Archieves Damen-Schelde Naval Shipbuilding POWERING THE WORLD S NAVIES

Archieves Damen-Schelde Naval Shipbuilding POWERING THE WORLD S NAVIES

ROYAL NORWEGIAN NAVY SUPPLY VESSEL 2 x Wärtsilä 6L46F main engines 2 x Wärtsilä 6L32 generating sets 2 x Wärtsilä SVC110-PDCT 65 gearboxes 2 x Lipstronic 7000 propeller system controls 2 x WCP-4E1300 propeller system and shaftlines 2 x Wärtsilä FT175M tunnel thrusters Wärtsilä Sternguard seals Wärtsilä Sternsafe bearings Courtesy of BMT Defence Services Wärtsilä enhances the business of its naval customers by providing innovative products and integrated solutions that are safe, environmentally sustainable, efficient, flexible, and economically sound. Our solutions are developed based on our customers needs and include products, systems and services. Being a technology leader, and through the experience, knowhow and dedication of our personnel, we are able to customise optimised solutions for the benefit of our clients around the world. WÄRTSILÄ SHIP POWER POWERING THE WORLD S NAVIES AND COAST GUARDS Our experience in providing propulsion and powering solutions for Navy and Coast Guard vessels is long standing: more than 90 countries entrust Wärtsilä with the supply of equipment for their naval fleet. Many of Wärtsilä products meet special naval requirements such as noise reduction and shock resistance. At Wärtsilä we optimise a vessel s efficiency by looking at the whole picture. We study the vessel s power and propulsion systems, the integrated automation systems, and the way that the vessel will be operated and maintained. SERVICES WORLDWIDE You can have the entire power or propulsion system fully serviced by one global supplier. We are continuously developing our global service network, solutions, products and specialist services worldwide to support equipment on board your vessels or power plant installations. Our Services & Support solutions range from basic support, installation and commissioning, performance optimization, upgrades, conversions and environmental solutions to service projects and agreements focusing on overall equipment performance and asset management. We deliver our services through our service stations, workshops and ship repair centres that form our service network in 70 countries worldwide. 2

CHILEAN NAVY COAST GUARD PZM OPVs Comandante Toro 2 x Wärtsilä 12V26 A2 main engines 2 x Wärtsilä SCV62 gearboxes 2 x Lipstronic 7000 propeller system controls 2 x WCP-4D775 propeller system and shaftlines Wärtsilä Enviroguard and Wärtsilä Floodguard seals COMPLETE PROPULSION SOLUTIONS Wärtsilä has set forward a new approach to the lifecycle of the vessel by getting involved at all stages, from ship design to new buildings or repowering of the complete propulsion system and finally for the services of the ship. The global question behind the design of a vessel is the efficiency of the propulsion system. According to Wärtsilä, everything starts from the interaction between the hull and the propulsors. Then significant total savings can be found by optimizing the propeller design and matching it with the prime movers. Engine selection is another key element to improve the overall efficiency. Wärtsilä offers the configuration which provides the ability to match and run the engines close to optimum efficiency. Wärtsilä aims to deliver the optimum total solution and performance tailored to the specific operating profile of the vessel as defined by the end-user. Courtesy of Chilean Navy THE BENEFIT OF EXPERIENCE Wärtsilä provides complete integrated propulsion systems and dedicated support: System integration capability Close cooperation with marine institutes to provide hydrodynamic studies Technical abilities to meet specific naval requirements Through-life cost studies Integrated Logistic support (ILS) Preventive and corrective maintenance Courtesy of Babcock International ONE SUPPLIER: WÄRTSILÄ The benefits of having a single supplier throughout the entire life cycle of the vessel, from conceptual design to construction and operation provide value: One supplier one responsibility One single point of contact = Wärtsilä Reduced unforeseen incompatibilities Classification for complete systems Integrated system documentation Production schedule discipline Warranty handling IRISH NAVY SAMUEL BECKETT CLASS OPV Lé Samuel Beckett 2 x Wärtsilä 16V26 main engines 2 x Wärtsilä SCH68-SDC51 PTI gearboxes 2 x Lipstronic 7000 propeller system controls 2 x WCP-5C09 propeller system and shaftlines Wärtsilä Enviroguard seals Wärtsilä Envirosafe bearings 3

ENGINES The design of the Wärtsilä medium- speed engine range is based on the vast amount of knowledge accumulated over years of successful operation. Robust engines and generating sets, developed from pioneering heavy fuel technology, have been engineered to provide unquestionable benefits for the owners and operators of naval vessels. These benefits include: Reliability and low maintenance costs High thermal efficiency and low emissions Modular construction and reduced parts count Ergonomic interfaces Minimised consumables Cylinder liner with Anti-Polishing Ring Extended time between overhauls (up to 24,000 hours between top overhauls) Common Rail Technology Emission compliant with IMO Tier II All services from spare parts to reconditioning available from Wärtsilä s global network. ENGINE PERFORMANCE Wärtsilä 4-stroke engines utilize the latest developments in turbo-charging technology, which enables Miller valve timing and the Variable Inlet Valve Closing (VIC) system to be employed. At full-load operation, early closure of the inlet valves enables a low effective compression ratio, and as a result, comparatively low temperatures at the end of the compression stroke. The charge air, being both somewhat expanded and cooled on its way through the receiver into the cylinders, has a low global temperature that is still high enough to guarantee reliable and stable ignition of the fuel/air mixture in the combustion chamber. Due to the quick expansion of the combustion gases, high temperatures that are most critical to the formation of intensive NO X within the combustion chamber are rapidly abated. This combination creates a combustion process that is not only environmentally friendly, but also extremely efficient as the high expansion ratio produces the conditions needed for efficient utilization of the heat energy released by combustion at the beginning of the power stroke. 4 Wärtsilä 26 engine COMMON RAIL FUEL INJECTION TECHNOLOGY However, it is not only the choice of the compression/expansion ratio that makes Wärtsilä engines highly efficient. All versions of the engine are equipped with fuel injection systems that allow adjustment of the injection characteristics to the prevailing load conditions. The advanced common-rail fuel injection system offers the freedom to control and fine-tune the injection process. This enables full use of the engine s loading potential over a wide power range in order to achieve optimum fuel economy. Similarly, this freedom offered by the flexible fuel injection equipment can be utilized to adjust the engine to the existing limitations of exhaust gas emissions, to minimize smoke formation. Thermal load and mechanical stress levels are kept within the safety margins established by Wärtsilä over decades of engine development. FRENCH NAVY MISTRAL CLASS BPC Tonnerre 3 x Wärtsilä 16V32 generating sets 1 x Wärtsilä 18V200 generating set Navigation system & interior communications Wärtsilä Oceanguard and Sternguard seals Courtesy of Dominique Pipet Generating set with low noise acoustic enclosure COMPLIANCE WITH ENVIRONMENTAL REGULATIONS Environmental issues, especially emissions reduction and fuel consumption, have become increasingly important in the shipping sector where enforcement of environmental regulations, at both global and local levels, has notably increased. This puts pressure on the marine industry to constantly explore new ways of reducing the environmental impact of ships. Wärtsilä creates added value for its customers by providing products, solutions and services that fulfill their needs and expectations. The development of high-quality, reliable, and environmentally sound solutions and services has come as a result of long- term collaboration and continuous interaction with our customers. We provide service support to ensure optimal performance throughout the product lifecycle. The upgrading of installed products can also extend their service life.

Courtesy of ACA noise -15 db/-20 db ROYAL NAVY QUEEN ELIZABETH CLASS HMS Queen Elizabeth 2 x 16V38 generating sets 2 x 12V38 generating sets 1 x 12V200 generating set Wärtsilä Hamworthy Membrane BioReactor Systems Wärtsilä Enviroguard seals shock 10 mm/12 g vibration -10 db/-20 db shock 65 mm/210 g Wärtsilä is expert in the engineering of generating sets for naval applications GENERATING SETS Wärtsilä provides generating sets complete with alternators mounted on a common base-frame which meet our customers requirements for shock, noise and vibration levels. By utilising double mounting arrangements and acoustic enclosures naval standards are met and exceeded. Wärtsilä generating sets are in operation with many of the world navies providing electric power for diesel-electric propulsion and onboard ship services. INTEGRATED ELECTRIC PROPULSION (IEP) Engines from Wärtsilä s 20, 26, 32 and 38 range are driving IEP on the seven seas. Our customers include the Royal Navy with the Queen Elizabeth Class future aircraft carrier! Wärtsilä s reputation of excellence in the field is long established with the delivery of more than 50 generating sets used for the IEP of naval applications. vibration -30 db/-40 db AUXILIARY & EMERGENCY GENERATING SETS A wide range of generating sets is available for the supply of electric power for the vessel hotel load. Additionally, the reliability and efficiency of Wärtsilä products have convinced our customers to fit our generating sets within their scope of equipment for the electrical power source in emergency situations. ENGINEERING EXPERTISE The remaining and most efficient means of decreasing the force transmissibility, from the excitation source to the machinery foundation, can be achieved through the mounting of the noise sources in accordance with the following main design features: Installation of the engine, generator and auxiliaries on a common base frame. A static and dynamic analysis of the base frame design (stiffness of the seatings below the engine and generator fittings, natural frequencies and mode shapes) is generally done through a Finite Element Model. Selection of the number of resilient mount stages; at least one stage of resilient mounts between the common base frame and the machinery foundation on the ship s hull plating. If needed, in addition to the previous stage,a second resilient mounts stage is fitted between the engine and the base frame (and for some applications, between the generator and the base frame). Selection of the type of resilient mounts (natural frequencies generally in the range of 3 to 10 Hz, displacement capability from 10 mm up to 70 mm for some Navy applications with shock requirements). Design of the auxiliaries fitting and pipe clamping, which may have a significant influence on the resilient mounting efficiency. For some projects, an acoustic enclosure might be needed when the noise level in the engine room has to be below the standard engine airborne noise, or when the vibrations have been reduced to a very low level whereupon the underwater radiated noise may be influenced by the airborne noise of the diesel-generating set. 5

SPANISH NAVY F100 FRIGATES Alvaro de Bazan 2 x WCP-5C14N propeller system Wärtsilä Enviroguard and Floodguard seals Wärtsilä Envirosafe bearings ROYAL NAVY RIVER CLASS OPVs HMS Clyde 2 x WCP-5C08 propeller system and shaftlines Wärtsilä Enviroguard seals Courtesy of Navantia ROYAL RESEARCH SHIP Discovery 4 x Wärtsilä 8L20 generating sets 2 x Wärtsilä LMT-FS2510 retractable thrusters 1 x Wärtsilä LMT-FS200 retractable thrusters Wärtsilä Low Loss concept Wärtsilä Sternguard seals CONTROLLABLE PITCH PROPELLERS The Wärtsilä Controllable Pitch propeller systems have been developed to provide outstanding reliability, low operating costs, environmental friendliness, easy installation/ integration, and intuitive operating control. The increasing demand in stealth and shock resistance capabilities for fighting vessels leads to a definite necessity of enhancement on the already reliable technology used for commercial vessels. Navy applications often need tailor made solutions based on standard equipments in order to meet the typical very severe requirements such as high shock resistance, low noise and vibration levels. To fulfil such tough requirements, Wärtsilä, in cooperation with specialists in electronics or well known large water tank and cavitation tunnel facilities, has developed special features and designs. 6 PROPULSION TECHNOLOGIES The Wärtsilä Controllable Pitch propeller system consists of a hub, the propeller blades, shafting, hydraulics and a remote control system, as well as any further accessories needed to meet the navies requirements. The technologies available include: Advanced design by finite element method (FEM) and Computational Fluid Dynamic (CFD) giving high accuracy when designing the shock resistance capability and vibration modes of our installations Small hub size with reduced weight Increased loading capacity Compliant with EPA Vessel General Permit 2013 requirements Easy service (hub disassembly without pulling shaft REDUCED FUEL CONSUMPTION The Wärtsilä Controllable Pitch OPTI Design is the result of highly experienced design engineers in our European R&D headquarters having access to the very latest and most sophisticated software and analysis tools. Computational Fluid Dynamic (CFD) analyses of 3D geometries, analyse not only the propeller performance but most importantly also, the interaction between the propeller and hull. This provides extremely accurate information for achieving design and parametric optimisation. This state-of-the-art design protocol optimises the vessel s overall propulsive efficiency. OPTI Design can provide fuel savings of up to 4 percent. With each WCP propeller being individually customised to meet specific application requirements, the vessel s EEDI/ EEOI is improved. This in turn leads to reduced exhaust emissions.

CHILEAN NAVY RESEARCH VESSEL Cabo de Hornos 3 x Wärtsilä 8L20 generating sets 1 x WFP propeller system and shaftline Wärtsilä Sternguard seals IAS (Integrated Automation System) main switchboard 690 V 2 x electric motors transformers Courtesy of BAE Systems Courtesy of Asmar 150 140 db re 1mPa at 1m (1Hz band) 130 120 110 100 90 80 ICES 209 Wärtsilä equipped research vessels 70 10 100 1000 10 000 100 000 Frequency (Hz) Underwater radiated noise curves of different vessels equipped with a Wärtsilä propeller, versus the ICES 209 curve, at 11 knots. WÄRTSILÄ S HYDRODYNAMIC DESIGN EXPERIENCE Our long history and experience in designing propellers gives us extensive hydrodynamic knowledge, and we have developed design tools validated by a large number of model test results, full-scale measurements, and research and development efforts. Co-operation with well known research institutes and universities worldwide ensures our prime position when it comes to propulsor hydrodynamics. Special noiseless blade profiles allowing cavitation free (i.e. silent) propellers up to speeds of 22 knots. Such blade designs and profiles are tested in partnership with the leading large cavitation tunnel facilities to achieve the highest level of underwater radiated noise and cavitation prediction. INTERNATIONAL COUNCIL FOR THE EXPLORATION OF THE SEA (ICES) For research ships, the Cooperative Research Project n 209 from the International Council for the Exploration of the Sea (ICES) [RB Mitson, Underwater Noise of Research Vessels, Review and Recommendations, 1995] gives recommendations on the underwater radiated noise. The main objective of these recommendations is to define a spectrum of acceptable underwater radiated noise levels to avoid any disturbance of the natural distribution of the fish but also to ensure that the fish target distributions and echo integrator results are free of bias due to high frequency noise. The noise levels should be measured for a ship sailing at 11 knots. PROPELLERS FOR RESEARCH SHIPS All the parts of a vessel contribute to the underwater radiated noise, the active inner parts (such as machinery) as well as the passive outer parts (the hull and its appendages) due to turbulence in the flow on these surfaces. The propellers become one of the essential sources of noise with the increasing vessel speed because of the occurrence and the extension of the cavitation phenomenon which increases dramatically the noise levels at all frequencies. The graphic shows the underwater radiated noise curves of different vessels equipped with Wärtsilä propellers, versus the ICES 209 curve, at 11 knots. 7

US NAVY - LEWIS AND CLARK T-AKE CLASS USNS Lewis and Clark, T-AKE11 1 x WFP propeller system and shaftline Wärtsilä Enviroguard and Floodguard seals Turning gear Photo in public domain. COLOMBIAN NAVY PZM OPV 7 de Agosto 2 x Wärtsilä 6L26 main engine 2 x Wärtsilä SCV56 gearboxes 2 x Lipstronic 7000 propeller system controls 2 x WCP-4D650D propeller system and shaftlines Wärtsilä Enviroguard seals Wärtsilä Envirosafe bearings FIXED PITCH PROPELLERS The Wärtsilä Fixed Pitch Propeller (FPP) OPTI Design is based on years of proven experience, more than 10,000 FPPs have been produced. They are designed using the most advanced technology and state-of-the- art equipment to ensure the highest possible levels of performance and efficiency. As a result, the end-user gain the benefits of lower operating costs and a reduced environmental footprint through less fuel consumption and fewer exhaust emissions. By being able to thoroughly analyse both propeller performance and the propellerhull interaction, we provide maximised efficiency. Model tests can be reduced and full-scale performance can be covered. It is simply a better propeller design concept that meets the needs of today s market. To ensure the highest fatigue strength, Wärtsilä maintains complete control over the production process. The result is optimal efficiency limits to minimise the weight. Wärtsilä has developed more than 25 different bronze alloys for marine propellers, the most commonly used being Cunial bronze. This copper, nickel, and aluminium alloy has unparalleled durability and reliability. Casting is an extremely complex procedure, and in order to assure a successful casting process, solidification simulation software is used for the more difficult geometries. The propellers can be produced with any required number of blades in diameters up to 12 meters. Both the propellers and shaft lines are designed to meet every possible Ice Class notation and are compliant with environmentally acceptable lubricants (EAL), as required for propulsors operating in US inland and coastal waters. GEARBOXES Wärtsilä gearbox design and production facility is based upon proven technology and experience. Our gears covers a power range of 1 to 25 MW for single input gearboxes with vertical or horizontal offset (with more than 350 gear configurations available), and 2 to 35 MW for twin input-single output type of gearboxes (with more than 100 gear configurations available). MAIN CHARACTERISTICS AND FEATURES Modular and flexible design Compact and reliable Plain bearings 8

FINNISH BORDER GUARD OPV Turva 1 x Wärtsilä 12V34DF main engine 2 x Wärtsilä 6L34DF main engines Wärtsilä Airguard and Wärtsilä Sternguard seals Courtesy of Cotecmar Courtesy of Meyer Turku Oy and Finnish Border Guard Rigid housing structure: Small deformation Low stress levels Cast iron or welded Low noise and vibrating levels Precision ground gearwheels with profile correction: Good load distribution over the gear tooth Low noise Optional PTO/PTI solutions Optional built-in multiple plate type of clutch Combined oil system for gear and propeller (for sizes 50 to 95) The gearbox range is designed and developed with package solutions in mind and optimized for installation with Wärtsilä engines and propulsion equipment. FIRST PATROL VESSEL IN THE WORLD POWERED BY LNG The Finnish Border Coast Guard next generation OPV uses liquefied natural gas (LNG) with low emission levels and diesel oil as fuels, which keeps the ship s own emissions small. The Turva is powered by three eco-friendly Wärtsilä 34DF dual-fuel engines burning either crude oil-based marine fuels or liquefied natural gas (LNG). The engines can alternate among fuels without loss of power or speed. In the design of the vessel, special attention has been paid to environmentally friendly and energy-efficient solutions. As well as performing border management duties, the multipurpose vessel will serve in maritime search and rescue missions and demanding environmental safety operations such as oil spill response. NEW REQUIREMENTS ON SHIP EMISSIONS The International Maritime Organization (IMO) has approved amendments to the MARPOL Annex VI regulations on ship emissions. These regulations set stricter limits on emissions of Nitrogen Oxides (NOx) from the engines, as well as on the sulphur content of the fuel. The new requirements will enter into force in various phases during the years 2010 2020. Wärtsilä 4-stroke engines are fully compliant with the IMO Tier II exhaust emissions regulations and can also be equipped with a SCR catalyst to meet IMO Tier III NOx emission levels. Being at the forefront of technological developments gives Wärtsilä many opportunities arising from the tightening environmental regulations. Wärtsilä has a multifaceted gas engine strategy, and can provide gas engines for vessels. Wärtsilä multi-fuel solutions provide full control over fuel choice without compromising performance. 9

INDIAN NAVY KAMORTA CLASS CORVETTE INS Kamorta 2 x WCP-5C10 propeller system and shaftlines Wärtsilä Enviroguard and Floodguard seals Wärtsilä Envirosafe bearings ROYAL NEW ZEALAND NAVY CANTERBURY CLASS MRV, HMNZS Canterbury 2 x Wärtsilä 9L32 main engines 2 x Lipstronic 7000 propeller system controls 2 x WCP-4D1000 propeller system and shaftlines 2 x Wärtsilä CT175 transverse thrusters Wärtsilä Sternguard seals Courtesy of GRSE ROYAL NAVY ASTUTE CLASS SSN Wärtsilä Diveguard seals Wärtsilä Envirosafe bearings PROPULSION CONTROL SYSTEMS Whichever Wärtsilä power and propulsion systems you choose, we provide a single control system. The new generation of Lipstronic 7000 provides more effective load control and secures optimal performance of the engine and propulsor. It is a unique combination of knowhow and experience from a supplier of propulsion systems, engines and control systems. With its fully adjustable and easy-to-use set of parameters, Lipstronic 7000 is a single solution for all propulsion systems: Controllable pitch propellers Waterjets Steerable thrusters Transverse thrusters Engine safety system Rudder control system Joystick system STEERABLE THRUSTERS Wärtsilä steerable thrusters are delivered in modular, retractable, underwater mountable and containerized designs in fixed pitch and controllable pitch executions. They are designed, manufactured and delivered in close cooperation with the customer. Wärtsilä steerable thrusters generate considerable savings in cost due to their reliable and durable components, efficient propeller and maintenance-friendly design. TRANSVERSE THRUSTERS Wärtsilä transverse thrusters can be equipped with fixed pitch or controllable pitch propellers. Their design and layout have been directed towards easy inspection and maintenance, which in turn leads to minimum maintenance costs. 10

Courtesy of BAE Systems Australia SEALS, BEARINGS & STERN TUBES Our Seals & Bearings product portfolio is the most comprehensive in the market, and we continuously develop innovative, environmentally compliant and longer lasting new products. At the same time, our global service network can provide the fastest response in the business, providing expertise anywhere in the world at very short notice when necessary. Ship owners and operators are looking for solutions to reduce their maintenance costs in the highly contested shipping market. On one hand, this means a growing price consciousness regarding spare parts, but on the other hand it also means that ship owners and operators are increasingly looking beyond the initial outlay and searching for longer lasting performance and lifecycle cost efficiency. LIFECYCLE EFFICIENCY As the seals & bearings solution provider with the widest range of products, both oil and water lubricated, Wärtsilä is uniquely positioned to help ship owners find solutions for improving lifecycle efficiency. Our complete product portfolio, technology know-how, constant innovation and a global service network means that we can always find the ideal solution for the customer instead of being forced to push a single technology for every need. RISK REDUCTION The positive, agile and flexible attitude adopted in Wärtsilä Seals& Bearings, is our way to ensure we can say yes to customers requests and offer the fastest service in the industry. The ability to be positive comes from an agile and flexible way of organising our operations. With our shipyard customers this means having our technological know-how in the frontline so that they can get quick answers to their questions, requests for quotations etc. For ship owners and operators it is a matter of knowing that, when needed, they can count on our global field service network s fast response to get uptime on their vessels. ENVIRONMENTAL LEADERSHIP Developments in environmental legislation are leading to a growing demand for environmental upgrades for existing vessels. Wärtsilä is able to answer these needs and assume full responsibility for service and maintenance over the entire vessel lifecycle. With the needed service capability and resources in place globally and armed with a deep understanding of different ship systems, we are ready to take on even large conversion projects involving extensive dismantling of the vessel. Courtesy of BAE Systems 11

WATERJETS Wärtsilä is the leading supplier of AXIAL flow stainless steel waterjets for high end applications: design and engineering of these waterjets combine advanced technology, reliability and ease of maintenance. Wärtsilä proposes also non-axial waterjets, successfully delivered worldwide since the 1970s. WÄRTSILÄ AXIAL WATERJETS Wärtsilä axial flow waterjets are a line of single stage compact high performance waterjets combining mixed flow properties with an axial build. The result is reduced transom occupation with highly increased cavitation margins. AVERAGE 25% REDUCED TRANSOM OCCUPATION Jet sizes are indicated by the front side diameter of the impeller seat ring. Nonaxial designs expand in a radial direction downstream directing the flow through the jet over a less efficient path. This results in a large transom flange diameter and often difficulties with fitting the jet in the available space either in width or height. The Wärtsilä axial waterjet series takes away all disadvantages by minimizing transom occupation and by offering an average 25% smaller diameter of the transom mounting flange. SOUTH AFRICAN NAVY VALOUR CLASS MEKO-A200 CORVETTES, SAS Amatola 2 x WCP-5C09N propeller system and shaftlines 1x LJ210E waterjet Wärtsilä Steerguard seals TKMS, Blohm + Voss GmbH UP TO 10% LOWER WEIGHT The reduced transom size not only results in reduced dimensions, but also gives a substantial lower weight of the installation. If this is combined with our welded jet construction allowing further weight optimizations, savings can be as high as 15% compared to non-axial build jet designs. AVERAGE 10% HIGHER ROTATIONAL SPEED = 10% LESS TORQUE Compared with non-axial design the rotational speed of the impeller is on average 10% higher while the impeller tip speed is still lower. The lower torque can give both weight and cost savings for couplings, shafts and gearboxes. LARGER MARGINS FOR OPERATING FLEXIBILITY AND MANOEUVRING The cavitation margins of the pump are shifted backwards with at least 35%. Due to this increase in cavitation margin and the lower impeller tip speed, more power can be allowed during manoeuvring resulting in a 15% higher manoeuvring thrust. Furthermore with the additional cavitation margin, operation with a reduced number of shaft lines is possible at a higher load of the remaining engines resulting in better operating flexibility. INCREASE IN POWER ABSORPTION AT MANOEUVRING During manoeuvring engines operate in a critical zone and waterjets tend to absorb increased power at a lower rotational speed of the impeller. The result is a high load for the engine resulting in smoke and an increased thermal load. The increase in power absorption of the Wärtsilä axial jet series is up to 70% Wärtsilä waterjet LJ210E, reverse bucket lower than of competing designs. DESIGN LAYOUTS All jet designs are available in a steering/ reversing (SR), reversing only (R) and booster execution (B). On request, Wärtsilä can supply designs for special applications for instance giving thrust in all directions 360 degree or offering shock compliant installations. The key benefits of the axial technology are valid for all executions. WÄRTSILÄ NON-AXIAL WATERJETS The non-axial E-type waterjet is still available in the Wärtsilä product portfolio for those applications requiring extreme speeds. 12

US ARMY & US NAVY SPEARHEAD CLASS JHSV, USNS Spearhead 4 x WLD1400SR waterjet Wärtsilä Jetguard seals Four large steering and reversing Wärtsilä 2 X LJ160E and 2 X LJ150E waterjets are used in the propulsion system of the USS Independence (LCS-2). The ship, with an overall length of 127 m and full load displacement of 2,637 tons, is an innovative combatant designed to operate in shallow water environments to counter challenging threats in coastal regions, specifically mines, submarines and fast surface craft. LCS-2 is capable of speeds in excess of 40 knots and can operate in water less than 20 feet deep. US NAVY INDEPENDENCE CLASS LCS USS Independance 2x LJ150E waterjet for the wing propulsion lines 2x LJ160E waterjet for the centre propulsion lines Wärtsilä Floodguard and Wärtsilä Jetguard seals Courtesy of AUSTAL Courtesy of AUSTAL HYBRID OR WARP SYSTEMS Unique to Wärtsilä is the delivery of various hybrid or Waterjet And Refined Propeller (WARP) systems. These systems combine controllable pitch propellers with a waterjet. The benefit is that the largest parts of the total installed vessel power can be absorbed by the waterjet. Despite the high amount of power the dimensions of the jet remain relatively small due to the high allowed power density compared to a propeller. With the jet taking most of the total vessel power, the propellers can remain small in diameter as well limiting the draft of the vessel. The result is a very attractive operational profile. The propellers are fully optimized for lower cruising speeds delivering optimum efficiency with low noise and vibrations. At the same time the combination of the waterjet and the propellers still gives access to higher speeds when required. Hybrid systems were delivered for various yachts with total vessel power up to 32 MW and for Navy vessels up to 28 MW. INCREASED CAVITATION MARGIN AT LOW SPEED Waterjet thrust and vessel resistance [relative, dimensionless] 100 90 80 70 60 50 40 30 20 10 WLD - AXIAL FLOW CONTINUOUS CAVITATION LIMIT LJ - MIXED FLOW CONTINUOUS CAVITATION LIMIT VESSEL RESISTANCE 10 15 20 25 30 35 40 45 Speed [knots] Full throttle = 100% MCR 95% MCR 90% MCR 85% MCR 80% MCR 75% MCR 70% MCR 65% MCR 60% MCR 55% MCR 50% MCR 45% MCR 40% MCR 35% MCR 30% MCR 25% MCR 20% MCR Increased cavitation margin at low speed shows the cavitation limit line for the WLD axial flow design (orange) and the LJ mixed flow design (blue). The area in between the lines is thus the achieved gain in cavitation margin for the new design. INCREASED PERFORMANCE In order to be able to respond to oncoming threats, Navy and Coastguard operators alike expect greater flexibility from their vessels. This being for fast acceleration where the waterjet needs to rapidly convert the engine power into thrust (particularly for planning hulls) as well as for low patrolling speeds where the waterjet needs to be able to operate for longer periods without restriction from cavitation. The Wärtsilä WLD range of waterjets permits prolonged continuous operation at low speeds without restriction. 13

WASTE & FRESH WATER MANAGEMENT Wärtsilä Water Systems set the global standards in waste management by being the world s leading manufacturer of marine sewage treatment plants and fresh water generation, ensuring naval ships can operate worldwide with minimal potential for regulatory constraints. ROYAL NAVY DARING CLASS TYPE 45 DESTROYERS, HMS Daring 1 x 12V200 generating sets Wärtsilä Hamworthy Membrane BioReactor Systems Wärtsilä Enviroguard seals MBR TECHNOLOGY Wärtsilä Hamworthy s innovative MBR technology is based on biological degradation and membrane separation and allows for the treatment of grey and black water to satisfy the most stringent standards. The process produces the highest quality discharge without requiring any addition or generation of chemicals that are hazardous to the environment or ship operation. Effluent quality tests conducted by the US National Sanitary Foundation on Wartsila Hamworthy s MBR produced results exceeding the most stringent future legislative pollutant standards envisaged. The technology also achieved outstanding performance in Alaska under the scrutiny of the local authority, USCG and USEPA studies over the past seasons. The membrane permeate quality exceeds the most stringent coliform standards even without additional UV or chemical disinfection. The latest system optimisation has achieved over 25% savings on energy consumption and consumables, and over 50% reduction in operational manhours. Satellite communication allows the MBR systems to be remotely monitored by specialists as part of our fleet support program. PROVEN CAPABILITIES Wärtsilä Hamworthy supplied MBRs to Type 45 Anti Air Warfare destroyers, whose primary role is the protection of ships, carriers, auxiliaries and merchant vessels from air, surface and subsurface threats. Specific MoD requirements for the work cover shock resistance, special safety obligations, reduced noise levels and Electromagnetic Compatibility (EMC) testing for electronics. Courtesy of BAE Systems Wärtsilä Hamworthy MBT technology for naval applications 14

ROYAL FLEET AUXILIARY - SUPPLY VESSEL 2 x Wärtsilä 6L46F main engines 2 x Wärtsilä 6L32 generating sets Courtesy of BMT Defence Services WÄRTSILÄ SERVICES Optimising your operations and preventing the unexpected is our shared passion we serve you whenever, wherever. Companies now focus on efficiency and impact of their operational expenses. Wärtsilä Services serves and supports customers in improving and optimising their operational efficiency throughout the whole lifecycle of the installation. Wärtsilä Services provides full service throughout the product lifecycle for naval customers, and constantly develops its network worldwide. We offer lifecycle efficiency solutions in the following areas of expertise: Engine services Propulsion services Electrical & automation services Boiler services Environmental services Service agreements Service projects Training services Our services cover everything from basic support with parts, field service and technical support to service agreements and condition based maintenance; from installation and commissioning, performance optimisation, including upgrades and conversions, to environmental solutions, technical information and online support. The choice available to you extends from parts and maintenance services to a variety of comprehensive, customized long-term service agreements, including performance and operations & management agreements. Additionally, we are continually broadening our range of services by adding valuable solutions and specialist services to our portfolio. In this way we support you around the globe through our workshops and in key ports, regardless of your equipment make. Our Services organisation currently features more than 11,000 dedicated professionals in 70 countries. Wärtsilä adds value to your business at every stage in the lifecycle of your installation. With us as your service partner, you receive many measurable benefits such as availability and performance, productivity gains and cost benefits. Above all, peace of mind in the knowledge that your installation is being serviced by the most experienced partner you could have Wärtsilä. 15

Wärtsilä Ship Power, Navy 3 bd de la Loire BP 97511 4275 Nantes Cedex 2, France Tel: +33 2 40 41 16 02, Fax: +33 2 40 41 16 00 Email: wld@wartsila.com www.wartsila.com/navy Wärtsilä is a global leader in complete lifecycle power solutions for the marine and energy markets. By emphasising technological innovation and total efficiency, Wärtsilä maximises the environmental and economic performance of the vessels and power plants of its customers. Wärtsilä is listed on the NASDAQ OMX Helsinki, Finland. WÄRTSILÄ is a registered trademark. Copyright 2014 Wärtsilä Corporation. 11.2014 Bock s Office Wärtsilä service network