As the Transportable Trawler project takes shape, one of the first decisions was the choice of power. Actually, we've been thinking outboards from the start. By combining a light composite build with a easily-driven hull shape, we're predicting some pretty impressive performance numbers from a pair of 60 hp four strokes. These motors are thrifty, low-maintenance, and cost-effective. Mounting them on the transom frees up a lot of real estate in the bilge, and should provide whisper-quiet operation at the helm. At the end of the day, you just tilt them out of the water, and save for the occasional fuel filter change, you can get up to 100 hours between services.
All that being said, it's possible to make a reasonable case for inboard diesel power, and several folks have already voiced preferences in that direction. Mirage has a lot of experience with diesel propulsion, not only in our full-displacement N and GH trawlers, but also in our performance sport fishing line. In fact, our 32 Center Console remains one of the most fuel-efficient canyon runners on the market, delivering an impressive 3.5 mpg at 35 mph on a single Volvo D3. So yes, diesel certainly has it's place in our lineup.
But we don't think that place includes the new Transportable Trawler. For several reasons. It's easy to rule out a traditional shaft-drive inboard as it would require a higher cabin sole, and a correspondingly taller deck house. The hull would also sit higher on a trailer, be more difficult to launch, and draw more water. A diesel also adds extra layers of complexity. In addition to the daily fluid checks that should be part of any diesel maintenance plan, there are intake hoses, exhaust systems, belts, shafts and engine mounts to monitor. And should you wrap a line around the prop, or ding a blade, well, somebody's going swimming.
The I/O option addresses some of these objections, and it wouldn't be difficult to tuck a Volvo D3 under this boat's cockpit. One problem with this install is weight, and weight reduction is one key to this boat's success. Even high-performance turbo diesels can't match outboards on a power-to-weight basis, and the Volvo would be more than twice as heavy as the four stroke outboards. You could also count on spending more than twice as much for the diesel and, at the end of the day, I/O drives still require more care and maintenance than outboards.
That just leaves a couple of concerns that traditionalists continue to raise with regards to outboards—though we feel they are pretty much non-issues. One is the ethanol content of most gasolines. Modern outboards are engineered to accommodate ethanol blends, and there are plenty of available additives to stabilize stored fuels. Also, fears of gasoline's greater inflammability as compared to diesel are over-rated, especially when dealing with outboards.
13 to So yes, we're going with a pair of four strokes on the transom. And though it's very early in the game, we'll take a chance and toss out a few benchmark performance numbers. Understand that these are based purely on educated conjecture, and assume that we will bring the final boat in at around the 6,500 pound dry-weight mark. We're considering Suzuki's DF60s, which should push this boat to a cruise speed of around 14 to 15 mph in calm water, when running between 4,000 and 4,500 rpm. Based on Suzuki's own test data, that would result in a fuel burn of 2.3 to 3.1 gallons per engine per hour. Even if we miss that mark by a bit, we're still looking at nearly 3 mpg at fast cruise, and a range in excess of 400 miles on the standard 150 gallons of fuel. Throttle back to traditional trawler speeds of eight knots, and you double that range with a bit to spare. Plenty to get you to the islands.
By Travis Fickett
My father has an almost uncanny ability to visualize objects in three dimensions, and he uses this to his advantage to come up with new designs and create intricate molded parts. He just seems to know how things will fit together, before they are even built. I'd like to think I share some of those talents, but I also take advantages of the tools of the 21st century such as Computer Aided Design, or CAD.
When I was given the first sketches of the tranportable trawler, I redrew the profile and plan views in Rhinoceros 3D, one of the most widely used surface modeling applications. Using Rhino, I can load and tweak specific parameters such as length, beam, and height to start the process of translating the design to the third dimension.
Rhino allows you to create a realistic rendering that can be rotated in any direction. This really helps visualize the final product, but that's just the beginning. I can use the program to see how things might fit together—or might not. For example, after creating a bow profile, I can move inside to determine if the foredeck height provides sufficient headroom in the forward stateroom. If not, modifications can be made with a few simple mouse clicks.
Fleshing out the 3D model involves thousands of these types of checks and tweaks. And as we home in on a final design, modeling provides yet another invaluable resource in the ability to calculate surface areas. This becomes especially important if you are working on a project that is weight sensitive.
One of the primary design parameters of this new boat was to create a final product that would weigh less than 6,000 to 6,500 pounds dry. We are confident we can hit this goal, as we have a lot of experience in cored construction techniques. My father was one of the pioneers of cored construction in the marine industry. He has been producing high-performance sailboats, sport fishing boats and light aircraft for more than 45 years, and knows how to create laminates that are light, strong and durable.
This gave me a tremendous advantage when it came time to do predictive modeling on the weight of the new boat. We laid up some material samples using the appropriate resins and coring materials, and determined the weight of these laminates on a square-foot basis. Using Rhino, I was then able to calculate the total surface area of the hull and topsides, plug in the weights and produce an accurate estimate. My target number is 2,000 pounds for the hull and superstructure. Based on the latest round of calculations, it looks like we can hit these numbers.
The other interesting thing that the CAD process helps visualize is the boat's running surfaces. This new model will be a radical departure from anything we've done before, as it taps into some very advanced hydrodynamic concepts. The bow has an extremely fine entry and a tall profile, with only the slightest flair above the waterline. Hard chines carry all the way aft, and the running surfaces taper to a 5 degree deadrise at the transom. This design should create significant lift, and minimal bow and stern waves. It is expected to operate efficiently at speeds between 10 and 15 knots without having to climb over the “hump” that plagues so-called “semi displacement” hull designs. We also expect it to perform well at higher speeds, as we know some owners may want the option of larger engines and speeds above 20 knots.
Above the hull/deck junction, there is an equally subtle tumblehome, which is not just a styling element. We plan to incorporate a substantial rub rail at this junction, which will be the widest point of the boat. Fenders are always a good idea when docking, but on this boat, you could pivot the bow against a piling without scuffing the gelcoat.
With these general design parameters solidified, the next step was creating a physical model, and once again the CAD software proved useful. Essentially, it allowed me to cut the boat into virtual cross sections, creating profile dimensions that are known as stations to boat builders. Working with these profiles, our in-house design team constructed a 12th scale physical model of the hull, then added basic details of the deck and topside. As I am writing this, the finished creation is going north to the Annapolis boat to be revealed to the boating public.
There will be some tweaks to the design made as we move forward, based on what we learn in development, and on feedback from the public. So far, this has been one of the most highly-anticipated new projects we have ever undertaken, and we've been impressed by the enthusiasm of those following the creative process. We are equally excited here at the factory, There's a sense that we are not just creating a new model, we are defining a new category of cruising boat.
Work on our new “transportable trawler” is underway
Maybe it was the recession, or maybe folks just got tired of owning and maintaining so much stuff. Whatever the reason, the concept of “downsizing” has taken hold in recent years, giving rise to such concepts as the “tiny house” movement. In the nautical realm, this has resulted in a newfound popularity for the so-called “trailer trawler,” a compact cruising boat that can be easily transported over the road, while also providing at least the basic creature comforts needed to live aboard.
A number of our customers have expressed interest these boats. But after being spoiled by the home-like amenities of the GH trawlers, they weren't quite ready to sleep on boat-cushion bunks, cook on built-in camp stoves and resort to portable toilets, which is the level of amenities you'll find on many of these pocket yachts. “Build us a transportable trawler that you can actually live aboard,” became an increasingly common request. A number of designers and builders have taken a stab at this concept, but after studying what is out there, we could find few that hit that “sweet spot” between big enough for comfort and too big for easy and economical overland transport.
We started to jot down a wish list of our own. We first decided that, though the boat would be designed for trailering, keeping to a standard 102-inch beam would be too restrictive. So instead we decided to keep it within the limits of the standard blanket permit for wide loads. This would allow owners to transport the vessel themselves with minimal paperwork and no special licenses, or to hire cost-effective towing services rather than contracting a big rig with a flatbed and hiring a crane to load and unload. Setting the max beam at a bit under 10 feet allowed for a well-proportioned hull in the 35 foot range, with plenty of living space.
The next consideration was weight. We'd looked at several trailerable trawlers in the 30-foot range that came in at well over 10,000 pounds—and that's before taking trailer weight into account. Moving that much mass around requires a very substantial tow rig, and demands a lot more skill on the part of the driver. To lighten things up, we decided to build the entire boat using composite cores. Our target was a 6,000 pound final product, which is achievable when using modern materials and methods. Another key to weight reduction would be the use of outboards rather than an inboard diesel engine. Modern outboard are extremely reliable, economical and quiet. They are also far less complicated to install, and hanging them on the transom frees up a lot of interior volume for other purposes.
Unlike our larger trawlers, which are strictly displacement speed vessels, we wanted a boat that could run at least into the mid teens, while still delivering good fuel economy. This lead to a hull design with a moderate aft deadrise for lift, and a very fine forward entry to cut through seas with minimal effort. Above the waterline, we decided to go for a classic look. The resulting first-blush profile is something we think papa Hemingway would have been proud to own.
By early September of this year, we've translated that first sketch into a computer-model, and are now able to begin the process of tweaking, measuring and forecasting that will lead up to the fabrication of a scale model, then full-sized molds. It's still early in the game, with a lot of details to be ironed out, but we can offer a few key points that we feel confident will make it through the design and build process.
Count on sleeping on a real mattress in an adult-sized bed. Expect a spacious bathroom with a shower that's large enough to actually use. Plan for a home-style galley with real appliances, and a social area spacious enough to entertain guest or provide realistic sleeping for children or a second couple. You'll be able to walk safely around the side decks, enter the boat comfortably from docks at any height from water level to six feet, and have plenty of room on the cabin top to mount a tender, kayaks and solar panels. Based on initial calculations, a pair of 60 hp four-stroke outboards should move this boat at cruising speeds in the 14 mph range, and it will handle larger engines and higher speeds for those so desiring. There’s plenty of room in the bilges to include a generator, A/C and heat, a water maker and more.
At the factory, we're getting pretty excited about this boat, because it could be a game changer. Here's a reasonably-priced cruiser that you could take into really skinny water, or head offshore and cruise to the islands. Putting it on the hard is as easy as backing a trailer down the ramp, and you could move it from Miami to Seattle in a matter of days. If you really want to get adventurous, put it on a roll-on cargo ship and take it over to Europe to explore the French canals or cruise the Med. For most of us, this is really all the boat you'd ever need to make your cruising dreams come true. Stay tuned for more details.
Great Harbour Trawlers invites all current and former owners to share their favorite photos for honors and a bit of cash. The Great Harbours, Great Times Photo Contest celebrates all aspects of the cruising lifestyle, from those exhilarating moments at sea to the quiet times at anchor and the camaraderie of dockside meetups.
Submitted photos must contain at least some portion of a Mirage Great Harbour Trawler. It could be anything from an epic image of your vessel in an amazing setting, to a snapshot of a favorite meal served on the back deck. The only limit is your imagination. Digital images should be a minimum of 1MB file sizes, and can be submitted in JPEG, TIF, PSD or CameraRaw formats. Deadline for submission is October 15, 2015.
Winning entries will be featured in the company’s 2016 calendar. A grand prize of $250 will be awarded, along with additional $100 prizes for each photo used. Everyone who submits an entry will receive a 2016 calendar, and may featured on the company website and facebook page.
So start sorting through those memory cards and hard drives, and send us your favorite memories of the Great Harbour lifestyle.
Submit Entries to email@example.com
We spend a lot of time with out customers, whether it's cruising with them, answering questions or catching up by phone. One of the most frequent complements we receive is on the size and layout of our galleys. We put a lot of though into designing cooking and dining spaces on the Great Harbours, and it's rewarding to know that owners appreciate the end results.
When I set out to create the first Great Harbor trawler, my goal was to build something that my family could live aboard comfortably, without sacrificing the conveniences of a shoreside home. But when I started looking at other trawlers on the market, it seemed like they were mired in a nautical tradition that made no sense on a modern power cruiser. It was crazy that a half-million dollar yacht would be fitted with 12-volt appliances originally designed for the cramped quarters and barebones electrical systems of a sailboat. The half-sized stoves and refrigerators they carried cost more but delivered less. And I knew that if something went wrong, I'd have to call a service tech that specialized in that particular brand of nautical hardware, and the bill would likely be much higher than for a typical home appliance repair.
In addition to small appliances, the physical size of many trawler galleys I looked at was quite cramped. In part, this was a result of the sailing heritage of some of the builders. When you are out in big seas on a small sailboat, rocking and rolling, the cook may be better off wedged into a tight space where everything is within arm's reach. The same probably holds true for some of the old-school, round-bottomed trawlers that are derivatives of sailboat hulls. But I wasn't building a sailboat without a mast. With the help of naval architect Lou Codega, I created a modern hull form based on lessons learned aboard commercial workboats, which not only had to survive challenging conditions, but also provide a stable working platform for crewmen.
It also helped that the Great Harbours have best-in-class interior volume. The original GH 37 has the equivalent living area of most 50-footers. With all that extra room to work with, it was fairly easy to come up with a kitchen that provided plenty of counter space, plus room for a full-sized sink, a standard 14-cubic-foot GE refrigerator, a radiant glass-top stove and a cabinet-mounted convection microwave—the same appliances you'd find in a suburban kitchen. We add dishwashers to simplify cleanup, and install built-in trash compactors, which really cuts down on the need to offload the trash on a daily basis.
When the GH series first came out, there were some who claimed 110-volt appliance had no place on a small seagoing vessel, and that we'd be tied to shore power, never able to spend a night on the hook. With modern generators operate in near silence, and reliable inverters capable of supplying reliable AC power when the generator is not needed, this simply wasn't true. In fact, we now hear from owners who spend weeks at a time away from the dock.
Our trawlers, endowed as they are with a broad beam, have ample room not only for an full-sized galley, but other home comforts as well. Our GH series boats can accommodate a a standard-size stacked washer dryer unit that tucks into a closet space, and some are equipped with stand alone units. The Navigator’s cavernous bosun's locker will accommodate a combo-unit washer/dryer, while her engine room will fit the same off-the-shelf washer and drier you'd find in a home basement. There are also places on either boat to put an off-the-shelf, top-loading freezer.
With sufficient refrigeration and freezer space to hold weeks worth of provisions, ample counter space to prep, and full-sized cooking appliances, Great Harbours really do deliver the “professional galley” others builders in our size range may advertise, but don’t deliver.
As you can see, we have taken a different approach to designing our Great Harbour Trawlers. When you look at what so many of the popular brands of trawlers continue to offer, you'll see that they're pretty much a variation of the same old thing. And they continue to follow old design ideas which have been repeated so often that they seem like the gospel truth.
We started with a clean piece of paper and with a clear understanding of what the intended use of our trawlers was going to be. Our trawlers are designed for those who want all the comforts of home in a safe, easy-to-handle, easy-to-maintain, modestly sized and priced vessel that can go virtually anywhere.
To achieve these objectives, and to keep our boats reasonably priced, we had to think differently - in some cases going against what so called "experts" continue to preach. We would like to share our thought process with you by posting the following series of design discussions, most of which have been published in the boating press. As you read them, please keep in mind the intended use of our Great Harbour Trawlers. Hopefully you'll see the connection between our design philosophies and the fact that we have so many owners who are living their dreams aboard their Great Harbour Trawler.
Any trawler that draws more than four feet puts its owner at a disadvantage in America's most popular cruising grounds. Gunkholing becomes a chore. Anchoring means sharing waters crowded with sailboats while shallower spots lie empty. Worst of all, when the sky threatens, the deep-draft trawlers will find far fewer harbors of refuge to accommodate them. Do not believe the argument that deep draft is safer; deep draft does not equal stability or comfort.