Both the hull and the deck is made of fibreglass. Generally, a hull made of fibreglass requires only a minimum of maintenance during the sailing season. And outside the sailing season, just bottom cleaning and perhaps anti-fouling painting once a year - a few hours of work, that's all.
The interior is like most other boats made of teak. Teak has the advantage of being naturally very oily and therefore water-repellent, which is suitable on boats.
The boat is equipped with one cabin, 4 berths and a galley.
The boat has more than one rig.
One option is a fractional rig. A fractional rig has smaller headsails which make tacking easier, which is an advantage for cruisers and racers, of course. The downside is that having the wind from behind often requires a gennaker or a spinnaker for optimal speed.
Unknown keel type
The keel is made of iron. Many people prefer lead keel in favour of iron. The main argument is that lead is much heavier than iron and a lead keel can therefore be made smaller which again result in less wet surface, i.e. less drag. In fact iron is quite heavy, just 30% less heavy than lead, so the advantage of a lead keel is often overstated.
H-Boat can enter even shallow marinas as the draft is just about 1.30 - 1.40 meter (4.27 - 4.57 ft) dependent on the load. See immersion rate below.
An outboard motor is often used on this boat. In that case the boat will typically require a power of 3 - 4 hp, alternatively 64 - 77 lbs thrust if you prefer an electrical motor. Electric outboards are becoming popular for sailboat owners who want clean instant power with less noise and no exhaust fumes.
This section covers widely used rules of thumb to describe the sailing characteristics. Please note that even though the calculations are correct, the interpretation of the results might not be valid for extreme boats.
What is Capsize Screening Formula (CSF)?
The capsize screening value for H-Boat is 1.94, indicating that this boat could - if evaluated by this formula alone - be accepted to participate in ocean races.
What is Theoretical Maximum Hull Speed?
The theoretical maximal speed of a displacement boat of this length is 6.1 knots. The term "Theoretical Maximum Hull Speed" is widely used even though a boat can sail faster. The term shall be interpreted as above the theoretical speed a great additional power is necessary for a small gain in speed.
The immersion rate is defined as the weight required to sink the boat a certain level.
The immersion rate for H-Boat is about 92 kg/cm, alternatively 515 lbs/inch.
Meaning: if you load 92 kg cargo on the boat then it will sink 1 cm.
Alternatively, if you load 515 lbs cargo on the boat it will sink 1 inch.
This section is statistical comparison with similar boats of the same category. The basis of the following statistical computations is our unique database with more than 26,000 different boat types and 350,000 data points.
What is Motion Comfort Ratio (MCR)?
The Motion Comfort Ratio for H-Boat is 15.8.
What is L/B (Length Beam Ratio)?
The l/b ratio for H-Boat is 3.80.
The ballast ratio for H-Boat is 50%.
What is Displacement Length Ratio?
The DL-ratio for H-Boat is 161 which categorizes this boat among 'light racers'.
What is SA/D (Sail Area Displacement ratio)?
The SA/D for H-Boat with ISO 8666 reference sail is 17.5, with a 135% genua the SA/D is 20.0.
What is Relative Speed Performance?
The Relative Speed Performance for H-Boat is 73
When buying anti-fouling bottom paint, it's nice to know how much to buy.
The surface of the wet bottom is about 16m2 (172 ft2).
Based on this, your favourite maritime shop can tell you the quantity you need.
Note: If you use a paint roller you will need more paint than if you use a paintbrush.
Dimensions of sail for fractional rig.
Are your sails worn out? You might find your next sail here: Sails for Sale
If you need to renew parts of your running rig and is not quite sure of the dimensions, you may find the estimates computed below useful.
Fractional rig | ||||
Usage | Length | Diameter | ||
Mainsail halyard | 23.1 m | (75.6 feet) | 8 mm | (5/16 inch) |
Jib/genoa halyard | 23.1 m | (75.6 feet) | 8 mm | (5/16 inch) |
Spinnaker halyard | 23.1 m | (75.6 feet) | 8 mm | (5/16 inch) |
Jib sheet | 8.3 m | (27.2 feet) | 10 mm | (3/8 inch) |
Genoa sheet | 8.3 m | (27.2 feet) | 10 mm | (3/8 inch) |
Mainsheet | 20.7 m | (67.9 feet) | 10 mm | (3/8 inch) |
Spinnaker sheet | 18.2 m | (59.8 feet) | 10 mm | (3/8 inch) |
Cunningham | 3.0 m | (9.8 feet) | 8 mm | (5/16 inch) |
Kickingstrap | 6.0 m | (19.7 feet) | 8 mm | (5/16 inch) |
Clew-outhaul | 6.0 m | (19.7 feet) | 8 mm | (5/16 inch) |
Fractional rig | ||||
Usage | Length | Diameter | ||
Mainsail halyard | 23.1 m | (75.6 feet) | 8 mm | (5/16 inch) |
Jib/genoa halyard | 23.1 m | (75.6 feet) | 8 mm | (5/16 inch) |
Spinnaker halyard | 23.1 m | (75.6 feet) | 8 mm | (5/16 inch) |
Jib sheet | 8.3 m | (27.2 feet) | 10 mm | (3/8 inch) |
Genoa sheet | 8.3 m | (27.2 feet) | 10 mm | (3/8 inch) |
Mainsheet | 20.7 m | (67.9 feet) | 10 mm | (3/8 inch) |
Spinnaker sheet | 18.2 m | (59.8 feet) | 10 mm | (3/8 inch) |
Cunningham | 3.0 m | (9.8 feet) | 8 mm | (5/16 inch) |
Kickingstrap | 6.0 m | (19.7 feet) | 8 mm | (5/16 inch) |
Clew-outhaul | 6.0 m | (19.7 feet) | 8 mm | (5/16 inch) |
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