Jim Michalak's Boat Designs

118 E Randall, Lebanon, IL 62254


A page of boat designs and essays.

(1June2011)This issue will complete a short series on how I take a stab at determining sail area. The 1 June issue will with luck cover the Rend Lake Messabout.

THE BOOK IS OUT!

BOATBUILDING FOR BEGINNERS (AND BEYOND)

is out now, written by me and edited by Garth Battista of Breakaway Books. You might find it at your bookstore. If not check it out at the....

ON LINE CATALOG OF MY PLANS...

...which can now be found at Duckworks Magazine. You order with a shopping cart set up and pay with credit cards or by Paypal. Then Duckworks sends me an email about the order and then I send the plans right from me to you.

MESSABOUT NOTICE:

THE REND LAKE MESSABOUT WILL TAKE PLACE ON JUNE 10 and 11 AT THE PINTAIL LOOP OF THE NORTH SANDUSKY CAMP GROUND AT REND LAKE IN SOUTHERN ILLINOIS. USUALLY THE SANDUSKY CAMP GROUNDS MIGHT BE FULL FOR THAT WEEKEND. BUT SOME OF OUR BOATERS HAVE RESERVED SOME OF THE SITES THEIR SO YOU (AND I) MIGHT PASS THAT WAY FIRST SINCE SEVERAL TENTERS CAN SHARE A CAMPSITE. IF NOT, THEN I WOULD TRY THE WAYNE FITZGERRELL STATE CAMPGROUND WHICH IS ON THE MAIN CAUSEWAY LEADING TO SANDUSKY. THEIR WEBSITE SAYS IT IS STRICTLY FIRST COME FIRST SERVE, NO RESERVATIONS ALLOWED. IT IS A VERY QUICK DRIVE FROM THERE TO SANDUSKY. HOPE TO SEE YOU THERE!
Left:

Hajo Smulder shown here in the Florida 120 with a somewhat rare Mixer2. Nice job!


Contents:

 

Contact info:

jim@jimsboats.com

Jim Michalak
118 E Randall,
Lebanon, IL 62254

Send $1 for info on 20 boats.

 

 

Contents


Sail Sizing2

TO RECAP...

We are trying to make an educated guess at how much sail area our new design should have. The basic view used in this discussion is this:

The main forces on the boat are the basic weight, the buoyancy which is equal and opposite to that weight, the force on the sail, and the force on the underwater fin which is assumed equal and opposite to the sail force. All is in balance and the boat is steady. Although the forces are equal and opposite here there is another set of equal and opposites here in that he torque formed by the weight/buoyancy forces, separated by the "righting arm", with be equal and opposite to the torqe formed by the sail/fin forces which are separated by the distance H.

So to get a stab at the sail area required for a design the designer has to first know or guess at the weight, the righting arm, and the sail/fin distance H.

Weight is not that easy to guess at especially considering that it can change with the boat's loading, but after a while you get the hang of it. It can be pretty nebulous as nobody ever weighs a boat or themselves.

The righting arm is something we talked about last issue. Very difficult to do by hand but computer programs like Hullform will do it in a fraction of a second if you first input the offsets of you hull's dimensions and center of gravity. In our example we used a basic box hull with various types of ballast which gives various locations of the center of gravity which in turn changes the righting arm as the boat heels. A program like Hullform will compute the righting arm and thus the righting moment quickly at any angle of heel you request and you can easily make a graph of the righting moment curve showing how the righting moment changes as the boat rolls. Here are the curves of the examples worked up last issue...

HOW TO MAKE THE JUMP FROM RIGHTING MOMENT TO SAIL AREA....

The pieces of the puzzle are falling into place. So far the actual sail rig you choose hasn't really figured into anything except that you might have guessed at the weight of the rig when you took a stab at the weight and center of gravity.

But now you will need a sketch of your proposed rig in order to guess at H, the distance from the sail center to the fin center. Notice I say "guess" and it brings up the idea that design is very much an interative process. You first "assume" a sail rig, then you will crank through the numbers with that assumption and in the end check to see the assumption was valid. If it wasn't you make an adjustment and try again. When I worked at the missile factory this was known as "massaging" the design.

Anyway, let's assume for the simple example boat that the sail area center was 10' above the fin area center.

Now things go quickly. Take the "no ballast" example. Its righting moment curve peaks at about 400 ft-lbs at around 15 degrees. If you divide the 400 by the assumed H of 10 you get 40 pounds. So if the sail force on this hull exceeds 40 pounds the hull will roll past the peak of the curve and keep rolling as long as the sail force is maintained and it suffers a knockdown. This is a simple calculation. Take the "fin ballast" example which has a peak at a little over 800 ft-lbs. With the same rig it would take 80 pounds of force on the sail to knock the boat over.

NOW TO RELATE SAIL FORCE TO SAIL AREA...

Let's look at this rough curve I gleaned from the writings of the great Polish sail scientist Tony Marchaj.

What we have here is a graph showing sail force, in pounds, at different angles to the wind for a 100 sq ft sail in a ten knot wind. There are three lines shown to cover the "efficiencies" shall we say of three grades of sails. Fabulous sails can produce more force per square foot that ordinary sails, at least up until they stall (or luff to a sailor). Sails have been studied in wind tunnels for a long long time, way before Marchaj. They are essentially wings and the values shown here closely agree to curves for real aircraft wings, although the aircraft designer has little interest in how the curve goes way past the stall point. But sailors do care about the sail force past the stall point since this is "downwind" sailing.

Anyway, a super sail, state of the art, might have a peak force coefficient of 2 and a crude sail might start to lose efficiency at a coefficient of 1. For a real life example I suggest using the 1.5 line. I think that would be a pretty good sail for the home built boat. But notice that once the peak is reached and the sailor turns downwind all sails have a coefficient of about 1.2. So damn near anything will go well downwind if you can control it - no need for fancy stuff here.

If we use our first example of the unballasted boat with H=10, then it takes 40 pounds on the sail to knock the boat down and if the boat had the rig shown on the chart, that happens in a 10 knot wind. Now, I think in this case we have an acceptable answer, that is to say this 100 sq ft rig is about right for the job here. I know ten knots is not a lot of wind but where I live the lakes will start to whitecap then, a visual indication that you are in for a rough sail in this boxy boat.

Let's say you weren't thinking in terms of 100 sq ft, maybe because you already have a 60 sq ft sail on hand. In a ten knot wind this sail will produce a maximum of 60/100 x 40 pounds or just 24 pounds of force. The boat won't capsize in a 10 knot wind because this sail can't produce enough force. But in a stronger wind it can.

SO HOW HARD DOES THE WIND BLOW.....

One thing that makes sailing exciting/dangerous is that the force of the wind increases as the square of its speed. Even the Wright brothers knew that. That means that the ratio used to calculate the new sail force is made by taking the ratio of the new wind to the old, and multiplying it by itself. So if you increase the wind speed by 1.5 to 15 knots, the sail now produces 1.5 x 1.5 = 2.25 times the sail force. And now the 60 sq ft sail will produce 54 pounds of force, more than enough to capsize this example boat.

Here is a chart I whipped up to show the wind/force relationship. It shows wind speed vs pressure (in pounds per square foot) for the three sail efficiencies we discussed.

One number I like to keep in my back pocket all the time is that a 14 knot wind will produce about 1 pound per square foot force on a normal sail. So in the examples the 100 square foot sail will produce a 100 pound force and the 60 square foot sail will produce 60 pounds. Both in theory will capsize the example boat with no ballast. It doesn't take much of a gust to burst from 10 to 14 knots and thus the exciting/dangerous aspect of sailing in gusting winds.

THINGS YOU CAN ADJUST....

If you don't like the results of your calculations you can massage the design a bit more. For example if you want to use the 100 square foot sail in 14 knot winds, you can reef it down to 40 square feet! That will usually also bring the sail down lower, reducing the H, so you might juggle the numbers yet another time to account for that. You could also add ballast to lower the cg of the boat which should increase the righting arm and thus increase the hull's stability. You can also "hike" out which can greatly increase the righting arm, at least a small heel angles and it might be noted is the only way you can sail a boat "flat". I suppose as a last resort you might change the shape of the hull, in particular making it beamier and start anew.

EVERY SAIL HAS ITS DAY...

Given the way the sail force increase as the square of the wind speed you can see that almost any sail will suit at a certain wind speed. So the 60 square foot sail will be perfect in about a 12 knot wind for our example and the 100 square foot sail perfect in a 9 knot wind. And a lot of us really can't tell the difference between those winds by the feel of our faces. So I think it best to not fret too much about this and not split hairs. But plan ahead with a good reefing scheme.

Contents


Ladybug

LADYBUG, SAILBOAT, 14' X 5,5', 250 POUNDS EMPTY

Ladybug is a lot like Woobo which was one of my first designs. There was a Woobo near here for a while. I never got to sail it but was told it would really fly. (That boat was made of Lauan plywood from Home Depot which fell to pieces after rainwater filled the boat over the winter.) Ladybug is a bit shorter and wider and deeper and has bench seating, much more suited for older legs. Both boats have a small motor well. The best motor for something like this is the 2hp Johnson/Evinrude which weighs 25 pounds. Even that is overkill since 1hp will push this hull at top speed, anything more just makes bigger waves. Here Sandra Leinweber pushes into a stiff breeze with a 2hp Honda.

This shape of hull with multichines and a plumb bow seems to be a good all around thing with rough water abilities. I think if there is a problem it is that it has almost no lateral drag and unless the boat has a big skeg or keelson or something like a leeboard or daggerboard or centerboard it would just as soon go sideways as straight. I've given Ladybug a keelson and when using power you should keep the leeboard down just enough so its tip drags the water.

Ladybug's hull has the layout I like the best - a 6-1/2' cockpit between two storage/buoyancy boxes. It would be a great solo camping boat. The buoyant wooden spars prevent it from turning turtle. You bring it upright with weight on the lowered leeboard. Then you must climb back on board and a slot in the rudder seems to be the best boarding ladder around, bringing your weight back on board where it least affects the boat. You will have to bail some water.

I've kept the same sail as with Woobo, a 75 square foot balanced lugsail. It hoists on a 13' mast with 11' yand and boom. All very low tech built with common materials.

Chuck Leinweber of Duckworksmagazine.com built the prototype and brought it to our Rend Lake messabout so I had a chance to go for a long ride in it. One thing that impressed me was how large it was for a 14' boat. In the opening photo you see it sail with three men on board, all comfortably sitting to windward on the bench seat, and I'm told it has sailed with four men with no effort. I do think it would be quite suitable for a family of four say with lots of room for all and storage space for all their junk. Here Sandra Leinweber sets things up at a recent campout on the Texas coast:

Here is the same campout from a distance with the mast folded to support a tent. I'm told the tent is not done yet. Chuck has modified the bench seats so that his expand towards the center and meet in the center thus making a 6' x 5' sleeping platform. Turns out a small commercial camping tent can be set up on that platform and that is what they are using for now.

Ladybug uses taped seam construction. Six sheets of 1/4" plywood, on sheet of 3/8" plywood and two sheets of 1/2' plywood.

Plans for Ladybug are $40.

Contents


Prototype News

Some of you may know that in addition to the one buck catalog which now contains 20 "done" boats, I offer another catalog of 20 unbuilt prototypes. The buck catalog has on its last page a list and brief description of the boats currently in the Catalog of Prototypes. That catalog also contains some articles that I wrote for Messing About In Boats and Boatbuilder magazines. The Catalog of Prototypes costs $3. The both together amount to 50 pages for $4, an offer you may have seen in Woodenboat ads. Payment must be in US funds. The banks here won't accept anything else. (I've got a little stash of foreign currency that I can admire but not spend.) I'm way too small for credit cards.

I think David Hahn's Out West Picara is the winner of the Picara race. Shown here on its first sail except there was no wind. Hopefully more later. (Not sure if a polytarp sail is suitable for a boat this heavy.

Here is a Musicbox2 out West.

This is Ted Arkey's Jukebox2 down in Sydney. Shown with the "ketchooner" rig, featuring his own polytarp sails, that is shown on the plans. Should have a sailing report soon.

And the Vole in New York is Garth Battista's of www.breakawaybooks.com, printer of my book and Max's old outboard book and many other fine sports books. Beautiful job! Garth is using a small lug rig for sail, not the sharpie sprit sail shown on the plans, so I will continue to carry the design as a prototype boat. But he has used it extensively on his Bahamas trip towed behind his Cormorant. Sort of like having a compact car towed behind an RV.

And a Deansbox seen in Texas:

The prototype Twister gets a test sail with three grown men, a big dog and and big motor with its lower unit down. Hmmmmm.....

Jackie and Mike Monies of Sail Oklahoma have two Catboxes underway....

And the first D'arcy Bryn goes 3D....

Contents


AN INDEX OF PAST ISSUES

THE WAY BACK ISSUE ARCHIVES

15jun10, Rend Lake 2010, Vector

1jul10, AF4 rebottom3, Wooboto

15jul10,Texas200a, Mikesboat

1aug10,Texas200b, Family Skiff

15aug10,Texas200c, Cormorant

1sep10,Texas200d, Trilars

15sep10,Texas200e, Philsboat

1oct10,Texas200f, Larsboat

15oct10,Sail Area Math, Jonsboat

1nov10,Sail Oklahoma a, Piccup

15nov10,Sail Oklahoma b, Caprice

1dec10,Taped Seams, Trilars

15dec10, Bulkhead Bevels, Raider

1jan11, Mast Tabernacles, OliveOyl

15jan11, Knockdown Recovery, DarcyBryn

1feb11, Knockdown Recovery 2, Caroline

15feb11, Windsurfer Mod, IMB

1mar11, Rowboat Setup, Paddleplank

15mar11, Rigging A Lugsail, Hapscut

1apr11, Displacement, Marksbark

15apr11, Sharpie Sprit Sails, Toon2

1may11, Small Boat Rudders, Blobster

15may11, Sail Sizing1, Mayfly16

SOME LINKS

Mother of All Boat Links

Cheap Pages

Duckworks Magazine

The Boatbuilding Community

Kilburn's Power Skiff

Bruce Builds Roar

Dave Carnell

Rich builds AF2

JB Builds AF4

JB Builds Sportdory

Hullform Download

Plyboats Demo Download

Brokeboats

Brian builds Roar2

Herb builds AF3

Herb builds RB42

Barry Builds Toto



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