintenance throughout the life cycle.

Crew - 3 people. Maximum speed - 250 km/h, flight range - up to 800 km, service ceiling - 6,000 meters.

Versatility and high performance characteristics have made Mi-8 helicopters one of the most popular Russian helicopters in the world.

Mi-24P

The Mi-24P attack helicopter (NATO classification - Hind-F) is designed for visual surveillance and organization of a security zone in the area of ​​the Khmeimim airfield, as well as search and rescue operations. It is a modernized version of the Mi-24.

Each Mi-24P used in Syria carries four units of 20 unguided aircraft missiles. The helicopter is also equipped with guided missiles and a 30-mm double-barreled automatic aircraft cannon GSh-30K (ammunition - 250 rounds), capable of reaching speeds of up to 300 km/h and rising to a height of 4,500 meters. Can fly at extremely low altitudes from 5 to 10 meters.

The helicopter made its first flight in 1974, mass production began in 1981.

The Mi-24P is designed to strike concentrations of manpower, combat equipment, including armored ones, and destroy low-flying, low-speed air targets.

The crews of the Mi-8AMTSh and Mi-24P helicopters are equipped with night vision goggles, which allows them to fly at night.

Bombs and rockets

1">

1">

(($index + 1))/((countSlides))

((currentSlide + 1))/((countSlides))

CONCRETE BOMB BETAB-500

The BetAB-500 concrete-piercing bomb was developed at the Basalt State Research and Production Enterprise. Designed for the destruction of concrete structures, bridges, naval bases. The main task of the bomb is to pierce the roof of a fortified facility; these could be underground fuel or weapons warehouses, or various concrete fortifications. BetAB-500 is capable of breaking through 1 meter of concrete buried 5 meters into the ground. In medium-density soil, this ammunition forms a crater with a diameter of 4-5 meters. Such parameters are achieved, firstly, due to the trajectory of the bomb falling - vertically downwards. After being dropped from an airplane, a special braking parachute opens at the ammunition, which directs the BetAB to the ground. In addition, when the parachute is fired, a rocket accelerator is activated in the tail of the bomb, which creates additional speed at which the ammunition meets the target. The mass of the bomb warhead is 350 kg.

BetAB has a reinforced shell compared to a conventional high-explosive bomb, which helps break through concrete and other fortifications.

ROCKETS KH-29L AND KH-25ML

The X-29 family of missiles were developed in the USSR and put into service back in 1980. Currently, the modernization and production of ammunition is carried out by the Tactical Missile Weapons Corporation.

Missiles of this type are designed to destroy ground targets such as strong aircraft shelters, stationary railway and highway bridges, industrial structures, warehouses, and concrete runways.

In the Kh-29L version, the missile is equipped with a laser homing head. In Syria, these missiles are used by Su-24M front-line bombers and Su-34 fighter-bombers.

The missile is equipped with a high-explosive penetrating warhead. Before launching a missile, the pilot can set the option for the missile to fire - instantaneous, upon contact of the missile with the target, or delayed firing.

The firing range of the Kh-29L missile is from 2 to 10 km.

The missile has a powerful warhead weighing 317 kg with an explosive mass of 116 kg.

Kh-25 is an aviation guided multi-purpose air-to-surface missile equipped with a semi-active homing head (GOS). The Kh-25ML missile is equipped with a laser seeker.

Designed to destroy small targets both on the battlefield and behind enemy lines. Capable of breaking through up to 1 meter of concrete.

The maximum launch range is 10 km. Flight speed - 870 m/s. Warhead mass (warhead) - 86 kg.

KAB-500S

This adjustable bomb is designed for high-precision destruction of stationary ground targets - railway bridges, fortifications, communications centers. The bomb is highly accurate due to its inertial-satellite guidance system. The ammunition can be used effectively both day and night in any weather.

The bomb can be dropped at distances from 2 to 9 km from the target and at altitudes from 500 meters to 5 km at a carrier aircraft speed of 550 to 1100 km/h. The mass of the bomb in different versions is 560 kg, the mass of the high-explosive concrete-piercing warhead is 360-380 kg.

The probable circular deviation of the bomb from the target, according to the Russian Ministry of Defense, is 4-5 meters, according to the manufacturer - from 7 to 12 meters.

KAB-500S has a fuse with three types of delay.

A direct hit from two such aerial bombs in Syria destroyed the headquarters of the Liwa al-Haq formation, and more than 200 militants were immediately eliminated.

OFAB DIFFERENT WEIGHTS

Free-fall high-explosive fragmentation bomb. It is used to destroy weakly protected military targets, armored and unarmored vehicles, and manpower. It is used from altitudes from 500 meters to 16 km.

In Syria, these munitions are used by Su-25SM attack aircraft.

CRUISE MISSILE X-555

Subsonic air-launched strategic cruise missile, modification of the X-55, equipped with a conventional warhead.

The missile is equipped with an inertial Doppler guidance system, which combines terrain correction with satellite navigation. The X-555 can be equipped with different types of warheads: high-explosive fragmentation, penetrating or cassette with different types of elements. Compared to the X-55, the mass of the warhead was increased, which led to a reduction in the flight range to 2000 km. However, the X-555 can be equipped with conformal fuel tanks to increase the cruise missile's flight range to 2,500 km. According to data from open sources, the circular probable deviation (CPD) of the missile ranges from 5 to 10 m.

According to data obtained from a video recording of the Russian Ministry of Defense, the Kh-555 missiles were used from Tu-160 and Tu-95MS aircraft, which carried them in the intra-fuselage compartments.

Strategic missile carriers of these types are equipped with an MKU-6-5 drum-type launcher, which can carry 6 air-launched cruise missiles.

CRUISED MISSILE ZM-14

On October 7, 2015, 3M-14 cruise missiles of the Caliber NK complex were successfully used during the Russian military operation in Syria.

Three small missile ships of Project 21631 of the Caspian flotilla (Uglich, Grad Sviyazhsk and Veliky Ustyug) and the Project 11661K patrol ship Dagestan fired 26 missiles at 11 ground targets located at a distance of about 1,500 km. This was the first combat use of the missile system.

The missile ships of projects 11661K and 21631 included in the flotilla are equipped with launchers of tactical cruise missiles "Caliber" (according to NATO classification - SS-N-27 Sizzler).

The Kalibr missile system was developed and produced by the Novator Design Bureau in Yekaterinburg on the basis of the S-10 Granat complex, and was first introduced in 1993.

Ground-, air-, surface- and underwater-based complexes and export versions have been created on the basis of "Caliber". Currently, different types of Caliber complexes are in service with Russia, India and China.

Data on the maximum range of only the export version of the missile was officially disclosed; it is 275-300 km. In 2012, at a meeting with the President of Dagestan Magomedsalam Magomedov, Vice Admiral Sergei Alekminsky, who at that time held the post of commander of the Caspian Flotilla, said that the tactical version of the cruise missile of the Caliber complex (3M-14) could hit coastal targets at a distance of up to 2,600 km.

The tactical and technical characteristics of the 3M-14 missile are classified information and are not publicly available.

2019 TASS information agency (registration certificate mass media No. 03247 issued April 2, 1999 G state committee Russian F Federation of Press)

Some publications may contain information not intended for users under 16 years of age.