I'm not getting into this little argument, but I probably will. Breaking out the popcorn.

The issue you have with a scupper valve would be that we add ballast to our boats. That pushes the boat further into the water which creates additional presure onto the flap. That flap can only take so much presure before it fails and allows water going back into the boat. IMO, I wouldn't put my money on a scupper valve to keep water out of the bilge. It's just another point of failure that can/will eventually happen especially with a tow boat.

Why do you think towboat manufacturers don't use jet drives WA?

That's why I'm asking the question - to find out.

It could be as simple as "tradition". "Always been done this way." Perhaps any experiments that were performed were before people had or understood mixed-mode jetdrives. Perhaps they mounted them on the transom in the traditional way, instead of using a v-drive setup to push the jet forward and under the hull. Maybe folks believe some old wives' tales about jetdrives (hey, I'm the first to admit that jetski engines do not make good boat engines!).

Technology marches on. I'm just wondering if there's a good reason no one does it besides "We haven't tried it lately" or "I've heard they're not good for towboats". Has anyone actually tried it with a modern jetdrive on a modern hull? What happened?

You know Yamaha makes a "wake" boat, did you look and test-drive one prior to getting the inboard? I did not test-drive one because I was under the impression they threw a crappy wake. If you did, what were your impressions?

Not to start an argument, but you wouldn't need as large an impeller because jets are actually more efficient than open props. This is primarily because the jet can recover two forms of energy that are lost in an open prop environment.

First, an open prop thrusts water in two directions: Axially (in a straight line) and radially (in a circle spreading out from the prop). Centrifugal force causes a large amount of the water to be "spun away" from the prop, sort of like an expanding doughnut. This radial thrust is entirely wasted energy because it does not help to push the hull forward.

In a jetdrive, the impeller also accelerates water radially. However, the housing around the impeller can be designed to recapture and redirect this radial thrust so that it contributes to the axial thrust rather than being wasted. Water pumps that do this are called "mixed mode" pumps and the better jetdrives are also known as "mixed mode" (because they take advantage of both types of thrust coming off the impeller.) Open props have no way to recover radial energy, so it is lost.

Second, all spinning propellers (and impellers) impart swirl to the water. Like radial thrust, energy spent swirling water does nothing to move the hull forward so it is wasted energy. However, a jetdrive has a stator behind the impeller. The stator's vanes are tilted opposite those of the impeller. Why? Because that deswirls the water coming off the impeller - and uses it to move the hull forward.

Think of a nut on a bolt. If you turn the nut, it moves the nut linearly. But you can also move the nut linearly by turning the bolt. Likewise, if you put a spinning prop in still water the prop will want to move. But the prop will also want to move if you put it in spinning water. That's what a jetdrive does; it puts the "stationary prop" (stator vanes) in a column of spinning water (the swirl coming off the impeller). The spinning water moves the stator forward, which transfers the energy to the hull. In other words, the swirl energy is recaptured and transferred into linear motion.

Both of these characteristics are unique to jetdrives, and make them more efficient than open props. Because of that, a smaller jetdrive can often be used in place of a larger open prop.

There is nothing fuel efficient about a jet ski or jet boat they have always sucked fuel and always will. They are nothing but high rev-ing, high RPMS motors, and there is no way around horrible fuel efficiency and high rev-ing motors, im sorry but this has been proven to many times.

Wow, that looks awful. My jetboat doesn't generate anything even close to that much turbulence.

It's not a great shot (I was trying to catch my then 5YO son, not the turbulence), but here's an animated GIF that shows the water behind our jetboat:

We're new to inboards - our new 24Ve is our first. At the moment we own two boats so we're naturally doing comparisons and some questions have arisen.

1) Our jetboat has a dedicated floor drain that is plumbed to a dedicated scupper valve. Water that enters the passenger area (dripping clothing, boards, etc.) never gets to the engine compartment/bilge because it's routed straight to the lake. As a result, my jetboat's engine compartment remains dry all season long (and I do mean DRY). It appears that most inboards, though, just expect such water to drain into the bilge where it must be actively pumped out. What is the reasoning here? What would be wrong with a "sealed" floor and a floor drain?

2) Is there an inherent reason that wakeboats must be traditional inboards? I don't think the propulsion method plays a huge role in the shape of the wake or wave; I believe the hull is the dominant factor. Does it matter that the hull is being pushed forward by an exposed prop instead of an impeller? I'm asking because everyone jokes about "inboards only back up to the right". A jetdrive fixes that, as well as dramatically simplifies the entire drivetrain (no transmission at all, ultrafine control over F/R behavior, etc.). I'm not talking about using jetski engines - there are professional grade jetdrives used in everything from fishing boats to tugboats to cruise ships, powered by everything from electric motors to enormous diesels. The technology exists and is well proven. Is there some reason it can't be used on a wakeboat?

Thanks!

I totally agree, which is why I dismissed the jetski engines from this discussion. That's not what I'm talking about. Indeed, many of the "real" jetdrives are powered by diesel engines. I doubt anyone would claim those are "high revving motors".

There is a difference between the jetdrive and the engine powering it. I completely agree with you that jetski engines are inappropriate for a boat. I'm talking about real marine engines coupled to real jetdrives. For example, a PCM engine powering a jetdrive through a v-drive gearset. That is entirely possible. It's just a different "lower end" on the drivetrain.



On the other hand, I love the efficiency of mine - but that's because it's not powered by jetski engines. It has a real, marine class, Mercury 2.5L V6 EFI engine. I burn 4-5 gallons per hour when boarding or skiing, which is right in line with what other "big block" engines burn.

For comparison, I also have two jetskis powered by traditional jetski engines. THOSE things suck gas. The manual for one of them even says, in black and white, that at WOT a full tank will last 30 minutes (!!!).

In this thread I'm talking about real engines coupled to real jetdrives, not jetski engines and their little screaming impellers.