Dolfi R&S, a rowing/sailing for quiet balads in inland and coastal waters

Discussion in 'Boat Design' started by Dolfiman, Aug 2, 2019.

  1. Dolfiman
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    Dolfiman Senior Member

    Dolfi R&S project wants to be part of the rowing & sailing revival, inspired by the classic lines of historical boats, here especially the "Whitehall", for the authentic pleasure of quiet sailings in inland and coastal waters.
    At first, it is the rowing practice for one rower which is targeted, with the possibility of roaming and camping stops on the shore. With a waterline length of 4.35 m and a hull width of 1.34 m at the level of the oar locks, an average speed of 3 to 4 knots by rowing can be targeted on a several hours basis (by flat sea and no or light wind). The standard design includes a fixed seat, but a slide seat option is feasible.
    Thanks to a sail of 5,6 m2 (60 ft, or 7,5 m2 / 80 ft in option) and removable daggerboard and rudder, it is also the possibility to go sailing when weather conditions permit, including upwind although without seeking the same performance as with a dinghy.

    The project is detailed on the principle of a strip-planking construction, with 1/4'' thick Red Cedar slats + external and internal glass resin epoxy stratification, combining lightness, strength, watertightness and easy maintenance, not to mention the aesthetics of such refined building.

    Many thanks in advance for your comments,
     

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  2. Squidly-Diddly
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    Squidly-Diddly Senior Member

    I don't think anyone rows for more that few hundred yards without a sliding seat rig these days. Only time people row non-sliding seat is yacht-to-shore dingy, or beat up aluminum boat for sitting and fishing, or LARP on Viking ship or age-of-sail jolly-boat. I'd go with sliding seat as default, since you should be able to easily go to non-sliding but not the other way.

    I'd also build in a provision for using a tiny outboard. Just make it so adding one isn't a problem, to greatly broaden the appeal. There are lots of places where you might want to travel a bit from a launch point to get to the nice area you really want play around in. Like people that will put road bikes on top of cars to drive to the section of road they want to ride their bikes on, but different.
     
  3. J Smythe
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    J Smythe Junior Member

    That looks sweet! You could throw a rucksack on that baby, and off you go for a weekend of fishing, hunting, sailing, whatever. Very nice.
     
  4. philSweet
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    philSweet Senior Member

    Nice work.

    I'd want a couple of things arranged a bit differently. It looks like the rowing seat is about 10" above the bottom. Won't the oar hands hit the knees at that height? I think the seat needs to be a little higher for a boat this big. My dink has 10" seat height, but it is only 8' and uses 7' oars. I'd also want to have the option of using 9' oars and folding outrigger oarlocks on this boat, so the ergonomics seem slightly cramped.

    Stem piece needs to be thicker. First thing I'm going to do is drill 4 3/8 holes through it. Two for a big U-bolt and two more for a rope handle. Figure about 10 tons load on the U bolt. I've borne this in 1/4" hull.

    Dagger board is a bit small. It seems to be sized the way you size one for a 40 or 50 footer. That doesn't work for little light boats if you have any ambition to tack under sail. I'd allow for 50% more chord. Maybe you won't need all of that, but you will want most of that. It's plenty thick, just needs more chord.

    May as well tie the aft end of the daggerboard case to the seat.

    To build it with strips, you will need two intermediate molds between the permanent frames. I'd just strip build it over all molds, glass the outside, then sand the inside (this is a real pita), then glass inside and add the frames. At 16', I'd be very tempted to use a 3/8 by 2" bilge strip to get me started. And a 3/8 garboard strake wouldn't be a bad idea either.

    It looks like your heeling calcs targeted the wrong center of buoyancy (2.041 vs 2.104 for the level state.) I'd shift some volume so that the trim angle at 20 degrees heel was zero (and not more than 0.1 degree anywhere in between). It's a pretty small shift. But a there's a logic to wineglass sterns. Some people are bound to revise your transom, and those wineglass sterns don't want trim. That aft kink in the 20 degree heeled waterline where it crosses the centerplane - it probably shouldn't be there for this type craft. Also notice the trim changes from pos. to neg. going from 10 to 20 degrees of heel. That is actually a fairly sizable trim change for just a ten degree difference in heel. If you narrowed the hull at the 300 station just a smidgen, making the exit angle steeper, reducing waterline curvature at the 300 station and shifting the inflection point of the waterline forward a bit, I think that would lessen all the trim numbers. <Edit> I just realized the seating positions are probably different for rowing and sailing. That would account for the different lcb's.

    There's a logic to where the waterline inflection points go on a sailboat. It is a function of vertical cg and the design heel under sail. The idea is to generate the most RM with the least wetted surface area. If the cg is high, when heeled, the bow is on the wrong side generating negative RM. You want to minimize wetted area, displacement, and negative RM; so hollow until the waterline shifts under the heeled ycg. Waterline curvature wants to be proportional to the square of the beam referenced to the ycg. A crew moving to a hiking position radically changes the ideal waterlines for a small sailboat. For a boat optimized for rowing, let it heel before climbing onto the rail.
     
    Last edited: Aug 3, 2019
  5. philSweet
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    philSweet Senior Member

    I went looking for some hulls to compare this with because I thought your bow sections were a bit spoony. I found this wonderful site full of punts and rodneys

    Punts & Rodneys – Boats & Builders http://boatsandbuilders.com/category/boats/punts-rodneys

    from their site —

    http://boatsandbuilders.com/wp-content/uploads/GUNNING-PUNT_LINESPLAN.pdf

    http://boatsandbuilders.com/wp-content/uploads/SAMUEL-ANDREWS-LINES.pdf

    http://boatsandbuilders.com/wp-content/uploads/STEWART-STURGE-PUNT.pdf

    http://boatsandbuilders.com/wp-content/uploads/SAM-FELTHAM-LINES-PLAN_larger.pdf

    Notice the first two are old boats and had the wineglass stern. We seem to have forgotten why we put wineglass sterns on these boats for two centuries. They used to be sailed and rowed.

    Jolly boat - Wikipedia https://en.wikipedia.org/wiki/Jolly_boat
     
  6. Dolfiman
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    Dolfiman Senior Member

    Many thanks all for your likes, developed comments and suggestions. My answers here below and a hull revision attached.

    Ok, you are right. In any case (of client preference), the 2 options should be easily interchangeable and compatible with the daggerboard case.

    I think that the present rear transom design, quasi vertical with an half-beam of 40 cm, allows that easily side (or in place of) the rudder (which is removable anyway, as not necessary for the rowing mode)

    >>> Vertically : the rowing seat is at Z + 23 cm /H0 and the rower feet at Z – 0,09 cm /Ho, that means the seat above the bottom is 32 cm = 12,6''. The oar locks are ~ Z +34 cm , so +11 cm (4, 3'') above the seat.
    >>> In longitudinal (I should draw also this view to complete the ergonomics study), the seat center is at 37 cm (14,6'') of the oar locks, and the rower feet are at around 85 cm (33,5'') of the seat center (rower size depending).
    These figures are from average ones communicated by a friend having a similar boat with a fixed seat. Of course, rower sizes can be very variable, and so do the seat (adjustable position fore/aft), the feet holds also, and if needed the seat can be put few cm higher to cope with the knees height issue.
    >>> In transversal : in standard there will be fixed oar locks at gunwale level (so B 1,34 m) , but I suppose it can be also possible to clamp some removable outriggers in order to enlarge the oar locks width if desire.

    The bow upper end piece is 20 mm thick, it is not sufficient ? Your 10 tons seems a very heavy load case, I would take 1 ton (already 5 times the displacement in charge) in case of a towing occurrence.

    Ok, I changed the root chord from 25 to 35 cm, and the draft from 80 to 85 cm, in the revision attached

    Ok, I understand that what you describe is the usual standard for that type of boat size, the one I suggested is more adapted for a keel boat. Both are compatible with the project present definition I think.

    Ok, you mean some strips thicker (3/8'' instead of 1/4'') at critical locations (low incidence on the hull weight) , or the full planking in 3/8'' ? (>>> that costs +10 kg for the bare hull , 76 kg instead of 66 , 167,5 lbs instead of 145,5).

    it is not a mistake, 2,041 m is the Xg for the reference displacement which includes the 105 kg payload, so resulting from the X position choice for the water reserve (5 kg) and the roaming equipment (20 kg), the rower (80 kg) being on the fixed rowing seat. So, I can move forward the water reserve and roaming equipmement to have exactly Xg = LCB, for example X 330 (behind the mast) for the 5 kg water and X 153 for the 20 kg equipment, then leading to Xg = LCB = 2,105 m.

    I think the answer is mostly in your last remark : here, the rower becoming helmsman makes the trim dependant of his X position when under sail with heel. I did the heel study just to see the main trend, to have an estimation of the RM at 20° (> 0,73 kN.m, of which 63% due to the hiking position of the helmsman sit windward), a look at the waterline shape : I am not worry too much about the aft kink (seems unavoidable with a wine glass stern, when heeled), in a zone where the flow is detached in dynamic.

    Thanks to these hulls finds, very informative. I agree that my bow sections are a bit too spoony, with a max curvature too low, can be too stiff and reactive re. pitch motion on small waves >>> I revised the project hull for more smooth bow sections while maintaining all other features inc. the waterline shape, here attached. I will revise the all brochure on that basis.
     

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  7. Dolfiman
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    Dolfiman Senior Member

    So I tried to take into account your remarks at the best within this revised version attached, with in particular : less "spoony" fore stations, a bigger daggerboard (chord and draft), a better ergonomy of the fix seated rower, … Many thanks again for your contributions and for more comments if any.
     

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  8. DCockey
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    DCockey Senior Member

    Very nice presentation.
     
  9. philSweet
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    philSweet Senior Member

    Looks good. I have an issue with the sheer construction, though. Given the strip plank construction with inner and outer fiberglass drapes, hull rigidity is effectively proportional to the hull's Gausian curvature. You have a tight bilge turn throughout the boat and it is very strong and stiff there up to about 6 inches below the sheer. Above that, the hull is relatively weak, and it will be prone to large stress concentrations (prone to oil-canning) along the grain lines of the strips where the frames flatten out. I would add a substantial inner wale the entire length of the boat. In heartwood mahogany or white oak, I would use 3/8 by 3 1/2 inches. It should be sized about like the keelson, because it is doing essentially the same job. If of softer wood, use 7/16. As things are now, I would expect cracks to develop below the oarlocks with even moderate rowing. Add a couple of spacer blocks between the wale and the hull in each frame bay.

    The bilge stringer is important in a conventional planked hull because the hull planks only load in tension, and they try to flatten out the frame curves. You don't have that problem. The bilge stringer is entirely unnecessary structurally, and I would rather hang the seats from knees to the sheer, adding strength to the upper hull where it is needed.

    Also check the foot clearance of the helmsman. With the foam under the seats, you are loosing toe space that I had though was available.

    As mentioned earlier, my preference would be for raising the seats. I'd probably just slam all of them up to the bottom of the in wale. This would improve global stress distributions.
     
  10. DCockey
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    DCockey Senior Member

    The height difference between the oarlocks and the seat for the rower needs to be sufficient for the oars to be raised high enough out of the water without interfering with the rower's legs. Raising the seats would require raising the oarlocks. Raising the seats would also raise the CG and reduce stability.
     
  11. philSweet
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    philSweet Senior Member

    Raising the oarlocks isn't a problem, especially if you fit folding outrigger oarlocks, which I would want here. You can buy these from chandlers, or make them yourself out of big gate hinges for about $10 and a few minutes in the shop.

    [​IMG]

    [​IMG]
     
  12. Dolfiman
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    Dolfiman Senior Member

    Many thanks David and Phil for your appreciations and comments.
    I understand your arguments and suggestion, may I have not highlighted enough on what I have already planned for the structure of the sheer line : a continuous top stringer Th 0,63'' by H 1,18'' in Oregon Pine, + externally a bevelled rubbing strake Th 0,39'' x H 1,18'' + internally, between frames X173 and X222 (where is the oarlock axis at X177), an extra piece of stringer of same scantling as the top one, all that probably more clear on the sketch attached.
    >>> Is that can be ok or still deserves a reinforcement as the one you describe ?
     

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  13. philSweet
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    philSweet Senior Member

    Yes, it's still not enough. If you look at the sheer rail on the sweet little clinker pullboat posted above, the rail assembly looks like it was fashioned out of 37mm (6/4) mahogany. The rail all totaled looks about 35 mm x 100 mm. That almost works as a seat when sailing. Put a little square throwable float there and you have a seat. My 16' sailing dingy was beamier and had much more sail, so I used a solid mahogany 35 mm x 140 mm rail on top of a 25 mm x 25 mm sheer stringer. It looked just like the pullboat's rail only wider, and two could sit on it to windward.

    I would still add a bow-to-stern in-wale to what you have (and as mentioned in an earlier post, I would increase the strip thickness on the top 80mm of the hull). If an in-wale on the flat, start with a 90mm x 10mm slat and by the time it's surfaced and fitted, it will be about right. The short reinforcing piece is just too short. The cap you now show makes blocking the in-wale a lot less fussy. Or just duplicate the heavier cap as in the pullboat shown above. Both the pullboat's cap and the in-wale I propose will increase the rail stiffness by about a factor of 10 over what you have, and this is needed.

    Try to always work the outside fibers of stringers full length of the boat, and if you need to increase the section locally, fit a cheater or blocks in the middle (like a web) and taper everything to a fair-thee-well. Scabbing a stiffener on like you show is just bad form even if it is hidden from view.

    This looks like about 1/3 cubic foot of hardwood, so 17lbs or so. The solid pullboat cap would add about twice that.
     

  14. Dolfiman
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    Dolfiman Senior Member

    Ok, and thanks for your detailed answers, I will take this into account to review the sheer line structure, at first with some schematic views to be sure that we are in tune.
     
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