Speranza II
Sanlorenzo Motor Yacht for Sale






























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Home » Speranza II
Length
Beam
Builder
Year Built
Year Refit
Cruising Speed
Max Speed
Engines
Gross Tonnage
Hull
Flag
-Vat Paid
-Immediately Available
-Over 1.2M Upgrades
-Latest SD96 Model
– 5 Cabin Version / 11 Guests
Builder | Sanlorenzo | |
Name | M/Y Speranza | |
Model | SD 96 | |
Year build | 2021 | |
Length overall | 28.93 m | |
Beam | 7.60 m | |
Range @ Economical speed ( 10 – 11 Knots) | 1756 nm | |
Accommodation | 11 Guests / 5 Crew | |
Current Location | Limassol Marina | |
Flag | Maltese | |
Hull material | GRP | |
Engines | 2 x MTU 10V2000M86 | |
Engines power: | 2 x 1380 HP | |
Generators: | 2 x Kohler 45KW each | |
Engines hours | 730 hrs | |
Generators hours | 1676 Prt & 1684 Stb | |
Fuel tank capacity | 15700 L ( 11860 Main – 3640 Day ) | |
Fresh water tank capacity | 2500 L | |
Black & Grey tank capacity | 1000 L | |
A/C Total Power |
216.000 BTU/h | |
Category | A |
Engine room equipment |
Sewage treatment system Hammann HL CONT Compact 0125 |
Alfa laval (fuel cleaning system) – MIB 303 Separator |
Tender fuel filling system with manual pump |
Automatic Watermaker MC5 Duplex 500lt |
Ozone treatment for air conditioning system |
“puRO GRANDE” Reverse Osmosis Fresh water system 540 l/h |
Stabilizers and Thrusters |
CMC Electric Stabilizers – under way and zero speed |
Side Power – Hydraulic Stern and Bow thrusters |
Satellite and communication systems (TV Sat) |
Empty radome KVH TV8 (2 in total) |
Predisposition for Sat Tv antenna KVH TV8 (cables only) |
Satellite and communication systems (Com) |
Predisposition for KVH Track phone V7-HTS |
Meridian 5G System ( 100Km Offshore Coverage) |
PABX (telephone switchboard) with phone in bridge area |
Cordless phones in master cabin, UD salon, MD salon, crew area (4 in total) |
Alarms and controls | ||||||||||||||||
Lights for anchors | ||||||||||||||||
Open portholes alarm system | ||||||||||||||||
CCTV IP Panasonic (with DVR): 2 fixed in cockpit +2 fixed in lateral passageways, 1 pan & tilt + 2 fixed in engine room | ||||||||||||||||
Color monitor 17” for CCTV in crew area | ||||||||||||||||
Additional touch screen monitor 12″ (ship monitoring system) | ||||||||||||||||
Electronics | ||||||||||||||||
Portable control station MTU (no.1 connection point) – starboard cockpit | ||||||||||||||||
Additional connection point for portable control station MTU – upper deck aft port | ||||||||||||||||
Extra wind control station – upper starboard side | ||||||||||||||||
Electrical Equipment | ||||||||||||||||
Cablemaster – Glendinning CM8 for shore socket 63A (instead of 100/125A as per Schedule 5) | ||||||||||||||||
Inverter Mastervolt 24V 5000W – for sockets 220V | ||||||||||||||||
Additional IP65 waterproof socket 220V in the Garage – in Engine room – in UD External Bar – in Bosom’s Locker – in Chain Locker | ||||||||||||||||
Additional IP65 waterproof sockets for exterior areas on aft cockpit sofa – on Custom Pool port | ||||||||||||||||
Additional Shuko sockets 220V – in each Guest Cabins- in the Salon – in the Pantry – in the Master Cabin – in the Galley in the Sky lounge, in the Wheelhouse) | ||||||||||||||||
Additional USB sockets in each Guest Cabins – in the Salon – in the Master Cabin – the Sky lounge – in the Wheelhouse) | ||||||||||||||||
Tender | ||||||||||||||||
Williams Diesel Jet D445
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Cooking top in ceramic glass Miele | ||||||||||||||||
Oven 90 cm Miele | ||||||||||||||||
Professional extraction hood
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General
Composite materials (GRP) will be used for the construction of the hull, decks and superstructure.
The vessel will be built with vinyl-ester resin (for the first three layers of the hull lamination) and polyester isophthalic resin for hull plating, structures and GRP accessories. The Gel coat is of Neopentilic type; reinforcement fibres are, depending on their use, mat, roving’s, multi-axial and unidirectional glass as indicated in the structural drawings approved by Classification Society.
The PVC of the sandwiched core will be of closed cell type, density between 50 and 90 Kg/m3.
The structure shape and the scantling will follow the most recent knowledge on design and construction for this type of GRP Vessel, in order to ensure maximum structural continuity and lowest possible levels of vibrations and noise. The hull bottom will be built in single skin of different thickness, the sides in sandwich with PVC core, in compliance with the Classification Society regulations, the structure is longitudinal type, with girders and transversal bulkheads as main structural elements. Two watertight bulkheads will divide the vessel into three
watertight compartments as follow:
– Engine room.
– Guest and crew accommodation.
– Technical locker at bow.
All openings for pipes and cables going through main bulkheads will be made watertight.
All bilges will be painted; in the engine room self-extinguishing paint will be used where necessary.
Exhaust gas pipes and ventilation ducts are GRP moulded and integrated into the structure; flame resistant gel
and self-extinguishing resins are used wherever necessary.
Special reinforcements will be placed in way of propulsion and manoeuvring machinery’s foundations,
generators, shaft line, brackets, rudders, and thrusters’ propellers.
The hull will be treated with anti-fouling paint. The material will be supplied by a recognized manufacturer.
Main deck
The main deck plating is sandwich type, with different thickness as per Classification Society Regulations. The
structure is longitudinal type, with transversal bulkheads as main structural elements.
A watertight hatch will be mounted in way of the engine room to allow the mounting and disassembly of the
Main Engine and other machinery.
Special reinforcements will be placed near all manoeuvring devices such as windlasses, capstans, hatch hinges,
cranes and gangway.
All openings for pipes and cables going through the Main Deck will be made watertight.
Superstructure
The fly deck plating is sandwich type, with different thickness as per Classification Society Regulations. The
reinforcement structure is of longitudinal type, with transversal stiffeners and bulkheads as main structures.
Pillars and longitudinal stiffeners as additional elements.
A watertight hatch will be mounted in way of the engine room to allow the mounting and disassembly of the main Engine and other machinery. Special reinforcements will be placed in way of the main stressed area like side doors and bases of the Hard Top.
Structural Bulkheads
Adequate structural bulkheads are provided in compliance with the General Arrangement Plans, two of these will be also watertight.The bulkheads will generally be made in marine plywood sandwich with polyethylene (“Laricross” or similar) or marine plywood core, with adequate thickness.
The escape hatches will be located in accordance with the Classification Society Regulations.
Tanks – Capacity plan
All the tanks on board are “structural” type, integrated into the hull in such a way to reduce the occupied space and optimize storage room. Tanks are built in GRP, laminated in monolithic and sandwich, laminated on board and then assembled on board. They are designed with enough internal reinforcements to provide the continuity of the hull stiffness.The daily fuel tanks are positioned longitudinally, on port and starboard side respectively, in engine room and
occupy the space between the bottom, the sides and the deck. On the tank will be installed an adequate flange for “gas free” treatment and for washing.
The main fuel, fresh, grey and black water collection tanks are laminated on the keel after having completed the hull bottom lamination.
For fresh water tanks will be foreseen a layer of non-toxic gelcoat.
Tanks are installed with an adequate distance from the bottom to prevent any damage and fluid leakage in case of tolerable collision of the hull. The tanks will be fitted with the necessary vents and fittings and they will be pressure tested as required by the Classification Society Regulations.
Insulation
The insulation is provided to guarantee maximum comfort and safety onboard the vessel in all circumstances.
The engine room noise and thermal insulation from the other vessel areas is as follows:
– Ceiling, walls and bulkhead insulation between the engine room and the accommodation areas inside the
engine room, will be realized with thermal insulation sandwich fixed by needles and finished with steel
plate fixed onto aluminium grid supports.
– Engine room/ accommodation area, accommodation side realized with thermal insulation sandwich fixed
with needles, integrated onto floating bulkhead on viscous-elastic elements.
– Insulation of extraction and ventilation trunks realized with insulation sandwich fixed with needles on
Engine room side.
– Insulation of gas exhaust piping realized with thermal insulation sandwich guaranteeing optimal thermal
insulation, flame resistant and self-extinguishing.
– Thermal/acoustic insulation on main deck floor, in correspondence of the engine room compartment,
realized with insulation material fixed by needles onto floating floor on viscous-elastic elements.
Accommodation areas insulation is realized as follows:
– Acoustic insulation of each cabin realized with insulation sandwich inserted into the bulkheads and the
flooring.
– Thermal/Acoustic insulation between the crew quarters and guest cabins realized with thermal insulation
sandwich fixed with needles, integrated onto floating bulkhead on viscous-elastic elements.
– Thermal/Acoustic insulation of the walls and exposed surfaces realized with thermal insulation sandwich
fixed with needles.
Teak deck
The main deck will be covered in high quality teak with planks 12mm thick glued directly onto the deck. Teak will cover also the steps leading to swimming platform.
Weathertight Doors, portholes and hatches
Weathertight side doors will be built in aluminium and GRP, with hand wheel closing systems, fitted with
stainless steel hinges and locks.
The weathertight deck hatches will be made of aluminium/reinforced polymer covered in teak or steel and
tempered glass with manual closing system and block system on opening position.
The watertight portholes will be in stainless steel AISI 316 and tempered glass.
Windows
Windows of main deck will have crystal panels with black border edges, designed with the width and
characteristics as required by the CE Rules.
The wheelhouse windows will be stratified and fitted with windscreen wipers.
All fixed windows of the hull and superstructures will be flush mounted glued directly to the GRP.
Main engines
2 x MTU 10V2000M86
Gearboxes
2 X ZF 2000 V, R = 2.92:1
Propellers
In Class “S” NiBrAl Alloy, designed to optimize comfort and performance.
Shafts
Made of Aquamet 17 or equivalent, diam. 90 mm (tolerance ± 1mm); supported on bronze brackets and
stern tube. Mechanical seals on tube’s ends.
Rudders
In AISI 316 stainless steel, surface and stock to ensure excellent manoeuvring performance. Rudder holes
with steel tube and bronze flanges, stocks in AQ 17 or equivalent.
Steering System
Steer by wire system with signal sends by CANbus and 400/24V linear actuators.
Bow Thruster
Hydraulic 560Kgf thrust bow thruster in a 400mm GRP tunnel integrated into the hull, with remote control
lever in the wheelhouse and on wings station.
Intruder
A fixed intruder, made in stainless steel (AISI 316), will be installed on the transom. The intruder will be
painted with antifouling.
Anchor Windlasses & Capstans
N. 2 electric anchor windlasses 4000 W, 400V, reversible, will be installed.
Remotely and locally operated.
N. 2 electrical stern capstans 2200W, 400V will be installed.
Stabilizers
A couple of electrical fins stabilizers will be installed on the hull with dedicated touch screen control panel
placed in wheelhouse.
The system can work at the following conditions:
– zero Speed with the boat at anchor;
– under Way with the boat sailing.
and will have the following characteristics:
– digital Stabilizer;
– digital touch screen control panel in wheelhouse;
– actuators 400VAC/3ph/50Hz with a power of approx. 5 kW;
– fins in GRP material with a surface of approx. 1,4m2 each;
The hull structure where fins will be installed will be reinforced in accordance to the Class Rules.
The stabilizer fins will be painted with antifouling.
General
All piping will be identified with labels indicating the type of plant as well as the flow direction. Colour
coding will be in accordance with the regulations in place.
All the sea cocks, valves, levers and pumps will be marked with identification labels in English.
Bilge System
Sistema c Centralized system with suction in each watertight compartment realized with IP 68 solenoid
valves remotely and locally operated. A portable suction device located in the engine room is linked to the
main manifold.
E/pump 400V, maximum capacity 200 l/min, with control stand at pump (reversible also for fire fighting
system).
24Vdc automatic bilge E/pumps, in each watertight compartment.
Emergency suction device located in the engine room linked to the main engines cooling system.
High level water sensors in each watertight compartment with relevant alarm in the wheelhouse.
Pipe material: CuNi/ approved fire-resistant flexible pipe.
Safety & Fire Fighting System
The onboard fire fighting systems is made up of the following components:
– Centralized Fire FightingFM200 for the engine room. The activation of this system is positioned on the
main deck aft cockpit.
– Saltwater Fire Fighting System consisting of one E/pump 400V (interchangeable with the bilge pump)
with maximum capacity 200 l/min, located in the engine room and connected to two fire hydrant on
main deck. The pump control command is on the wheelhouse touch screen, on engine room main
switch panel, and also next to the anchor windlasses. The pump can also be utilized for anchor chain
washing.
– Portable powder and CO2 fire extinguishers will be positioned as per CE Rule.
Pipe material: CuNi/Galvanized steel.
Fuel system
The Yacht fuel system total capacity is approx. 15.700 l, distributed between daily fuel tanks (circa 1.800
l/cad) and main storage tanks (aprox 7.500 l and 4.600 l respectively). Each tank will be fitted with vent
pipes.
Two electrical gauges will be installed: one for the main tanks and one for the daily fuel tanks.
Tank levels and relevant alarms are monitored on the wheelhouse touch screen and on the main engine
room switch board panel.
Fuel filling will be made by gravity through a dedicated filling locker located on each side of the vessel.
The fuel transfer is made by a 380V main pump, controlled by the main switch board panel and by the
wheelhouse touch screen monitor from which it would be possible to set the automatic transfer. In case of
damage, one 24V emergency electric pump and one emergency manual pump are installed.
The fuel supply (with fuel filters) to main engines and generators will be done by gravity from the daily fuel
tanks.
Pipe material: Stainless steel AISI 316/copper/approved fire-resistant flexible pipe.
Fresh Water System
The fresh water is supplied from a structural tank located in the aft engine room area, with a capacity of
approx. 2.500 l, or through a dock connection located inside the transom side hatch, provided with
pressure reduction valves. Fresh water tank levels are indicated on the wheelhouse touch screen monitor
and on the main electrical panel.
Fresh water system main components are:
– Fresh water pressure system group made up of two E/pumps: one 400V tri phase and one 24V
maximum capacity 80 l/min, positioned in the engine room, supplying water to the several boat users
such as sinks, showers, toilets, bidet, domestic appliances.
– N. 2 stainless steel 100 l boilers
Pipe material: Multilayer material.
The piping for hot water will be appropriately insulated.
Grey & Black Water Systems
Grey water system is made of a tank located in the engine room bilge with a capacity of approx. 1.000 l, for
run-off water collection from showers, sinks, bidets, dishwasher, washing machine and WC. Tank level is
displayed in the wheelhouse touch screen monitor and on the main electrical switchboard.
One 380 V tri phase E/pump, with maximum capacity of 50 l/min, is installed in the engine room for the
grey water tank discharge. It may be controlled manually from the wheelhouse touch screen monitor or
main electrical panel. In case of failure it will be possible to discharge directly overboard the run-off water
discharge from galley, washing machine and dishwasher.
For tank discharge by shore dock while moored, an international socket will be provided.
An emergency E/pump 380 V tri phase with a maximum capacity of 50 l/min is installed in by-pass.
Pipe material: Stainless steel AISI 316/PVC.
Sea Water System
Sea water system is made of following;
– N. 2 sea water intakes for: main engines, gearboxes, gas exhaust raiser, shaft seals, side exhaust
housing moulding cooling
– N. 2 sea water intake for each gen set cooling
– N. 1 sea water intake for fire fighting system
– N. 1 sea water intake for air conditioning pump system
If requested, connection to the sea water intakes will be also provided for: water-maker system and black
water treatment system.
All sea water intakes are fitted with filters and valves.
Pipe material: CuNi/Stainless steel AISI 316/Bronze.
Hydraulic System
An independent E/hydraulic unit for gangway, garage hatch and tender hauling/launching system with an
emergency hand pump.
Each hydraulic unit will be fitted with a dedicated oil collecting tank and with a separate circuit.
Main Engines & Main Generators Exhaust
– Discharge pipes AISI 316 and 304 covered with appropriate insulation, of adequate dimensions as
recommend by the main engine’s manufacturers.
– AISI 304 will be used for raiser piping “dry” areas, and AISI 316 will be used for the raiser piping “wet”areas cooled by sea water.
– AISI 316 will be used also for the low rpm by-pass exhaust pipes.
– Underwater discharge structural pipes in GRP, fairing sections to facilitate the gas release.
– GRP side exhaust housing moulding along the hull with stainless steel grids for the low rpm by-pass.
– Gen sets gas exhaust pipe system made in approved rubber housing, muffler and water/smoke
separator in GRP for noise reduction. The exhaust gas discharge will be realized by GRP carters on
both port and stbd side of the vessel.
Scuppers
Scuppers for rain and fresh water located on the main deck and on the flybridge will discharge directly
overboard.
Pipe material: Stainless steel AISI 316/CuNi/PVC.
Engine Room Ventilation
– N. 2 reversible E/ventilators 400V tri phase with a total capacity of 15.000 m³/h installed for engine room
ventilation
– N. 1 E/circulator 400V tri phase installed for air circulation under the garage box.
Extraction System for accommodations
In the accommodation areas a forced 230V/380V E/Air extractor will be fitted.
Air extractor system works together to air treatment.
The air treatment will be fitted in the following areas: owner’s cabin in the main deck and Guest/Vip’s
cabins for lower deck.
AIR CONDITIONING
Conditioning & Heating
An air conditioning system will be installed, with a total capacity of approx. 180.000 BTU/h. The cooling
unit, sea water and circulation pumps will be in the aft engine room area.
Fan coils will be installed in each area in suitable numbers depending on the layout and system dimensions.
All fan coils will be installed with suitable drip trays that will discharge condensation water directly
overboard (by gravity or by dedicated electric pumps).
All ail be provided with insulated plastic houses with joints in press-fitting.
Main Characteristics
The onboard main voltages will be the following:
– 400 V tri phase, 50 Hz for main power circuits.
– 230 V mono phase, 50Hz, for lighting systems, domestic appliances and other users not feed by 400V
system.
– 24 V DC with negative to earth for small power circuits, visual signals, emergency lighting, electronics,
communication systems, propulsion system and main engine start up.
– 12 V DC for main gen set starting and VHF.
Electric cable dimensions are properly sized related to the maximum amperage involved and made from
certified material that avoid flame propagation; they are housed in metal trays or self-extinguishing PVC
closed type raceways.
The main switchboards are in:
– Engine room.
Distribution switchboards will be also located in strategic area so that they can be easily recognized,
reached and operated.
All on board equipment will be earthed through copper stripes earth bands of suitable dimensions.
The grounding system will be the following:
– metallic components, sea water intakes, sea cocks, etc. This system will consist of two copper stripes
laid throughout the yacht and connected to the aft zinc anodes;
– grounding system for electrical components. It will link all control panel grounds and electrical
equipment grounds; it will be connected to dedicated porous plate;
– grounding system for the navigation electronic equipments. It will be connected to dedicated porous
plate.
Power Sources
Gen sets
Two (2) gen sets one 45 kW each, 400 V tri phase, 50 Hz, located in the engine room and mounted on silent blocks. The gen sets will be fitted with sound proof encasing, hour counter, switchboard
for start/stop and control. Gen sets starting control will also be located on the wheelhouse touch screen monitor
Shore Connections
One 400 V tri phase, 63A, 4 poles shore power connection located on the stern and connected with an
insulated transformer 400V/400V tri phase, 45kVA: connection is star point to provide 230 V.
Alternating current energy sources will be controlled by the main switchboard panel. On the switchboard
front door a voltmeter and a 400V frequency meter are installed. Power sources will be protected by
adequate power fuses or switch breakers and remote control switches are provided to managing them on
the yacht electric supply. Shore power system will be connected to a bar, protected by a thermo magnetic
switch, from which the power will be distributed to all yacht devices.
Batteries
Service Batteries: a 600Ah/24V gel accumulator battery bank will be fitted in the engine room, to supply
the following services:
– signalling;
– small power circuits;
– navigation lights and relevant switchboard;
– navigation electronics;
– monitoring.
MTU Elecronics Batteries: a 200 Ah/24V gel/AGM battery bank will be fitted in the engine room, to
supply the Main engines electronic equipment.
Main Engine Starting Batteries: 2 sets of gel/AGM batteries with a capacity of 240Ah @24 Vdc will be fitted
for the main engines starting, located in engine room. These batteries will be high capacity instant
discharging 1200A type.
Generator Starting Batteries: 2 sets of gel/AGM batteries, starting type, 140Ah@ 12V for each group for
gen set starting. These batteries will be high capacity instant discharge 800A type. Each battery will be
located in a dedicated space near the gen sets.
Battery charging system
Battery chargers are provided to recharge service batteries, VHF, emergency, Main engines starting and
electronics and gen sets starting battery banks:
– N. 2 automatic battery chargers 75A/24Vdc to recharge service batteries, located in the ER.
– N. 1 automatic battery charger 25A/24Vdc with switchboard to recharge main engine starting
batteries, and electronic batteries, located in the engine room.
– N. 1 automatic battery charger 25A/12Vdc, to recharge gen sets starting batteries, located in
the engine room.
– N. 1 automatic battery charger 10A/12Vdc, to recharge VHF batteries, located in the technical
space under the wheelhouse.
The battery chargers listed above will function automatically, with no-manual operation availability.
Battery charging system by alternator
Main engine starting batteries and service batteries will be also charged by main engines alternators, and
their charge is managed by a load charging dispatcher. Gen set alternators will charge their own stating
batteries. A thermo magnetic switch or fuse to protect 24V dc users lines connected to the main
switchboard is provided.
Lights & Sockets
Lighting of the engine room: 230/24V by means of ceiling led bars.
Lighting in the accommodation areas is generally by means of led spotlights.
Each cabin will be provided with the following devices:
– ceiling lights with controls close to entrance door and nightstand;
– reading light on behead with control close by;
– lights on bathroom ceiling with controls close to bathroom door;
– lights on bathroom mirror with controls close by;
– cabin sockets: 230V;
– bathroom sockets: 230V.
Lighting of the living areas, stairways and exits are made up of the following components:
– ceiling lights in the dining room and saloon with controls located in various places;
– ceiling lights with controls near to the exits;
– courtesy lights on stairs;
– 230 V sockets.
One dimmer circuits will be provided in the cockpit, saloon, dining room, Owner’s Cabin.
The exterior lighting will be by watertight led spotlights.
Alarms and Main Systems Controls
The following electrical control appliances will be installed:
– Voltmeter and ammeter to control 400V system, visible on both the wheelhouse touch screen monitor
and the main switch board.
– Illuminated push buttons for shore line power connection/disconnection on both wheelhouse touch
screen monitor and main electrical switch board.
– Gen set overload warning lights on wheelhouse touch screen control panel.
– Controls for generator start up and connection/disconnection on both the wheelhouse touch screen
monitor and the main switch board.
– Control for closing/opening of electrical systems sections on the main switchboard and on wheelhouse
touch screen monitor.
– Absorption Ammeter on wheelhouse touch screen monitor and main switchboard for battery charge.
– Ammeter on wheelhouse touch screen monitor and main switchboard for battery discharge.
The following alarms will be installed:
– Engine and gearbox alarm repeaters in the wheelhouse.
– Fuel high/low level alarm on wheelhouse touch screen monitor.
– Fresh water high/low level alarm on wheelhouse touch screen monitor.
– Grey and Black water high level alarm on wheelhouse touch screen monitor.
– Bilge water high level alarm on wheelhouse touch screen monitor and main switchboard.
– Smoke detection alarm for all inside areas of the vessel on wheelhouse touch screen monitor.
– Alarm for the opening of the garage hatch.
Wheelhouse Control Station
– N. 3 x 16” multi-function colour display.
– N. 1 speed, depth, wind and temperature indicator.
– N. 1 rudder angle indicator.
– N. 1 autopilot.
– N. 1 VHF.
Hard Top
– N. 1 GPS antenna.
– N. 1 radar open array antenna 4”.
– N. 1 VHF antenna.
– N. 1 Air signalling horns.
– N. 1 search light with controls located in wheelhouse and cockpit helm station.
– N. 1 Wind transducer.
Audio/Video System
The following equipment will be installed on board:
Salon
– N. 1 “smart TV” LED 50”.
– N. 1 Multi area amplifier with AIR play, kit home theatre with subwoofer connected to the aft cockpit
and fly deck with 5 speakers.
– N. 1 IPAD Mini for centralized control with Docking station
Owner’s cabin
– N. 1 “smart TV” LED 43’’.
– N. 1 Amplifier with AIR play, kit home theatre with subwoofer and 2 speakers.
– N. 1 IPAD Mini for centralized control with Docking station
Vip cabin
– N. 1 “smart TV” LED 32’’.
– N. 1 amplifier with 2 speakers.
– N. 1 infrared repeater
Guest’s Cabins, port and stbd
– N. 1 “smart TV” LED 32’’.
– N. 1 amplifier with 2 speakers.
– N. 1 infrared repeater.
Crew mess
– N. 1 TV LED 24”.
– N. 1 wireless hifi amplifier with 2 speakers.
– N. 1 infrared repeater.
Captain cabin
– N. 1 Jbl Bluetooth portable speaker
Cockpit, main deck
– N. 2 couples of speakers in the ceiling with connection from Salon
– Mini IPAD control of Salon
Upper deck, aft area
– Speakers predisposition.
Sky lounge
– TV Prearrangement.
– N. 1 Amplifier with AIR play with 2 speakers.
Timoneria
– N. 1 Sonos amplifier with two (2) speakers
Hull
– Porthole in stainless steel AISI 316 with tempered glass and frame in stainless steel
– Fender bar in stainless steel and rubber on each side of the vessel
– Anchor pocket in stainless steel recessed into the hull
Main deck
– Teak decking on main deck with 12mm thickness planks, in cockpit and sideways
– Teak on stair leading up to the fly-bridge from the cockpit.
– Teak decking on stairs leading down to the lift swimming platform.
– Teak grating 20mm thickness on the lift swimming platform from the cockpit.
– Handrail in stainless steel on stairway leading down to the lift swimming platform.
– Handrail in stainless steel on stairway leading up to fly-bridge.
– Tempered glass windows of approved thickness.
– Lift swimming platform with electro-hydraulic power system.
– Electro hydraulic gangway with teak grating and frame in stainless steel, retractable inside the upper
step of the port stair case.
– Manual Swimming ladder.
– Control panel for gangway and garage hatch manoeuvring.
– Electrical sockets for shore line in a dedicated stern hatch.
– Shore fresh water filling station, shore water connection and hot/cold mixer for shower located inside a
dedicated stern hatch.
– External deck lighting by watertight led lights.
– Shore connection for black water discharge in a dedicated stern hatch.
– Fresh water filling station.
Fairleads and Bollards:
– N. 4 fairleads in stainless steel at bow, two for each side;
– N. 3 bollards in stainless steel for each side (one astern, one at bow and last one at midship);
– N. 2 up and down bollards situated on the bathing platform;
– N. 2 foldable sunpad on each side.
10.2.1 External passageways and aft cockpit
– Gates in stainless steel to access the lift swimming platform.
– Saloon sliding door in tempered glass
– N. 2 side doors in GRP, one on each side, for side mooring boarding.
– Glass door for flybridge access from the cockpit on stbd side.
– Structural stairs to access the fly-bridge from the aft cockpit, stbd side.
– Structural stairs to access the fly-bridge from port sidewalk.
– GRP integrated sofa.
– N. 1 coffee table.
– N. 2 armchairs.
– N. 2 electric windlasses with integrated capstan 400V, 2200W tri phase.
– Fire fighting hose with shore.
– Brackets for boat hooks recessed inside a dedicated space on the internal bulwark.
– Fuel filling station on starboard side.
– N. 2 doors on starboard side to access the side passageways of the main deck.
– External cushions (See Materials and Furnishings).
– Protection covers for all exterior furniture.
– GRP door to access the engine room from the port side.
– Engine room emergency hatch in aluminum covered with teak.
– Audio/Video system as indicated previously in Par.9.3.
Bow area
– Antiskid deck finishing.
– N. 2 GRP side sofas.
– N. 1 technical storage, with an access from dedicated hatch on the deck, for store deck equipment and
windlass electrical panel.
– Stainless steel handrail.
– Chain locker provided with suitable drainage system.
– N. 2 anchor windlasses with integrated capstan, reversible, 400V 4000W.
– N. 4 drainage scuppers.
– Local control of windlass by means of portable device.
– N. 2 high-holding power galvanized steel anchor, 136Kg each.
– N. 2 Chains 14mm, length 110m each (2 x 4 lengths).
– Chain locker provided with suitable drainage system.
– Chain locker provided with suitable drainage system.
– Fire fighting hose with shore.
– Fresh water for deck washing.
– External cushions (See Materials and Furnishings).
– Protection covers for all outdoor furniture.
– N. 2 drainage scuppers.
10.3 Fly Bridge
The fly bridge may be reached through an external staircase coming up from the cockpit, from the
wheelhouse/Sky lounge or through an external central stairway to the bow area.
The main areas of the fly bridge will be equipped as follows:
Aft sun pad area
– Antiskid deck finishing.
– N. 4 chaise longues.
– N. 1 sofas.
– N. 1 coffee table.
– Bar area with fridge and sink.
– N. 4 drainage scuppers.
– N. 2 self-inflatable life-rafts for 8 people each laid in dedicated superstructure flash room provided with hydrostatic launching system.
– Handrail in stainless steel on the stairs leading down to the cockpit.
– Handrail in stainless steel-teak-tempered glass on the aft pulpit.
– External cushions (See Materials and Furnishings).
– Covers for all outdoor furniture.
– Fresh water for deck washing.
– Audio/Video set-up as indicated in Par.9.3.
Hard Top area/ Sky Lounge
– GRP hard top with navigation lights, antennas, acoustic alarm, search light and fly bridge lighting.
– Parquet floor.
– Table for 8/10 people and chairs.
– Cabinets to hold plates, glasses, and crockery on each side.
– Accessory for crockery inside cabinets.
– Door with folding elements in tempered glass.
– Door to wheelhouse access, on stbd side.
– Electrical curtain for sky-light
– Manual curtains.
– Audio/Video set-up as indicated in Par.9.3.
Wheelhouse
– Leather covered dashboard with navigation instruments.
– Sofa.
– Nautical chart area.
– Cabinet.
– Ceiling covered in wood or leather
– Parquet floor.
– Access door on stbd side aft bulkheads, to skylounge.
– Access GRP/Aluminum door for external passageway to stbd side.
– Stairs leading down to the starboard foyer covered in carpet or wood with non-slip finish.
– Helm station supplied with:
– Main Engine throttles with synchronizer.
– Main Engines and gearboxes instruments
– Navigation instruments indicate in Par. 9.1.
– Bow thruster controls.
– Electric control panel for repeat alarms and controls already on the touch screen.
– Touch screen Monitor 12” to control the main onboard systems including: 230V/400V and 24V
electrical circuits, horn commands, navigation lights, E/pump fuel transfer, anchor windlass, E/fire
fighting pump, alarm for high level water in bilge and controls for automatic bilge pumps, tank level
indicators, smoke detector indicators.
– Sub switchboard 230/400V and 24V.
– Synoptic navigation lights with manual control.
– Synoptic alarms and bilge pumps.
– Manual controls for windscreen wipers, horn, E/pump wheelhouse and autopilot.
Full Beam Area
– External passageways, o stbd side, with GRP stair covered with teak.
– Antiskid deck finishing.
– 2 Armchairs.
– N. 1 coffee table.
– N. 1 storage cabinet.
– External cushions (See Materials and Furnishings).
– Protection covers for all outdoor furniture.
– N. 2 drainage scuppers.
The Yacht including all onboard machinery and equipment, will be built according to Dir. 2013/53/EU, with
RINA surveying, in according to the following rules:
ISO 10087 Craft identification – Coding system
ISO 14945 Builder’s plate
ISO 11192 Graphical symbols
ISO 15085 Man-overboard prevention and recovery
ISO 11591 Field of vision from hel position
ISO 10240 Owner’s manual
RINA Rules Dimension and Construction of Hull
ISO 9093 – ISO 12216 Openings of hull, decks and superstructure
ISO 11812 Watertight cockpits and quick-draining cockpits
ISO 12217 Stability and buoyancy assessment and categorization
ISO 15083 Bilge-pumping systems
ISO 14946 Maximum load capacity
ISO 9094 Fire protection
ISO 15084 Anchoring, mooring and towing
ISO 7840 Fire resistant fuel hoses
ISO 10088 Permanently installed fuel systems
ISO 10133 Electrical system – Extra low voltage d.c. installations
ISO 11105 Ventilation of petrol engine and/or petrol tank compartments
ISO 13297 Electrical system – Alternating current installation
ISO 10592 Hydraulic steering system
ISO 8099 Machinery and systems
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