Frag Out! Magazine

Frag Out! Magazine #07 PL

Frag Out! Magazine

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konstrukcyjnymi. Firma Jakusz sp. z o.o. wspólnie z Instytutem Lotnictwa oraz licznymi Instytutami i firmami bierze czynny udział w tych programach. Nadtlenek wodoru ma także wiele bardziej przyziem- nych zastosowań. Może być wykorzystany na przy- kład do doładowywania silników spalinowych. Nic nie stoi na przeszkodzie, by użyć go w czołgach – co- raz cięższych, z coraz większymi silnikami, ale potrze- bujących chwilowego nadmiaru mocy w sytuacjach krytycznych. Zwiększenie mocy silnika poprzez po- danie do niego nadtlenku wodoru może ułatwić czołgowi wjechanie pod strome wzniesienie czy też wykonanie gwałtownego manewru, który pozwoli uciec z celownika przeciwnikowi. Nadtlenek wodoru może być także wykorzystany pod wodą – dosko- nale sprawdza się jako paliwo do silników dronów (ogniwa energetyczne) czy okrętów podwodnych (jako utleniacz dla klasycznych silników tłokowych). Low Life Cycle Costs (LCC) From the start our ILS (Integrated Logistic Support) organisation has had an extremely strong influence on our work relating to deve- lopment. Backed up by a modern support system special attention was given to minimising the total costs of training, maintenance and handling at the base or onboard ship. Based on ILS analyses a modular construction was produced, which simplifies future upgrading. In this way the torpedo system can remain effective far into the coming decades. Tactical possibilities The active/passive homing system was developed to detect difficult targets, for example small underwater targets lying on the bottom of the Baltic, the inland sea that places the world's highest demands on hydroacoustic homing systems. The Baltic is noted for shallow waters in its archipelagos, varied bottom topography and variations in temperature and salt layers. The difficult hydroacoustic environment has led to the development of a homing system with long range, multi-lobe function and with a target analyser that discriminates thousands of false targets and at the same time operates against several real targets. The system is also resistant to countermeasures. This in combination with the effective wire communication link between the fire control and the tor- pedo gives the system high tactical flexibility and very high hit probability against all type of targets, both on and under the surface. Fundamental to the tactical/operational effectiveness of the complete torpedo system is that it has the same performance both when exercising and in action and that it is used in the same way at the base and by the submarine crew. Homing system The system is optimised for difficult targets in dif- Torpedo 2000 System Torpedo 2000 is a completely new design it is the result of almost 100 years of developing and manufacturing torpedoes together with our customer's operational and tactical requirements that are built into the system. Extensive firing tests in realistic conditions, in cooperation with the Swedish Navy, has show that the requirements that were placed on each development phase have been fulfilled and exceeded. • high tactical effectiveness in both shallow and deep waters • high level of safety when handling at the base or onboard • high level of countermeasures resistance • high speed and long range • low acoustic signature • low weight • low LCC Warhead Homing Head Safety Device Impact Fuze Electronics Proximity Fuze Target Analysis Computer Engine Control Wire Dispenser Single Core CU-wire Optional Optical Fibre Fuel Tank Engine Steam Generator Compressor, Condenser Alternator, Pumps HTP Tank Pump-Jet Propulsor Servos Rudders Wire Outlet Main Data Diameter 21" (533 mm) Length 6 m Weight 1450 kg Speed / Range 45+ kn/50+ km Operational Depth 500+ m ZAAWANSOWANE TECHNOLOGIE

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