The
Arcona 380 is a 37’ (11.28m) cruiser-racer sailboat designed by
SQ Yacht Design (Sweden). She is built since 2014 by
Arcona Yachts (Sweden).
The
Arcona 380 is as well listed, on Boat-Specs.com, in
Shoal draft and
Race version (
see all the versions compared).
Arcona 380's main features
Model
Arcona 380
Version
Standard
Hull type
Monohull
Category
Cruiser-racer sailboat
Sailboat builder
Sailboat designer
Country
Sweden
Construction
GRP (glass reinforced polyester):
Sandwich Divinicell fiberglass vinylester (vacuum infusion)
First built hull
2014
Last built hull
Still in production
Appendages
Keel : L-shaped keel (with bulb)
Helm
Twin helm wheels
Rudder
Single spade rudder
Unsinkable
No
Trailerable
No
EC design category
iThe CE design category indicates the ability to cope with certain weather conditions (the sailboat is designed for these conditions)
A: Wind < force 9, Waves < 10m
B: Wind < force 8, Waves < 8m
C: Wind < force 6, Waves < 4m
D: Wind < force 4, Waves < 0,5mA
Standard public price ex. VAT (indicative only)
Arcona 380's main dimensions
Hull length
37’11.28 m
Waterline length
34’ 10”10.6 m
Beam (width)
12’ 6”3.8 m
Draft
6’ 11”2.1 m
Mast height from DWL
64’19.5 m
Light displacement (MLC)
15102 lb6850 kg
Ballast weight
5291 lb2400 kg
Arcona 380's rig and sails
Upwind sail area
931 ft²86.5 m²
Downwind sail area
1997 ft²185.5 m²
Mainsail area
511 ft²47.5 m²
Jib area
420 ft²39 m²
Symmetric spinnaker area
1485 ft²138 m²
I
iFore triangle height (from mast foot to fore stay top attachment)53’ 1”16.2 m
J
iFore triangle base (from mast foot to bottom of forestay)13’ 10”4.2 m
P
iMainsail hoist measurement (from tack to head)52’ 6”16 m
E
iMainsail foot measurement (from tack to clew)17’ 8”5.4 m
Rigging type
Sloop Marconi 9/10
Mast configuration
Keel stepped mast
Rotating spars
No
Number of levels of spreaders
2
Spreaders angle
Swept-back
Spars construction
Aluminum spars
Standing rigging
1x19 strand wire discontinuous
Arcona 380's performances
Upwind sail area to displacement
iThe ratio sail area to displacement is obtained by dividing the sail area by the boat's displaced volume to the power two-thirds.
The ratio sail area to displacement can be used to compare the relative sail plan of different sailboats no matter what their size.
Upwind: under 18 the ratio indicates a cruise oriented sailboat with limited performances especially in light wind, while over 25 it indicates a fast sailboat.258 ft²/T23.98 m²/T
Downwind sail area to displacement
iThe ratio sail area to displacement is obtained by dividing the sail area by the boat's displaced volume to the power two-thirds.
The ratio sail area to displacement can be used to compare the relative sail plan of different sailboats no matter what their size.554 ft²/T51.43 m²/T
Displacement-length ratio (DLR)
iThe Displacement Length Ratio (DLR) is a figure that points out the boat's weight compared to its waterline length. The DLR is obtained by dividing the boat's displacement in tons by the cube of one one-hundredth of the waterline length (in feet).
The DLR can be used to compare the relative mass of different sailboats no matter what their length:
a DLR less than 180 is indicative of a really light sailboat (race boat made for planning), while a DLR greater than 300 is indicative of a heavy cruising sailboat.163
Ballast ratio
iThe Ballast ratio is an indicator of stability; it is obtained by dividing the boat's displacement by the mass of the ballast. Since the stability depends also of the hull shapes and the position of the center of gravity, only the boats with similar ballast arrangements and hull shapes should be compared.
The higher the ballast ratio is, the greater is the stability.35 %
Critical hull speed
iAs a ship moves in the water, it creates standing waves that oppose its movement. This effect increases dramatically the resistance when the boat reaches a speed-length ratio (speed-length ratio is the ratio between the speed in knots and the square root of the waterline length in feet) of about 1.2 (corresponding to a Froude Number of 0.35) . This very sharp rise in resistance, between speed-length ratio of 1.2 to 1.5, is insurmountable for heavy sailboats and so becomes an apparent barrier. This leads to the concept of "hull speed".
The hull speed is obtained by multiplying the square root of the waterline length (in feet) by 1.34.7.90 knots
Arcona 380's auxiliary engine
Engine(s)
1 inboard engine
Engine(s) power
30 HP
Fuel type
Diesel
Fuel tank capacity
35.7 gal135 liters
Arcona 380's accommodations and layout
Cockpit
Open aft cockpit
Cabin(s)
3
Berth(s) (min./max.)
6 / 8
Head(s)
1
Freshwater tank capacity
52.8 gal200 liters
Holding tank capacity
21.1 gal80 liters
Boiler capacity
6.6 gal25 liters
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