Post on 15-May-2020
INCAT COMPANY PROFILE
1 Incat Company Profile
Sitting at the cutting edge of environmentally friendly craft Incat provide optimal lightweight ship solutions for ferry operators, special service providers and militaries. From fast, flexible and efficient vehicle-passenger ferries to high-speed military support vessels, crew ships and dynamic platforms, Incat sets the global benchmark in aluminium ship technology.
With the continuing emphasis on eco operations and fuel efficiency Incat has continued to develop the breed with
lightweight, environmentally friendly fuel-efficient ships carrying heavier vehicle loads than ever before and at the lowest operational costs.
Incat’s shipyard is on Prince of Wales Bay at Derwent Park near Hobart, Tasmania, Australia. The facility incorporates more than 70,000 m2 of undercover production halls, with two dry-dock areas capable of accommodating up to six vessels under construction. A reputation for quality and excellence in production is supported by an experienced and dedicated workforce.
Incat takes ownership of the customer’s specific needs ensuring on-time delivery of the right ship for the right job.
Australian shipbuilder Incat is renowned for construction of high speed lightweight catamarans.
The Incat production facility
Wilsons and Coverdales shedsINCAT PROFILE
CHAIRMAN'S REPORT
Change in the shipping world’s environmental regulations is a positive for Incat and the high speed industry. Our design and engineering team have long been focused on maximising efficiency and fuel economy, and will continue to lead the way.The advantage of lightweight construction can be a bonus whether it is for high speed or with lower installed power and lower speed for an economical fuel saving operation.
Talk to our team about what Incat can offer for your transport service.
Robert Clifford AO Chairman
Incat Company Profile 2
Incat has come a long way since the September 1977 launch of our first high-speed catamaran at Prince of Wales Bay in Tasmania, 200 metres from our present site. The journey forward takes us through to today’s generation of large Ro-Pax wave piercing catamarans, including the world’s fastest ship, which is also the world’s first high speed Ro-Pax ferry operated on environmentally friendly LNG.
Early challenges, with the introduction to service of prototype craft, were met and improvements made on production vessels. Our aim is to continue to improve the breed. The desire to improve is evident in our dedicated designers and tradespeople, ensuring that each ship delivered is significantly better than the last.
CHAIRMAN'S MESSAGE
With four building halls, extensive wharf facilities, a slipway and two dry-dock areas, Incat boasts innovative production facilities to construct, launch and deliver small craft through to larger ships of 150 metres length and of panamax beam.
With Incat vessels proven in regular service we have achieved an excellent reputation for safety, speed, reliability, efficiency and ride. These factors, and importantly passenger comfort, are paramount to us in designing and constructing the world’s best fast ships.
Applications are diverse; whether commuter ferries, large passenger and freight ships, military and coastguard craft, or workboats for the offshore industry; whether it's for calm waters or heavy seas, the Incat product offers optimum transport solutions.
3 Incat Company Profile
Incat Australia Pty Ltd Incat Chartering Pty Ltd Investment, Ship Sales & CharterManaging Director Craig CliffordcCraigtor:
Incat Holdings LimitedChairmanRobert Clifford
Incat Marketing Pty LtdMarketing & Public RelationsManaging Director Kim Clifford
Incat Tasmania Pty LtdGroup Company Secretary Chris Stennard
Aerial view of the Incat yardBOARD OF DIRECTORS
CHAIRMAN'S REPORT
Incat Company Profile 4
research the company commenced specialisation in aluminium construction.
In 1983 the wave piercing design was conceived, the 8.7 metre prototype craft Little Devil (013) first undergoing trials in 1984. The results encouraged International Catamarans to proceed with a 28 metre Wave Piercing Catamaran (WPC), Spirit of Victoria (016), which entered commercial operation in mid 1985. Tassie Devil 2001 (017) was launched in December 1986. The current range of WPC still reflects the characteristics of these early craft.
The Incat group of companies is privately owned, with shares held by the founder and chairman of the board Robert Clifford, the Clifford family, company directors and employees.
The Incat group evolved from other boat building companies, including the Sullivans Cove Ferry Company (SCFC) formed by Robert Clifford in 1972. SCFC built conventional steel mono-hull vessels, and operated small ferries across Hobart’s Derwent River. SCFC gained prominence transporting more than 9 million passengers in the two years following the 1975 Tasman Bridge collapse, the sole bridge link between the eastern and western shores of Hobart.
After the bridge re-opened, International Catamarans Pty Ltd specialised in the construction of fast ferries. After extensive
INCAT THE HISTORY
Development 0f passenger/vehicle ferries
Tassie Devil 2001 (017)
Little Devil (013)
CHAIRMAN'S REPORT
5 Incat Company Profile
Three ships to win the trophy all built by the same shipyard.
Record held for over 30 years.
The Hales Trophy for the fastest transatlantic crossing by a passenger ship is not only a test of speed, but a test of endurance and reliability.
The past three trophy winners, all built by Incat, each in turn earned the right to fly the prestigious Blue Riband. Since 1998, Cat-Link V (049) has held the Hales Trophy with a record of 41.284 knots.
The essence of the Blue Riband dates back to the 1830s, when ships fought for the honour of being the fastest transatlantic liner. To encourage innovation in passenger transport and formalise the Blue Riband, Harold Hales, a British MP, commissioned and donated a four foot high, heavily gilded solid silver trophy, known as the Hales Trophy, in 1935.
The last big liner to win the trophy was the SS United States on its maiden voyage in 1952, averaging 35.59 knots.
In 1990 Incat’s Hoverspeed Great Britain (025) broke SS United States’ 38 year old record. The 74 metre Incat Wave Piercing,
July 1998 - Hull 049 Cat-Link V
3 TIMES A CHALLENGER!
3 TIMES A WINNER!
car-carrying catamaran established the record of three days, seven hours and 52 minutes averaging 36.97 knots. The win fulfilled the original purpose of the trophy to encourage the continued development of technology and design in passenger shipping.
Eight years later Incat-built Catalonia (047), on a longer route from New York to Spain, raised the average speed to 38.85 knots also becoming the first commercial vessel to cover over 1000 nautical miles in 24 hours.
Just one month later, in July 1998, Cat-Link V (049) broke the 40 knot barrier with a new record speed of 41.284 knots. For the first time, three ships to win the trophy in succession had been built by the same shipyard.
HALES TROPHY
Incat Company Profile 6
Jeremiah Ryan (001)
An Incat Wave Piercing Catamaran is easy to recognise thanks to its distinctive centre bow.
The design of an Incat Wave Piercing Catamaran (WPC) is a constant evolution. With each incremental increase in waterline length comes a myriad of modifications to the design, however the vessels within each generation are far from identical with a range of configuration, fit-out, and performance variations evident.
The Centre Bow
The main role of the centre bow is to act as a shock absorber for oncoming seas. Normally the centre bow is above the design
Outline of the corresponding bow section on 112m Wave Piercing Catamaran
Increasing the bowclearance results in a24% reduction in the bow impact load
Improving the bow�are angle results in afurther 21% reductionin the fore body sideImpact loads
96m Wave Piercing Catamaran
waterline. As the ship pitches into waves, the buoyancy force provided by the immersion of the centre bow causes the vessel to reduce its pitching motion by acting as a huge damping system.
Continual development over vessel generations has led Incat to design the centre bow to provide even more lift in the initial stages of wave encounter. The arch between the centre bow and the wave piercer bows has been modified on later craft to obtain more freeboard and to have less flat surface.
The centre bow is the first part of the ship that encounters waves, passengers are therefore cushioned from damaging accelerations by the action of the bow engaging large waves.
The result – a smoother ride.
Saint John Paul II (089)
Since the first 74 metre high speed passenger and vehicle
ferry was delivered to the UK in 1990, there has been
a gradual but constant incremental increase in vessel
waterline length and deadweight, while still maintaining
the high speed that Incat is famous for. Payload has
increased significantly as the vessel length has increased.
Incat craft have universal appeal offering fast transit, fast
turnaround in port, flexibility and versatility in vehicle deck
layout, passenger comfort, shallow draft, minimal crewing
numbers and reliable and economic operation.
A great diversity of craft has been built, from yachts to
large Wave Piercing Catamarans. Incat vessel generations
have progressed through to the current designs -
70 metre, 85 metre, 98 metre, 112 metre and 130 metre.
Diversification within this range is evident with variance
in passenger numbers, vehicle and freight capacity and
configuration. A great diversity of galley and other support
facilities are possible to suit each owner’s operational and
route profiles. Several new designs have also been added
to the under 50m range.
Product improvements and lessons learnt from decades working with the commercial sector have enabled Incat to deliver proven and tested craft.
PRODUCT DEVELOPMENT
7 Incat Company Profile
2020
1990
109-112 98-99 96 91 86+85 81 78 74 70 Under 50
Hull 094Hull 093Hull 091
Hull 095
Hull 089 Hull 092
Hull 088 Hull 090, 087, 086,085, 084, 083, 082
Hull 081, Hull 080, Hull 079, Hull 078
Hull 068 Hull 076, Hull 075
Hull 067 Hull 069 Hull 074 Hull 073
Hull 066 Hull 072
Hull 065
Hull 064
Hull 062 Hull 063
Hull 061
Hull 060Hull 059
Hull 058 Hull 057
Hull 056
Hull 055 Hull 053Hull 052
Hull 051 Hull 050
Hull 049Hull 048Hull 047
Hull 046
Hull 045Hull 044Hull 043Hull 042
Hull 041Hull 040Hull 038
Hull 035Hull 034
Hull 037Hull 036
Hull 033
Hull 032Hull 031Hull 030
Hull 028Hull 024
Hull 027,026,025,
023
PAX & HEAVY FREIGHT PAX & LIGHT FREIGHT PAX & CARS PAX
K CLASS
CREWBOAT
130m
112m
98m
96m
96m
91m
85 - 86m
81m
78m
74m
1000
TONNES
2000 3000 4000
74m
STRUCTURE MACHINERY OUTFIT DEADWEIGHT
130m
112m
98m
96m
96m
91m
85 - 86m
81m
78m
74m
1000
TONNES
2000 3000 4000
74m
STRUCTURE MACHINERY OUTFIT DEADWEIGHT
Incat Company Profile 8
Progressive Development
CHAIRMAN'S REPORT
9 Incat Company Profile
Incat is proud to count the world’s finest skilled technicians amongst our workforce. High performance vessels require high quality welding and the training of welders, development of appropriate welding procedures, and advanced testing techniques are essential to Incat’s continued success. The purpose-built TAFE College of Metal Fabrication is situated adjacent to the yard for even greater convenience.
Plate Shop
High-strength marine grade aluminium alloy, sourced in structural sections and plate from specialist suppliers in Australia, France and Switzerland, arrive at the plate shop where it is purpose cut using software proprietary to the cutting equipment on site. Nesting plans are generated to extract a useable part from every stock piece of material.
Pre-fabrication
The Inches shed is mainly used for manufacturing of vessel components and it is to here that materials are delivered from the plate shop ready for pre-fabrication. This is also where the smaller vessels are constructed.
The benefits of pre-fabrication are immense. Components can be rotated and by selecting orientation, the number of down-hand welds can be increased which in turn shortens welding time. Bulk plating, where the longitudinal structure extrusions are welded to the shell plate, means that welding is only required at transverse frames when these units are lifted into position.
Up to six vessels can be handled simultaneously in two drydocks which includes the ability to house construction of larger vessels up to 150 metres in length.
Like any thriving business, a core of dedicated and loyal staff can be found at the centre of Incat’s success. With high levels of job satisfaction, Incat ensures a low staff turnover rate and a skilled workflow where many team members' experience stretches back over two decades across a range of trades.
PRODUCTION LINE
Incat's world beating Wave Piercing Catamarans are created through a production line system at the dedicated 70,000 m2 undercover facility.
CHAIRMAN'S REPORT
Incat Company Profile 10
Assembly
Stage 1 - Continued refinement of the pre-fabrication and module construction process has seen the stage 1 positions of both the main assembly halls transform into pre-fabrication areas for large components such as fuel tanks, engine rooms, jet rooms and superstructure modules.
Stage 2 - Modules completed at the various pre-fabrication locations at Incat are then transported and positioned in stage 2 of the construction hall applicable to that series of vessel.
Construction begins in the centre of the vessel allowing rapid growth, in a controlled manner. As the fabrication & welding teams progress throughout the vessel, our quality assurance/control departments and survey authorities check and approve the completed structure.
On completion of this process the fitters, fitout electrical and electronic teams move in and install services and equipment.
The vessel continues to grow in this position until it is approx 70% of its completed light ship weight, at which time the vessel is rolled back to the next stage of the production sequence. With stage 2 cleared modules for the next new build are able to fill this spot.
Stage 3 - With the vessel in its final stage before launch the forward end of the vessel is completed and the unique Incat catamaran shape becomes recognisable.
At this stage main machinery such as engines, jets, thrusters, T foils are installed. Once the equipment is carefully positioned and secured the vessels' structure is closed off for the final time and painting and livery requirements are addressed.
Fitout
The majority of the fitout work is completed by the yard's highly skilled tradespersons in the stage 3 position. Fitters, plumbers, electricians, electronics, fitout, hydraulics, pneumatics, painters and structural fire protection personnel all set about completing the various components and systems on board the vessel.
Launch
With engines installed the vessel is ready for launching, once clear of the shed the radars and aerials are fitted and final commissioning of systems takes place. Builder’s trials and sea trials for the customer are completed and the vessel is ready for handover and delivery to her new home.
11 Incat Company Profile
Research projects conducted in conjunction with vessel owners enable constant product development from an informed and accurate standpoint. The R&D team aims to improve ship design and ‘buildability’ with the continual goal of weight reduction, plus research into ways to improve operational reliability, efficiency and economy.
Incat’s latest generation craft have a payload carrying capacity almost 100% of the ship’s own weight. The high payload to vessel ratio has not been achieved by any other builder in the global high-speed light craft industry.
Incat and Revolution Design use Finite Element Modelling (FEM) to analyse design options and optimise both global and
local scantlings in order to produce a weight efficient design without compromising strength.
A global FEM uses relatively coarse finite elements over the entire vessel structure to illustrate the stress behaviour under imposed design loads that are based on extreme sea conditions.
Local FEM models are then required to further evaluate stress distribution in 'hot spot' areas that the global FEM has highlighted as having high stress levels.
The SeaFrame
Constructed as a base vessel or SeaFrame, in line with the aviation industy’s AirFrame – the structure of an aircraft
DESIGN TECHNOLOGY
Revolution Design
Revolution Design’s team of naval architects, engineers and designers work with the concept and creative team at Incat to develop and refine vessel design. The team work together from concept through research and development, on structural design and analysis, drive line technical specification and layout, naval architecture services and complete drafting and design services for Incat vessels.
CHAIRMAN'S REPORT
Incat Company Profile 12
exclusive of its fittings – the craft can be fitted out for numerous purposes, including passenger/commercial, freight, offshore industry or military deployment. Building to SeaFrame enables lower production costs and consequently lower ownership costs of Incat built Wave Piercing Catamarans.
Diesel engines or dual fuel reciprocating engines to utilise MGO and LNG are available from several manufacturers depending on client requirements for vessel size, power and speed. If higher speed is required dual fuel gas turbines are also an option. The cargo/vehicle/mission deck, provides 797 truck lane
metres (TLM) plus 148 cars, or 420 cars if required for a full passenger car mode, for high car capacity routes requiring high flexibility lifting mezzanine decks are an option. Using the example of the Incat 112 metre SeaFrame, the vessel incorporates four diesel engines providing the 36 megawatts required to power the vessel at speed, ranging from a heavy load economy speed of 20 knots to 50 knots light.
Vehicle deck headroom is generally 4.5 metres, and with a beam of 30.2 metres, heavy road vehicles can easily turn in the bow for quick disembarkation over stern ramps.
Incat’s latest generation craft have a payload carrying capacity almost 100% of the ship’s own weight.
13 Incat Company Profile
Incat has built the world’s first high speed Ro-Ro ferry powered by LNG as a primary fuel. The world’s fastest ship operates
on the River Plate between Argentina and Uruguay for South
American customer Buquebus.
Hull 069, Francisco, with capacity for over 1000 passengers and 150 cars has a proven lightship speed of 58+ knots, and an operating speed of 50 knots.
The passenger cabin includes tourist, business and first class
seating, and over 1100 square metres of extensively fitted out duty free shop, the largest shopping area ever installed on a fast ferry.
The vessel has the first installation of LNG powered dual fuel
engines in an Incat high speed ferry, and the first high speed
craft built under the HSC code to be powered by Gas Turbines
using LNG as the primary fuel and marine distillate for standby and ancillary use.
1100 sq
uare m
etres o
f Duty
Free sh
opping on Fra
ncisco
LNG EXPERTISE Francisco (069), world's fastest HSV
CHAIRMAN'S REPORT
Incat Company Profile 14
Transport efficiency
Size has a big impact on vessel efficiency. The larger the vessel, the more efficient it is. Transport efficiency can be defined as; (Deadweight x speed / power).
To satisfy market expectations the new generation of fast ferry must be capable of operating at economical high speeds, have fast turnaround times, be comfortable and yet operate more efficiently than conventional ferries.
130 METRE - 1.42
112 METRE - 0.97
85 METRE - 0.88Deadweight x Speed
Power
Transport Efficiency =
OPTIMISING EFFICIENCY
Powered by conventional, affordable, medium-speed diesel engines, yet still offering among the fastest operating speeds in the world, the current generation of Incat vessels is remarkable. Incat’s next generation of vessels will utilise the latest engines available, whether medium-speed, high-power diesel engines, dual fuel engines or gas turbines. Attractive power to weight ratios offered by modern engines enable Incat to increase deadweight capacity and to increase operational speeds of the vessels.
Mols-Linien Port Infrastructure, Odden, DenmarkFrancisco (069), world's fastest HSV
15 Incat Company Profile
be split to accommodate a mix of cars and freight, suiting the operator's needs on any given sailing.
On the 112 metre vessels a full length upper car deck features above the main vehicle deck thereby leaving the latter free for shipment of a full load of freight vehicles and buses. The lower deck can be built to allow semi-trailers to turn on board.
High Speed Interface
The reduction in port turnaround times through the development of Incat’s unique vehicle deck arrangement has received widespread endorsement from an industry where every minute and every dollar counts.
While early Incat vehicle craft were equipped with bow doors, contemporary commercial Incat vessels load and discharge over the full width stern, enabling a capacity load to discharge within minutes. The wide beam on the larger Incat craft allows even heavy trucks to drive on and drive off. By comparison single lane discharge of trucks through the bow of the craft can be a relatively slow and tedious process, however if port facilities mean that bow discharge is the preferred option, Incat also has vessel designs incorporating bow or side access doors to suit customer requirements.
Unlike their commercial counterparts, Incat’s military craft don’t enjoy the luxury of having dedicated shoreside linkspans available to load and discharge their cargoes. Therefore
Some Incat 96 and 98 metre vessels are fitted with hoistable mezzanine decks enabling the stowage of cars on two levels. Deployed with a minimum of fuss, as and when required, the decks provide the operator with the flexibility to adjust load plans of a highway mix of traffic to suit sailing fluctuations.
To take advantage of shoulder seasons or night freight runs, the mezzanine decks may be raised to deck head level to allow a concentration of freight vehicles. Alternatively the decks may
ONE SHIP CARRIES ALL
CHAIRMAN'S REPORT
Incat Company Profile 16
To take advantage of shoulder seasons or night freight runs, the optional mezzanine decks may be raised to deck head level to allow a concentration of freight vehicles.
these vessels can be equipped with articulated ramps to accommodate more than the average highway mix of vehicles, and with access to austere ports.
Truck turning
Versatility and flexibility of the High Speed Catamaran for the commercial operator means being able to carry any vehicle that can travel on the road. For the military operator the mission focus will determine the way the “vehicle” deck or mission deck is configured.
A wide beam and well spaced deck supports allow large trucks to drive on and drive off.
Vehicle deck arrangements on Incat vessels allow operators to configure the loading arrangement to suit demand on any particular sailing, in the commercial world maximising revenue opportunities and providing year round flexibility, while in the
military arena providing maximum space for mission cargo.
17 Incat Company Profile
The retractable T-foil is used only when it is needed, hence there is less drag to slow the ship, with resultant savings in fuel and less chance of the foil striking a submerged object.
The T-foil can be retracted in calm seas and the ride control system switched off. In moderate seas the ride control system is activated and only uses the trim tabs with the T-foil still stowed inside the ship. In high seas, the T-foil is deployed and the full capability of the ride control system is brought to bear on maximising passenger comfort.
Vessels are also equipped with trim tabs, a hydraulically operated device to assist high speed craft to accelerate lift, reducing pitch and roll, thus improving passenger-ride and comfort.
The world’s most effective ride control systems are installed on Incat Wave Piercing Catamarans to ensure passenger comfort and safety.
Since the year 2000 Incat vessels (from hull number 056) have been fitted with the revolutionary, award winning retractable T-foil, positioned at the aft end of the centre bow.
The T-foil is used in combination with two transom mounted trim tabs providing ride control forces equivalent to a pair of keel mounted T-foils ensuring a smooth ride in heavy seas.
PASSENGER COMFORT
Flexible rubber mounts between superstructure and hull ensures a minimum of noise and vibration permeate the climate controlled passenger cabin, maintaining an atmosphere of relaxation and comfort.
Award winning retractable T-foil
CHAIRMAN'S REPORT
Incat Company Profile 18
FLEXIBLE FITOUT
Materials used on high speed vessels must meet a stringent set of regulations for fire/flame retardancy, smoke development and toxicity levels. All interior fitouts are constructed and finished with attention to detail and weight saving, whilst maintaining the sturdy, easily cleaned and maintained features required in high traffic passenger areas.
Whether a single or dual class short route tourist vessel or a military vessel which could be at sea for considerable periods, the Incat fitout team tailor the interior to suit the client. Military craft can be fitted with short term berthing, a range of cabins, C4ISR area, extensive galley and crew facility areas.
The 112 metre and larger vessels can be fitted with escalators or elevators to move passengers from vehicle deck to lounge levels.
Incat interiors range from luxurious, glamorous lounges and glitzy cocktail bars through to the more utilitarian robust interiors designed for military and offshore workboat applications.
CHAIRMAN'S REPORT
19 Company Profile
The Wheel House
360-degree visibility for the officers over the top of the aerodynamic superstructure, with an aft-facing docking console and CCTV monitors negate the need for bridge wings with the associated windage and weight. The wheelhouse is fitted with the latest in electronic navigation and communication equipment to comply with the High Speed Craft Code.
STEERING THE COURSE
Manoeuvrability
Within one minute of lines being released the ship can be off the berth and completing a 10 degree turn before accelerating to harbour speed, and in less than three minutes she can be at 40 knots.
During manoeuvring it takes only ten seconds to change from full ahead thrust to full astern thrust; thus the ship will stop in a fraction of the time of conventional craft.
The Wave Piercing Catamaran can make a 360 degree turn in its own length; not requiring a bow-thruster brings savings in
weight, hull drag and a quieter ride at sea.
CHAIRMAN'S REPORT
Incat Company Profile 20
Muslim Magomayev (074)OFFSHORE SOLUTIONS
A fast crew boat is operating in the Caspian Sea oil and gas industry in Azerbaijan. The 70 metre, 30 knot semi-swath catamaran incorporates a crew transfer system consisting of dynamic positioning equipment coupled with a stabilised access platform, effectively a walk-to-work system.
The vessel, the largest catamaran fast crew boat to operate in the global oil and gas industry, transports 150 workers to multiple offshore installations in lieu of helicopter transfers.
The boat offers fast transits in sea conditions of 40 knot wind and seas of 3m SWH, with over 100 sq. metres of cargo deck for cargo hot shots of 110 tonnes of specialised equipment over 300nm at speeds up to 35 knots.
With the resiliently mounted superstructure being easily modified to be as short or long as the client application and hull length requires, this has allowed the development of numerous concepts that have taken advantage of this inherent flexibility of design.
This design feature together with the inherent stability of the catamaran platform makes a work vessel concept extremely adaptable.
With a large and relatively stable working deck, bridge and hull layouts that allow for class notations necessary for operating close into offshore structures while transferring personnel or equipment, the operator has enormous flexibility in application. The decks can be configured for containerised deck cargo, carriage of bulk
cargoes for transfer to platforms or when equipped with the necessary equipment, crew transfer.
The large deck area also allows for dual roles such as personnel or equipment transfer, but also be able to carry search and rescue equipment as well making these vessels adaptable and versatile for an operator.
When equipped with dynamic positioning and offshore supply vessel capability, the vessel can hold station and/or loiter at slow speed if the application calls for the vessel being fitted with a moon pool or aft or side deck winching.
21 Incat Company Profile
Other fire protection installations fitted on the vessels include single leaf hinged fire doors, single and double sliding fire doors, guillotine fire dampers, engine room hinged fire dampers, fire hatches and smoke baffles. These, combined with the lightweight SFP, form the best fire protection system available for high speed aluminium vessels.
Environment
Environmental issues are a focal consideration at Incat. As an example; Incat has achieved the world’s most stringent ‘low noise emissions’ standards, through a series of engine room innovations, reducing machinery noise whilst the ship is alongside and ensuring interior noise levels are well below recommended limits.
Wash and fuel consumption for Incat ships are improved by the design features of maximum waterline length, shallow draft, weight minimisation, fine bow shapes and shallow transom immersion.
The vessels incorporate energy saving lighting systems and HVAC systems and engines that meet IMO emission regulations. Environmental issues relating to production are constantly monitored and waste is recycled.
Aluminium
Incat vessels are built using marine grade aluminium which is one third the weight of steel. After application of design factors the actual weight of an aluminium vessel will be
SAFETY REGULATIONS
Fire Protection
An advanced lightweight Structural Fire Protection (SFP) system is used throughout Incat vessels. Significant features of the SFP include its water resistance, robustness, ease of installation and rapid removal allowing access to vessel services behind.
CHAIRMAN'S REPORT
Incat Company Profile 22
approximately half that for steel. Aluminium is lightweight without sacrificing strength, allowing increased fuel savings and safety. Aluminium is resilient and tough and has exceptional dent resistance, contributing to seaworthiness and safety.
Maintenance costs and overhaul time are less for aluminium vessels than steel due to their high corrosion resistance. Aluminium does not burn; there is some loss of strength at elevated temperatures, where aluminium ranks second only to steel. Aluminum is also non-sparking and non-magnetic which is of benefit for military minesweeping operations.
Continued operation of the original Incat vessels, now over some thirty years old, is testament to the corrosion resistance, durability and strength of aluminium.
Liferafts
Liferaft Systems Australia (LSA) in conjunction with Incat, has developed a revolutionary Marine Evacuation System (MES) which is now fitted to every large Incat vessel.
The system, proven under international scrutiny, is the safest and most advanced MES in the world. Each MES installed can be operated individually by a single crew member or alternatively, the ship’s entire MES can be activated from the bridge.
LSA Liferaft
A significant safety feature incorporated into the MES is that when deployed, the Liferaft (connected to the ship by an inclined inflatable slide) is securely positioned and angled away from the hull of the ship, as opposed to alongside.
An additional safety feature of the LSA MES is that it is the only evacuation system available which is approved as a Means of Rescue, by having the capability of retrieving passengers from the sea in a rescue situation.
Installation of LSA MES ensures that one crew member can supervise the safe evacuation of 100 people in less than four minutes, well within the International Maritime Organisation (IMO) requirements.
23 Incat Company Profile
• Pre-purchase inspections and surveys.
• On-site project management support (superintendency) for scheduled dry dockings and surveys, emergency repairs to machinery, emergency repairs to hull and craft structure.
• Craft repair specifications, dry-dockings, (detailed repair procedures and engineering support).
• Reviewing of any proposed in-service modifications to ensure compliance with Classification and Port State regulations.
• Change of Flag - issues and compliance.
• Specialised surveys including thermographic, vibration analysis,
Service@Incat offers the following services:
• Purchase and supply of spare parts, materials and other miscellaneous equipment for craft in service.
• Identification of and rectification of in-service design issues.
• Technical consultancy service.
• Mobilisation and management of teams of Incat Tasmania qualified tradespersons in conducting emergency repairs to machinery and craft structure worldwide.
• On-hire / Off-hire craft inspection and surveys.
SERVICE & SUPPORT
Service@Incat
Service@Incat specialise in the maintenance and repair of Incat fast craft worldwide.
Incat’s after-sales service is primarily supported through our Service@Incat department, which is available 24 hours a day and comprises a selection of dedicated and highly trained specialists who are able to assist operators with a full range of technical support.
CHAIRMAN'S REPORTMILITARY/DEFENCE
Incat vessels have been utilised in a range of military applications, and the commercial off the shelf technology can provide economic, efficient and effective commercial platforms that interest defence forces which understand the need for new ways to achieve results.
The Incat platform offers fast transit, fast turnaround in port, and the shallow draft and optional ramp arrangements can significantly increase access to austere ports. Flexibility and versatility in vehicle deck layout, plus optional helicopter decks and hangars increase mission options. The wide beam and other design aspects improve passenger comfort and crew accommodation, medical and other facilities can be installed for specific requirements. Minimal crewing numbers and reliable economic operation assist with ongoing budget considerations.
In 1999 the Royal Australian Navy chartered an Incat 86 metre vessel for use during the East Timor crisis. As HMAS Jervis Bay she completed over 100 trips between Darwin and Dili, transporting personnel and equipment. With average speeds of 40 knots, the craft completed the 900 nautical mile return trip from Darwin to East Timor in less than 24 hours.
During this time the vessel seized the attention of the US military, enabling them to witness the potential of high speed craft to perform various military roles. As a result, in 2001 joint forces from the US military awarded Bollinger / Incat USA the charter contract of Incat 96 metre HSV X1 Joint Venture.
The success of Joint Venture led to more charter contracts. The 98m TSV-1X Spearhead in 2002, and HSV 2 Swift in 2003.
All three vessels have displayed their excellence in humanitarian roles, including Swift’s major role in Hurricane Katrina, often responding on short notice to meet the needs of disaster relief efforts. The ships became the military benchmarks for future fast sealift acquisitions due to the high operational speed, long range deployment capabilities, combined with a high deadweight capacity.
The Japanese Defence Forces have also utilised Incat high-speed catamarans in relief operations.
HSV2 Swift (061)
Incat Company Profile 24
The core business, large high speed wave-piercing catamarans, is where Incat’s reputation and market share excels, exampled by the two latest vessels currently under construction for European customers, Virtu Ferries and Naviera Armas at 110m and 111m respectively.
Diversification adding workboats and smaller vessels to the product range is evident in Incat’s recent deliveries: a 70 metre fast oil industry crew boat to Azerbaijan and two 35 metre River-Bus commuter ferries to London. Locally, ten commuter ferries have recently been delivered to Sydney Harbour, and one to Melbourne.
Incat Tasmania continues to expand their reach to all parts of the globe.
25 Incat Company Profile
Ocean Wave (079), Ocean Tracker (078)
Akane (067)WORLD FLEET
On a global scale Incat has built around 40% of the large capacity, high speed vehicle passenger ferry fleet over 70 metres in length. These ferries have revolutionised transport links around the world with Incat built ships operating in the United Kingdom, South America, Asia, Australia, Scandinavia and throughout Europe.
Incat Company Profile 26
This information is correct to the best of the editor's knowledge at the time of printing.INCAT’S WORLD FLEETHULL TYPE TRADING NAME OWNER/OPERATOR DESIGNATED ROUTE/LOCATION
095 35m TBA Port Phillip Ferries Geelong - Melbourne
094 100m TBA Port Authority of Trinidad & Tobago Port of Spain - Scarborough Trinidad and Tobago
093 111m TBA TBA TBA
092 33m Ocean Adventurer Manly Fast Ferry Sydney Harbour
091 111m TBA Naviera Armas SA Spain
090 35m Bellarine Express Port Phillip Ferries Melbourne - Portarlington
089 110m Saint John Paul II Virtu Ferries Malta – Sicily
088 109m Express 3 Molslinjen Aarhus – Odden Ebeltoft – Odden, Denmark
087 35m May Gibbs Transport for NSW Sydney Harbour
086 35m Bungaree Transport for NSW Sydney Harbour
085 35m Pemulwuy Transport for NSW Sydney Harbour
084 35m Victor Chang Transport for NSW Sydney Harbour
083 35m Fred Hollows Transport for NSW Sydney Harbour
082 35m Catherine Hamlin Transport for NSW Sydney Harbour
081 33m Ocean Flyer Manly Fast Ferry Sydney Harbour
080 33m Ocean Surfer Manly Fast Ferry Sydney Harbour
079 24m Ocean Wave Manly Fast Ferry Sydney Harbour
078 24m Ocean Tracker Manly Fast Ferry Sydney Harbour
077 - Brooke Street Pier Brooke Street Pier Development Co. Pty Ltd Hobart, Tasmania
076 35m Neptune Clipper MBNA Thames Clippers River Thames, London, UK
075 35m Galaxy Clipper MBNA Thames Clippers River Thames, London, UK
27 Incat Company Profile
HULL TYPE TRADING NAME OWNER/OPERATOR DESIGNATED ROUTE/LOCATION
074 70m FCB Muslim Magomayev Caspian Marine Services Baku – Caspian Sea, Azerbaijan
073 34m MR-I Navigators (Secheron Holdings) Berriedale - Hobart, Tasmania
072 15m MV Lindoy Stava Bat & Dykkerservice AS Haugesund, Norway
071 Barge The Barge Tas Marine Constructions Hobart, Tasmania
070 17m cruising ketch Gwenhwyfar Private Ownership Hobart, Tasmania
069 99m WPC Francisco Buquebus Buenos Aires, Argentina - Montevideo, Uruguay
068 85m WPC Akane Sado Kisen Naoetsu - Ogi, Sado Island, Japan
067 112m WPC Express 2 Molslinjen Aarhus - Odden Ebeltoft - Odden, Denmark
066 112m WPC Express 1 Bornholmslinjen (Molslinjen) Ronne - Ystad, Denmark
065 112 m WPC Natchan World Tsugaru Kaikyo Ferry Hakodate, Japan
064 112 m WPC Natchan Rera J & T Shipping Co Ltd Wagon Group Keelung - Taipei, Taiwan – Fuzhou - Pingtan Island China
063 17 m Liveaboard Sixty Three 17m Projects Pty Ltd Hobart, Tasmania
062 98 m WPC Volcan De Tirajana Naviera Armas SA La Palma - Los Cristianos - La Gomera
061 98 m WPC Swift Seajets Refit, Greece
060 98 m WPC T&T Spirit Port Authority of Trinidad & Tobago Port of Spain - Scarborough, Trinidad & Tobago
059 98 m WPC Hai Xia Hao Fujian Strait Ferry Corporation Taichung - Taipei, Taiwan - Pingtan Island, China
058 98 m WPC Milenium Dos Acciona Trasmediterránea S.A Algeciras, Spain – Ceuta, Morocco
057 98 m WPC Normandie Express Brittany Ferries Cherbourg, France – Portsmouth, UK
056 96 m WPC Volcan de Teno Naviera Armas SA Valverde - Los Cristianos Canary Islands
055 96 m WPC Bentago Express Fred. Olsen, S.A. Morro Del Jable – Las Palmas (Gran Canaria)
054 Wing R & D Craft Hobart, Tasmania
109m Hull 088
Hull 088109m Passenger Catamaran
18 Bender Drive Derwent Park Hobart Tasmania 7009 Australia P: +61 (0) 3 6271 1333 F: +61 (0) 3 6273 0932 E: Incat@incat.com.au
www.incat.com.au
Details provided are based on original design and certification.
For information on Incat representatives in your region contact head office
General Particulars
Yard No: 088Designer: Revolution Design Pty LtdBuilder: Incat Tasmania Pty LtdClass Society: DNV/GLCertification: DNV +1A1 HSLC R1 Car Ferry “B” EOLength overall: 109.4 mLength waterline: 103.2 mBeam overall: 30.50 mBeam of Hulls: 5.80 mDraft: 4.05mSpeed: 39 knots at 600 DWT
CapacitiesDeadweight: 1000 tonnes.Passenger Capacity: 1000 persons (including crew).Passenger Deck: Located on one level, Tier 3, is divided into
three lounges: Forward Tier 3 Business Class Lounge
and Restaurant. Midships Tier 3 Economy Class Lounge,
Kiosk, Café and Children’s area. Aft Tier 3 TV rooms and quiet lounge.Vehicle Capacity: 411 cars (610 truck lane metres at 3.1m
wide and 4.6m clear height) plus 227 cars at 4.5m length x 2.3m wide and 2.1m high.
Axle load: Tier 1 - 13 tonne (single axle dual wheel) between transom and frame 70, CL to 4800 and between Transom and frame 60 outboard of 4800. 2.0 tonnes (single axle dual wheel) fwd of frame 60 (outboard of 4800 only) and fwd of frame 70 elsewhere.
Axle load: Tier 2 - 2.0 tonne (single axle).
TankageFuel Oil (Main storage tanks): 160,000 litresFuel Oil (Long Range tanks): 450,000 litresFuel Oil (Header tanks): 2 x 1240 litresGenset Fuel Oil: 2 x 1240 litresFresh Water: 2 x 5,000 litresSewage: 1 x 6,500 litresLube Oil: 1 x 1,100 litresBilge Holding: 1 x 1,100 litresER Oily Water: 4 x 160 litresEngine Coolant: 1 x 4,000 litresAft Hydraulic Oil: 2 x 500 litres
Construction Design: Two slender, aluminium hulls connected by a bridging section with center bow structure at fwd end. Each hull is divided into ten vented, watertight compartments divided by transverse bulkheads. Two compartments in each hull are prepared as fuel tanks with additional strengthening on each of the end bulkheads and intermediate tank tops.
Air ConditioningReverse cycle heat pump units throughout capable of maintaining between 20-22 deg C and 50% RH with a full passenger load and ambient temperature of between -5 deg C and 35 deg C and 60 % RH.
EvacuationFour Marine Evacuation Stations (MES), two port and two starboard, each MES capable of serving a total of up to 300 persons. A total of eleven, 100-person life rafts are fitted. 2 x SOLAS inflatable dinghy with 40 hp motor and approved launch/recovery Davit.
MachineryMain Engines: 4 x resiliently mounted MAN Diesel & Turbo
20V 28/33D STC marine diesel engines, each rated at 9100kW at 100% MCR.
Water Jets: 4 x Wartsila LJX 1500SR waterjets configured for steering and reverse.
Transmission: 4 x ZF NR2H 60000 gearboxes with reduction ratio suited for optimum jet shaft speed.
Hydraulics: Three hydraulic power packs located aft, all alarmed for low level, high temperature and filter clog and low pressure. One pressure line filter and two return line filters fitted. An off-line filter/pump provided.
Ride Control: An active trim tab ride control system is fitted to maximise passenger comfort.
ElectricalGenerators: 4 x Scania 296ekW generators. The generators
are arranged for automatic startup and paralleling. The automation will consider one generator maintained as a standby set.
Distribution: 415V, 50 Hz. 3 phase. 4 wire distribution with neutral earth allowing 2430 volt supply using one phase and one neutral. Distribution via distribution boards adjacent to or within the space they serve. 200-amp 415V 3-phase connection point fitted in starboard anteroom.
110m Hull 089
Hull 089110m Passenger Catamaran
100 Derwent Park Road Derwent Park Tasmania 7009 Australia P: +61 (0) 3 6271 1333 E: incat@incat.com.au
www.incat.com.au
Details provided are based on original design and certification.
For information on Incat representatives in your region contact head office
General Particulars
Yard No: 089Designer: Revolution Design Pty LtdBuilder: Incat Tasmania Pty LtdClass Society: DNV GLCertification: DNV +1A1 HSLC R1 Car Ferry “B” EOLength overall: 110.6 mLength waterline: 101.9 mBeam moulded: 28.2 mBeam of Hulls: 5.4 mDraft: 4.277 (+/-0.2m)Speed: Approx 37.5 knots at 85% MCR, 600 DWT
CapacitiesDeadweight: 1000 tonnes.Passenger Capacity: 924 persons (including crew).Seats Installed: 1120 seats. Passenger Decks: Located on two levels, Consisting of: Tourist Class passenger seating areas (Tier 2) Truck Drivers Lounge (Tier 2) Business Class passenger seating area (Tier 3) 2 x VIP Lounges (Tier 3) Bars (x3), Gift Shop, Gaming Lounge Rest rooms Pursers Office Passenger lift. Servicing - Tier 1, Tier 2, Tier 3 and Tier 1 mezzanine store.Crew Accommodation: Sleeping cabins for 24 crew members.Vehicle Capacity: 490 truck lane metres at 3.5m wide and
4.6m clear height or up to 167 cars at 4.5m length x 2.4m wide.
Axle loads: 12 tonne tonne (single axle single wheel) or 15 tonnes (single axle dual wheel).
Vehicle Ramps: Two vehicle ramps fitted. One at the ship stern and on port side forward. Each ramp is capable of carrying vehicles of up to 50 tonnes.
Tankage MGO Fuel Oil (Storage tanks) - 492,000 litres Fuel Oil (Header tanks) - 2 x 5000 litres Fuel Oil (Separator tanks) - 2 x 5000 litres Fresh Water – 2 x 6500 litres Sewage – 1 x 6,500 litres Lube Oil - 2 x 1,100 litres Oily Bilge Water - 1 x 2000 litres Aft Hydraulic Oil - 2 x 500 litres Fwd Hydraulic Oil - 1 x 500 litres
Construction Design - Two slender, aluminum hulls connected by a bridging section with centre bow structure at forward end. Each hull is divided into ten vented, watertight compartments divided by transverse bulkheads. Two compartments in each hull are prepared as fuel tanks with additional strengthening on each of the end bulkheads and intermediate tank tops.
Air ConditioningCombination of water cooled air conditioning plant and reverse cycle heat pump units capable of maintaining between 20-22 deg C and 50% RH with a full passenger load and ambient temperature of between 12 deg C and 32 deg C and 80 % RH.
EvacuationFour Marine Evacuation Stations (MES), two port and two starboard, each MES capable of serving a total of up to 300 persons. A total of eleven, 100-person liferafts are fitted.2 x SOLAS inflatable dinghies with 25 hp motor and approved launch/ recovery method.
MachineryMain Engines: 4 x resiliently mounted MTU58000M71LWater Jets: 4 x Wartsila LJX 1500SR waterjets configured for
steering and reverse.Transmission: 4 x ZF60000 gearboxes, approved by the engine
manufacturer, with reduction ratio suited for optimum jet shaft speed.
Hydraulics: Five hydraulic power packs, one forward, four aft. Ride Control: A ‘Naiad’ active ride control system is fitted to
maximise passenger comfort. This system combines active trim tabs aft and two (2) hull mounted T-foils
ElectricalGenerators: 4 x 300ekW MTU8V2000M51A generators.
The generators are arranged for automatic startup and paralleling. The automation will consider one generator maintained as a standby set.
Distribution: 415V, 50 Hz. 3 phase 4 wire distribution with neutral earth allowing 240 volt supply using one phase and one neutral. Distribution via distribution boards adjacent to or within the space they serve.
100-amp 415V 3-phase shore connection point fitted in starboard aft mooring station.
33m Hull 092
Hull 09233m Passenger Catamaran
100 Derwent Park Road Derwent Park Tasmania 7009 Australia P: +61 (0) 3 6271 1333 E: incat@incat.com.au
www.incat.com.au
Details provided are based on original design and certification.
For information on Incat representatives in your region contact head office
General Particulars
Yard No: 092
Designer: One2three Naval Architects
Builder: Incat Tasmania Pty Ltd
Society: Hull: DNV - Det Norske Veritas
Survey: AMSA
Flag: Australian
Code: NSCV Class 1C and 1D
Speed: Service Speed 24.9 knots
Principal Dimensions (approximate)
Length(Overall) 34.14 metres
Length (Waterline): 32.19 metres
Length (Measured): 33.52 metres
Beam (Overall): 9.00 metres
Beam (Moulded): 8.50 metres
Depth (Moulded): 2.70 metres
Draft (Hull): 1.36 metres
Draft (Extreme): 1.85 metres
Capacities
Passengers: 396 (1D) 256 (1C)
Crew: 4
Fuel: 2 x 2500 litres
Fresh Water: 1 x 1000 litres
Sullage: 1 x 2780 litres
Design and Construction The catamaran hull and superstructure construction is marine grade aluminium. The hull is hard chine with symmetric hulls.
Passenger Access is via two double gangways at the main passenger level. Both main and upper decks include indoor and outdoor seating. Toilets, kiosk and bike racks are located on the main passenger deck. Internal stairs provide access from the main deck to the upperdeck, which includes passenger areas and the wheelhouse.
Machinery
Main Engines: Two(2) MAN D2862 LE463 Diesel engines rated to 1029 BkW at 2100 RPM
Gearboxes: Two(2) Twin Disc Quickshift MGX6620
Drive Train: Two(2) fixed pitch 5 bladed propellers
Passenger Comfort A ride control system has been installed consisting of a pair of active Humphree interceptors fitted at the vessel’s transom, and controlled by an electronic control package.
Electrical
The electrical system is 240/415v AC supplied by two diesel generators, Cat C4.4, one located in each hull.
Air Conditioning Split system air conditioning has been installed for bridge and pas-
senger areas.
Safety and evacuation
• Carly floats for 400 people• Lifebuoys, with line and lights as required • One (1) Lifebuoy fitted with self igniting light • One (1) Lifebuoy fitted with buoyant lines• One (1) 2.4m Dinghy as defined by ANNEX C of section 7 of NSCV code • Lifejackets to Survey Requirements for Class 1D
35m Hull 090
Hull 09035m Passenger Catamaran
100 Derwent Park Road Derwent Park Tasmania 7009 Australia P: +61 (0) 3 6271 1333 E: incat@incat.com.au
www.incat.com.au
Details provided are based on original design and certification.
For information on Incat representatives in your region contact head office
General Particulars
Yard No: 090
Designer: Revolution Design Pty Ltd
Builder: Incat Tasmania Pty Ltd
Class Society: NSCV
Certification: NSCV 1D F2 Fast Craft
Speed: 32 knot max. Service speed 28kts
Principal Dimensions (approximate)
Length overall: 36.6m
Length waterline: 35.5m
Beam moulded: 9.9m
Beam of Hulls: 2.4m
Draft: 1.8m
Capacities
Max Deadweight: 41 tonnes
Passenger Capacity: 409
Crew: 4
Wheelchairs 9
Bicycles 17
Tankage
Diesel Fuel Oil: 8600 litres
Fresh Water: 1 x 1,500 litres
Sullage: 1 x 1,600 litres
Design and Construction Two slender, aluminium hulls connected by a bridging sectionwith centre bow structure at fwd end. Each hull is divided into six force-ventilated watertight compartments divided by transverse bulkheads. One compartments in each hull is prepared as a fuel tank with additional strengthening on each of the end bulkheads and intermediate tank tops. The hull and superstructure construction is of marine grade aluminium
Passenger access is through two boarding gates each side on the main deck. Internal and external seating is available on boat the main deck and upper deck. A bar & kiosk plus toilets, bike racks and wheelchair spaces are located on the main deck.
Air Conditioning/Heating
9 x Daikin 7Kw split system air conditioning units installed in the passenger spaces and wheelhouse
Safety and Evacuation
6 x 65-person RFD liferafts and 1 x 30 person RFD life rafts in cradles for rapid deployment
All safety equipment as required by NSCV code
Machinery
Main Engines: 2 x MAN D2862 LE463 1029Kw AT 2100rpm
Gearboxes: 2 x Twin Disc MGX6620 reverse.
Propellers: 2 x Veern 5 blade counter rotating propellers
Steering: 2 x stainless steel rudders, hydraulically operated by electric pumps with 24V DC backup
Electrical
Alternators: 2 x 51.5 ekW Caterpillar C4.4
Distribution: 415V/240V 50Hz AC supplied by two diesel generators
24V DC system for navigation equipment and emergency backup
35m Hull 084
Hull 08435m Passenger Catamaran
100 Derwent Park Road Hobart Tasmania 7009 Australia P: +61 (0) 3 6271 1333 F: +61 (0) 3 6273 0932 E: Incat@incat.com.au
www.incat.com.au
Details provided are based on original design and certification.
For information on Incat representatives in your region contact head office
General Particulars
Yard No: 084
Designer: Revolution Design Pty Ltd
Builder: Incat Tasmania Pty Ltd
Class/Survey: RMS NSW
Certification: NSCV 1D
Structural Certification: Lloyds SSC Catamaran Passenger G2
Speed: Approx 25 knots at full displacement
Principal Dimensions (approximate)
Length overall: 36.379 m
Length measured: 34.91 m
Beam overall: 10.39 m
Draft (hull): 1.28 m
Draft (extreme): 1.818 m
Capacities
Passengers: 400
Crew: 3
Wheelchairs: 13
Bicycles 17
Design Load Deadweight: 39.133 tonnes
Tankage
Diesel Fuel Oil: 2 x 3500 litres
Fresh Water: 1 x 1200 litres
Sullage: 1 x 1650 litres
Design and Construction
Two slender, aluminium hulls connected by a bridging section. Each hull is divided into six force-ventilated, watertight compartments divided by transverse bulkheads. The hull and superstructure construction is of marine grade aluminium.
Passenger access is through two boarding gates each side on the main deck. Internal and external seating is available on both the main deck and upper deck. Toilets, bike racks, and allocated wheelchair spaces are located on the main deck. The internal passenger spaces on both decks are equipped with hearing augmentation loops.
Air Conditioning/Heating
2 x 7.1 kW Fujitsu reverse cycle split system installed in wheelhouseInternal passenger spaces are fitted with a forced ventilation system.
Safety and Evacuation
20 x 20 person Carly floats in cradles on the Wheelhouse Deck for rapid deployment
All safety equipment as required by NSCV code.
Machinery
Main Engines: 2 x Yanmar 6AYEM-GT marine diesel engines, each rated at 749 kW at 100% MCR.
Gearboxes: 2 x Twin Disc Quickshift MGX6599SC
Propellers: 2 x Veem 5 blade counter-rotating propellers
Steering: 2 x stainless steel rudders, hydraulically operated by electric pumps with 24V DC backup
Electrical
Generators: 2 x Mase Mariner 3400T 36.2 kVA (Max)
Distribution: 415/240V 50 Hz AC supplied by two diesel generators
24V DC for navigation equipment and emergency backup
Hull 073
34m Catamaran
HULL 073
General Particulars
Yard No 073
Builder Incat Tasmania Pty Ltd
Designer Chamberlin Marine
Class/Survey MAST
Certification NSCV/USL Limit 1E
Length overall 33.7 metres
Length waterline 33.2 metres
Beam overall 9.60 metres
Draft 1.25 metres
Speed 24.9 knots
Engines 2xCat C32 ACERT C
Rated Power 1300 bhp @ 1800 RPM
Construction Aluminium
Passengers (Max) 240 persons
Crew 6 persons
Freshwater 2x950 L
Fuel 2x3800 L
Sullage 2x950 L
Capacities
Passenger Capacity - 240 + 6 crew
Passenger Decks - Main deck lounge / Aft Exterior Deck / Galley / Bar - VIP Lounge (Forward) / VIP Bar - Upper Deck Lounge / Aft Exterior Deck / Bar
Tankage - Fuel Oil (Storage tanks) – 7,600 litres - Fresh Water – 1,900 litres - Black Water – 1,900 litres
Construction
Design - Two slender, aluminium hulls connected by a bridging section. Each hull is divided into six vented, watertight compartments divided by transverse bulkheads.
Air Conditioning
7 x 7.1kW, 1 x 5.2 kW and 1 x 3.5 kW Fujitsu reverse cycle heat pump units capable of maintaining between 20-22 deg C and 50% RH with a full passenger load and ambient temperature of between 0 deg C and 30 deg C.
Safety and Evacuation
All safety equipment to comply with the NSCV / MAST safety standard including two RFD open reversible life rafts, deployable and fitted to wheelhouse roof.
Machinery Installations
Main Engines - 2 x resiliently mounted Caterpillar C32 marine diesel engines, each rated at 1300 Hp at 1800 rpm.
Propellers - 2 x Mikado 5 bladded counter rotating propellers Transmission - 2 Twin Disc gearboxes, with forward / reverseShafting - 2 x 4” super duplex stainless steel shafts Steering - 2 x Stainless steel rudders hydraulically operated through rams to the tiller arms
Electrical Installations
Generators - 2 x diesel powered generators of the self regulating brushless type. One generator installed in each hull. Distribution
- 415V, 50 Hz. 3 phase 4 wire system - Generator circuits, fire pumps, anchor winch and engine room fans.
- 1 Phase, 50 Hz, 3 wire system – Power circuits, air conditioning, lighting, GPO’s, PA system and entertainment system. - 24 V DC Circuit – Emergency lights, navigation lights, wind screen wipers, radios, radars, instruments and alarms.
34m
18 BENDER DRIVE DERWENT PARK HOBART TASMANIA 7009 AUSTRALIA P: +61 (0) 3 6271 1333 F: +61 (0) 3 6273 0932 E: INCAT@INCAT.COM.AU
www.incat.com.au
Details provided are based on original design and certification. For information on Incat representatives in your region contact head office
MONA MONA ROMA - New Vessel Design
Incat Company Profile 28
HULL TYPE TRADING NAME OWNER/OPERATOR DESIGNATED ROUTE/LOCATION
053 96 m WPC Bencomo Express Fred. Olsen, S.A. Santa Cruz de Tenerife - Puerto de las Nieves
052 96 m WPC Alboran Naviera Armas SA Canary Islands
051 96 m WPC Bonanza Express Fred. Olsen, S.A. Santa Cruz de Tenerife - Agaete (Gran Canaria)
Las Palmas - Arrecife
050 96 m WPC Manannan Isle of Man Steam Packet Company Douglas – Liverpool, UK
NF08 80 m K50 Harmony Flower H Ferry (Dae-A Express Shipping)Incheon - Socheong - Daecheong - Baekryoung Island,
South Korea
049 91 m WPC Fjord Cat Fjord Line Kristiansand, Norway – Hirtshals, Denmark
048 91 m WPC Max Mols Bornholmslinjen Ronne - Ystad, Denmark
047 91 m WPC Golden Express Golden Fast Ferries Greece
046 91 m WPC T&T Express Port Authority of Trinidad & Tobago Port of Spain - Scarborough, Trinidad & Tobago
045 86 m WPC Condor Rapide Condor Ferries Channel Islands - St. Malo, France
044 86 m WPC Champion Jet1 Seajets/Naviera Armas SA Canary Islands
043 86 m WPC Tarifa Jet Ferrys Rapidos del Sur Tarifa, Spain - Tangier, Morocco
042 86 m WPC Champion Jet2 Seajets Multiple routes, Greece
041 81 m WPC Jaume III Baleària Valencia - Sant Antonio - Denia Genova
040 81 m WPC Ocean Flower 2 Bridgemans Services Group TBA
039 Solar R & D Craft Tasmanian Fast Ferry Museum Permanent Display, Hobart, Tasmania
038 81 m WPC Jaume II Baleària Fort Lauderdale, Florida – Grand Bahama Island
037 78 m K50 Sun Flower Dae-A Express Shipping Pohang - Uleung Island, South Korea
036 70 m K55 Juan Patricio Buquebus Aliscafos Buenos Aires, Argentina – Colonia, Buenos Aires
035 78 m WPC Mega Jet Seajets Multiple routes, Greece
034 78 m WPC Fares 2 Maritime Company for Navigation Saudi Arabia
29 Incat Company Profile
HULL TYPE TRADING NAME OWNER/OPERATOR DESIGNATED ROUTE/LOCATION
033 78 m WPC Jaume I Baleària Algeciras
032 74 m WPC Atlantic III Buquebus Buenos Aires, Argentina – Colonia, Uruguay
031 74 m WPC Seacat Moorea Phnom Penh, Cambodia
030 74 m WPC Incat Tiger Tiger Shipping Company South Korea
029 R & D Craft
028 74 m WPC Naxos Jet Seajets Multiple routes, Greece
027 74 m WPC Atlantic Express Colonia Express Buenos Aires, Argentina – Colonia, Uruguay
026 74 m WPC Masterjet Seajets Multiple routes, Greece
025 74 m WPC High Speed Jet Seajets Multiple routes, Greece
024 74 m WPC Pinar Del Rio Baleària Algeciras - Tanger Medll
023 74 m WPC Sea Speed Jet Seajets Multiple routes, Greece
HULL YEAR ORIGNAL TRADING NAME
022 1988 Sea Flight
021 1986 Our Lady Pamela
020 1985 Our Lady Patricia
019 1988 2000
018 1987 Genesis
017 1986 Tassie Devil 2001
016 1985 Spirit of Victoria
015 1984 Margaret Rintoul IV
014 1984 Pybus Rutherglen Punt
HULL YEAR ORIGNAL TRADING NAME
013 1982 Little Devil
012 1983 Thunderbird
011 1984 Keppel Cat 1
010 1983 Trojan
009 1982 Spirit of Roylen
008 1982 Quicksilver
007 1982 Green Islander
006 1981 Amaroo II
005 1981 Tangalooma
VESSELS PRIOR TO 1990 (Original names)
HULL YEAR ORIGNAL TRADING NAME
004 1981 Fitzroy
003 1980 AK Ward
002 1979 James Kelly
001 1977 Jeremiah Ryan
BUSHRANGER FLEET
1975 Lawrence Kavanagh
1975 Martin Cash
1973 James McCabe
1972 Matthew Brady
MAIN OFFICE
INCHES
ROSS
REVOLUTION DESIGN
MCGREGORS
PLATE SHOP/GUNNS
WILSONS
LUCAS
DEGRAVES
COVERDALES
INWARD GOODS
John Ross Robert Inchess John McGregor Charlie Lucas
Perc Coverdale John Wilson Peter Degraves Samual Gunn
TRADITION OF SHIPBUILDING
THE TRADITION OF SHIPBUILDING IN TASMANIA AND HOBART IN PARTICULAR, IS STRONG
The skills of these pioneer shipbuilders of Hobart Town have been passed down to the present day and their names are perpetuated in the building halls making up Incat’s modern shipyard.
Incat Company Profile 30
AUSTRALIA (Head Office & Shipyard), Incat Tasmania Pty Ltd
100 Derwent Park Road, Derwent Park, Tasmania, 7009
Phone: +61 (0) 3 6271 1333
Email: incat@incat.com.au
www.incat.com.au
For information on Incat representatives in your region contact head office.
Building the world's fastest, efficient, environmentally clean, high speed vessels.
Incat vessels operating world wide
Incat Shipyard