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Turbine engines

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Re: Turbine engines
Post by saber964   » Tue Aug 02, 2016 7:49 pm

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Joat42 wrote:
Max"[quote="Joat42 wrote:High pressure systems comprising of a gas that has high compressibility is a sure recipe for disaster. A little battle damage and things tend to rupture in spectacular ways - often deadly.


Much like the magazine taking a hit... Still, they keep building warships with magazines...

Max

You need to have magazines on a warship and they are usually located in the citadels which are heavily armored (at least if we talk about modern ships, don't know how the Haraldhs are setup).

Using compressed air/gas for propulsion is far more inefficient, expensive and dangerous than using hydrostatic propulsion, and Safeholds engineers has far more experience in hydraulics than pneumatics.

Even today its extremely difficult to built high pressure gas systems that isn't prone to a diverse range of problems where contamination is the top one. Also, finding leaks in pneumatic systems are a nightmare compared to a hydraulic system where you can see the hydraulic fluid leaking.

Another issue with pneumatic systems compared to hydraulics is that pneumatics require a lot of more energy because of the heat-loss during the compression cycle.

If you need a system that can handle high/heavy loads only hydraulics works in this context, since pneumatics require so much larger motors/cylinders to be able to handle same load.[/quote]
Take it from someone who served in the Navy. A ammo magazine is buried deep into the hull of a ship, it rests right over the keel and is very heavily armored. Even on sailing ships the powder magazine is deep in the ship.

As to using seawater as a working fluid for hydraulic fluid, forget it entirely. You could use it in a absolutely emergency basis to get home but you would have to replace the entire system it was used in. And I do mean everything would have to be replaced. Not only is a saltwater environment corrosive to steel it has detrimental effects on natural rubber which is probably what they are using for reinforced hoses.
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Re: Turbine engines
Post by Peter2   » Wed Aug 03, 2016 4:46 am

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saber964 wrote:[snip]

Even today its extremely difficult to built high pressure gas systems that isn't prone to a diverse range of problems where contamination is the top one. Also, finding leaks in pneumatic systems are a nightmare compared to a hydraulic system where you can see the hydraulic fluid leaking.

[snip]


Oh yes indeed. And exactly the same applies at the other end of the pressure range. Try asking any experimental physical chemist that has had to work with one-off custom-built glass high-vacuum rigs about his experiences with leaks. Nightmare time . . .
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Re: Turbine engines
Post by Joat42   » Wed Aug 03, 2016 7:24 am

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Peter2 wrote:
Joat42 wrote:[snip]

Even today its extremely difficult to built high pressure gas systems that isn't prone to a diverse range of problems where contamination is the top one. Also, finding leaks in pneumatic systems are a nightmare compared to a hydraulic system where you can see the hydraulic fluid leaking.

[snip]


Oh yes indeed. And exactly the same applies at the other end of the pressure range. Try asking any experimental physical chemist that has had to work with one-off custom-built glass high-vacuum rigs about his experiences with leaks. Nightmare time . . .
.

One practical example of finding leaks that many have experienced secondhand is when the bill comes from the shop that fixed your cars aircon... ;)

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Re: Turbine engines
Post by Max   » Wed Aug 03, 2016 6:03 pm

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Joat42 wrote:You need to have magazines on a warship and they are usually located in the citadels which are heavily armored (at least if we talk about modern ships, don't know how the Haraldhs are setup).

Using compressed air/gas for propulsion is far more inefficient, expensive and dangerous than using hydrostatic propulsion, and Safeholds engineers has far more experience in hydraulics than pneumatics.

Even today its extremely difficult to built high pressure gas systems that isn't prone to a diverse range of problems where contamination is the top one. Also, finding leaks in pneumatic systems are a nightmare compared to a hydraulic system where you can see the hydraulic fluid leaking.

Another issue with pneumatic systems compared to hydraulics is that pneumatics require a lot of more energy because of the heat-loss during the compression cycle.

If you need a system that can handle high/heavy loads only hydraulics works in this context, since pneumatics require so much larger motors/cylinders to be able to handle same load.


OK. This is a brain storming session and I'm not all that invested in pneumatic systems. The problem was coupling a turbine to the propulsion. Gearage and other direct connection systems ware given a down-check. I remembered that pneumatic systems had been used recently when a problem like that arose. Hydraulic systems were not practical for some reason. Still, you seem to have some ego attachment to that solution. You've thrown up some pretty weak objections...

Heat loss from compression:
Scavenge the the heat and use it to pre-heat the water going into the boiler. If this is a direct burn fuel injected turbine, the compressed air is available from a tap into the compression stage.

Leaks:
This is air, not some exotic gas. The whistle will lead you to the major leaks and soapy water will find the lesser leaks.

Explosive potential:
Intermediate between fuel stores and armaments. Comparable to boilers. You don't need propulsion quite as much as you need ammunition, but it is still one of your more valuable assets and worth some effort to protect. One of the benefits of decoupling the engines and the motors is that you can put the more vulnerable pieces in safer places.

Contamination:
Again, air is not an exotic working fluid and it is fairly easy to clean. Hydraulic fluids (even distilled water) are exotic by comparison and would have to be recycled religiously and losses would be hard to make up.

If you get away from turbines, you might get some use of distilled water with steam pressure accumulators as your working fluid in a hydraulic system.

Max
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Re: Turbine engines
Post by Castenea   » Wed Aug 03, 2016 7:16 pm

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Max wrote:Contamination:
Again, air is not an exotic working fluid and it is fairly easy to clean. Hydraulic fluids (even distilled water) are exotic by comparison and would have to be recycled religiously and losses would be hard to make up.

If you get away from turbines, you might get some use of distilled water with steam pressure accumulators as your working fluid in a hydraulic system.

Max
Actually contamination for air systems is unavoidable. Remember you will be pulling in air from above an ocean, water and likely salt contamination will be unavoidable. The air sent down the lines will have some lubrication oil in it also.
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Re: Turbine engines
Post by Silverwall   » Wed Aug 03, 2016 8:46 pm

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Also if the air is at a high enough pressure to turn a turbine a leak is a really big deal. You go looking for leaks in high pressure steam lines with a broom handle and know when you have found it when the end gets cut off :o

It is also easy to loose close to 30% of your energy due to poorly fitting connections.
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Re: Turbine engines
Post by Weird Harold   » Wed Aug 03, 2016 11:30 pm

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Max wrote:
Joat42 wrote:Another issue with pneumatic systems compared to hydraulics is that pneumatics require a lot of more energy because of the heat-loss during the compression cycle.


Heat loss from compression:
Scavenge the the heat and use it to pre-heat the water going into the boiler. If this is a direct burn fuel injected turbine, the compressed air is available from a tap into the compression stage.


Another disadvantage of pneumatic motors in this particular application is the refrigeration effect of the expanding air driving the motor. The heat generated by compressing the air isn't much of a problem; it can be used for any of a variety of purposes -- heating living spaces in high latitudes, for example. Dealing with the ice forming around submerged pneumatic motors would be a different proposition.

For that matter, dealing with the exhaust air from a pneumatic system is going to be a problem since it would cause the propeller to cavitate if it exhausts at the motor where most pneumatic systems exhaust.
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Answers! I got lots of answers!

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Re: Turbine engines
Post by Joat42   » Thu Aug 04, 2016 4:53 am

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Max wrote:
Joat42 wrote:You need to have magazines on a warship and they are usually located in the citadels which are heavily armored (at least if we talk about modern ships, don't know how the Haraldhs are setup).

Using compressed air/gas for propulsion is far more inefficient, expensive and dangerous than using hydrostatic propulsion, and Safeholds engineers has far more experience in hydraulics than pneumatics.

Even today its extremely difficult to built high pressure gas systems that isn't prone to a diverse range of problems where contamination is the top one. Also, finding leaks in pneumatic systems are a nightmare compared to a hydraulic system where you can see the hydraulic fluid leaking.

Another issue with pneumatic systems compared to hydraulics is that pneumatics require a lot of more energy because of the heat-loss during the compression cycle.

If you need a system that can handle high/heavy loads only hydraulics works in this context, since pneumatics require so much larger motors/cylinders to be able to handle same load.


OK. This is a brain storming session and I'm not all that invested in pneumatic systems. The problem was coupling a turbine to the propulsion. Gearage and other direct connection systems ware given a down-check. I remembered that pneumatic systems had been used recently when a problem like that arose. Hydraulic systems were not practical for some reason. Still, you seem to have some ego attachment to that solution. You've thrown up some pretty weak objections...

No ego attachment at all, just an aversion to bad or unnecessarily complex ideas.

Max wrote:Heat loss fro compression:
Scavenge the the heat and use it to pre-heat the water going into the boiler. If this is a direct burn fuel injected turbine, the compressed air is available from a tap into the compression stage.

That is a zero sum game, for that energy loss/scavenge cycle you need to scale the system up to compensate. Also, when the air is expanded to drive something it's going to get very cold, and at sea things tend be humid and you would quickly get ice buildup. So you would probably have to pipe heat to the motors.

Max wrote:Leaks:
This is air, not some exotic gas. The whistle will lead you to the major leaks and soapy water will find the lesser leaks.

I'm not entirely sure you understand at what pressures this system needs to work at to be somewhat efficient. Compared to for example steam (which carries more workable energy) you need higher pressures. Also, the pneumatic lines will need to have quite a large diameter to be usable. Leaks will be interesting to fix...

Max wrote:Explosive potential:
Intermediate between fuel stores and armaments. Comparable to boilers. You don't need propulsion quite as much as you need ammunition, but it is still one of your more valuable assets and worth some effort to protect. One of the benefits of decoupling the engines and the motors is that you can put the more vulnerable pieces in safer places.

Do you realize how big a chunk of volume the capacitors are going eat up to be able to handle propulsion of a ship? Since at current level of technology they can't be welded and they would need to be riveted together. Riveted seams tend to fail spectacularly at high pressures and that volume of air needs to go somewhere (without destroying other things on it's way). That implies we need to add a safety system to went the air in case of failure, since a sudden wave of overpressure inside the ship would have a tendency to (at best case) rupture your ear drums.

Max wrote:Contamination:
Again, air is not an exotic working fluid and it is fairly easy to clean. Hydraulic fluids (even distilled water) are exotic by comparison and would have to be recycled religiously and losses would be hard to make up.

If you get away from turbines, you might get some use of distilled water with steam pressure accumulators as your working fluid in a hydraulic system.

Max

No, air is not very exotic and it may appear to be easy to clean. The problem arises from the water-vapor in air, it's very hard to dry the air to avoid getting condensation in the system. Condensation leads to rust/oxidation which will contaminate the system and ruin seals. And we are not even talking about contamination caused by building it in the first place.

For hydraulics you can use any type of available oil; vegetable oil works just fine, no need to use distilled water.

Some other problems with pneumatic systems, the higher the pressure the higher the friction; friction causes pressure drops, ie. things will get progressively inefficient. The manufacture of pressure valves, relief valves and flow control valves are much more difficult to manufacture for gas than fluid. Also, pneumatics are very non-linear which can causes all sorts of added problems which needs to be dealt with.

The point is, if you are going with a pneumatic system - just use steam from the beginning since it's more efficient. There is no need to make it more complex by adding different methods of converting and distributing energy. And if you have the technology for building a steam turbine you can most likely build the gearing so you get direct propulsion.

---
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Re: Turbine engines
Post by Max   » Fri Aug 12, 2016 4:52 pm

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That looks like fairly valid criticism to me...

There was a problem with steam mentioned earlier that had to do with having to keep it hot between the generation point and delivery point.

The main point with distilled water was that it was the main alternative to sea water, which was corrosive. While distilled water is a little harder to get hold of than air, it would be much easier to regenerate than any kind of oil. Its incompressible nature is an advantage; it effectively does not expand when running the motor so there is no freeze up problem like the one you get with air.

So far it looks like turbine engines would be fairly troublesome, especially for large ships. It might pay off on a smaller attack boat where speed is an essential tactical advantage...

Max
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Re: Turbine engines
Post by runsforcelery   » Fri Aug 12, 2016 8:27 pm

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PeterZ wrote:The tripples were used in both the blast furnaces and KH VIIs.


The blast furnace engine you specifically saw was a technology demonstrator. Of course it was overkill! The later blast furnace designs use smaller engines and those in the powered canal barges and the Delthak-class ironclads are double expansion; the engines for the KH VIIs are triple expansion.


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