NSY 118
36.86m | 121FT
Experience unparalleled luxury, safety, and efficiency with the NSY 118, an unsinkable yacht that sets a new standard in the marine industry. Combining cutting-edge technology with exquisite craftsmanship, the NSY 118 is designed for extraordinary journeys.
The 36.86-meter NSY 118, crafted by renowned designer Dennis Harjamaa, features a sleek carbon fibre hull, ensuring lightweight strength. Its state-of-the-art design and engineering deliver exceptional performance and durability.
The NSY 118 boasts a spacious saloon, modern kitchen, fully digital navigation cabin, VIP and crew cabins, and ample storage for adventure gear, ensuring a luxurious and functional experience.
Equipped with 100 m² of solar panels generating nearly 20 kWh, the NSY 118 supports sustainable cruising. Its hybrid propulsion system with twin Scania engines achieves up to 90% lower emissions compared to traditional yachts.
The yacht’s safety features include Kevlar-reinforced bulkheads, watertight doors, bulletproof windows, and a BCN filter system, ensuring clean air and unparalleled security.
The NSY 118 includes a diesel-powered RIB, functioning as a SOLAS-compliant lifeboat, and a deck that transforms into a 40 m² beach club, offering ultimate comfort and convenience.
The NSY 118 represents a groundbreaking achievement in marine engineering, promising luxurious and environmentally conscious travel.
Asking price $7.000.000
Main characteristics
- Loa: 36.86m (121’)
- Lod: 37.38m (122.6’)
- Interior design: Andreas Martin-Lof
- Top Speed (diesel only): 17 knots
- Sprint Speed (hybrid mode): 25 knots
- Fuel Tanks: 15400 litres (4,000 USG) in 8 integral tanks and stainless steel day tanks.
- Engine: Twin Scania DI13, 350 HP each
- Beam: 6.0m (19.69’)
- Draft: 1.34m (4.4′)
- Efficient cruise speed: 12 knots (single diesel in hybrid mode).
- Range at 12 knots: 6000 miles (only allowing for propulsion loads).
- Range at 10 knots: 8000 miles (only allowing for propulsion loads).
- Range at 8 knots: 12000+ miles (only allowing for propulsion loads).