Difference between revisions of "50V example build"
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== Finish == | == Finish == | ||
| + | |||
| + | We can expand out our heat furnaces and heat turbines, so that there are 3 in a row | ||
| + | This is the maximum hat can safely be put on a single wire without over-powering it. | ||
| + | |||
| + | It can sometimes make sense to add more, but then may need more sophisticated control. | ||
| + | |||
| + | * Heat turbines allow electricity to pass through (so no separate cable required) | ||
| + | * Heat furnaces allow a signal to pass through too (so no extra signal wire needed). | ||
| + | |||
[[File:Example_50V_9.png|800px]] | [[File:Example_50V_9.png|800px]] | ||
| + | |||
| + | Finally, we add the other machines *needed* to boot Electrical age. | ||
| + | |||
[[File:Example_50V_10.png|800px]] | [[File:Example_50V_10.png|800px]] | ||
| + | |||
| + | These are, from left to right: | ||
| + | * [[50V Magnetizer]] | ||
| + | * [[50V Compressor]] | ||
| + | * [[50V Plate Machine]] | ||
| + | * [[50V Macerator]] | ||
| + | |||
| + | |||
| + | You can consider adding [[Machine Booster]]s to make your machines faster, | ||
| + | be careful not to draw too much power though! | ||
| + | |||
| + | == Where to go next == | ||
| + | |||
| + | Now you should be able to make parts for any of the other '''[[Examples]]'''. | ||
| + | at 50V these are going to be very slow though! | ||
| + | |||
| + | Consider building the '''[[200V example build]]''' first though, since the 200V variants of | ||
| + | the machines can be made to go a bit faster. | ||
Revision as of 03:31, 6 November 2016
Contents
Setup
A 50V Heat Turbine generates power by exploiting the temperature difference between a hot place and a cold place. We can use a Stone Heat Furnace to provide the hot side, and some Small Thermal Dissipaters for the cold side
A heat furnace can take up to 2 Combustion Chambers to improve efficiency. A heat furnace can take most solid fuels. Charcoal is a very common solid fuel, so we'll use that here.
We'll hook up a 50V Macerator using Low Voltage Cable.
Driving a macerator
Now the trick is to keep the macerator's voltage supply bar in the green, using the Control Gauge in the heat furnace.
If you do this by hand, that can take quite some work!
See what happens if you add some sand to the macerator. you'll need to adjust the heat. Same when you remove sand.
Listen out for the sound the macerator makes. The volume and pitch tell you if the macerator is running at the optimal rate.
Analogic control
Instead of controlling the temperature by hand, you can use an analogic regulator to keep it steady.
Use the Temperature gauge to set what temperature you want. 250-300 degrees corresponds to roughly 50V in our case. The Analogic regulator will use the Control gauge to try to keep the temperature as close as possible to the desired temperature (called "set point").
External control
Alternately, we can control our turbine based directly on our voltage.
- Set an Electrical Probe to 100% output at 50V, and 0% output at 55V.
- Connect the probe to our furnace using a signal cable
- Set the Heat furnace to accept External Control (click once on the button labeled Internal Control)
This should keep wire neatly at ~50V. Use of External control is important in more complex builds.
Finish
We can expand out our heat furnaces and heat turbines, so that there are 3 in a row This is the maximum hat can safely be put on a single wire without over-powering it.
It can sometimes make sense to add more, but then may need more sophisticated control.
- Heat turbines allow electricity to pass through (so no separate cable required)
- Heat furnaces allow a signal to pass through too (so no extra signal wire needed).
Finally, we add the other machines *needed* to boot Electrical age.
These are, from left to right:
You can consider adding Machine Boosters to make your machines faster,
be careful not to draw too much power though!
Where to go next
Now you should be able to make parts for any of the other Examples. at 50V these are going to be very slow though!
Consider building the 200V example build first though, since the 200V variants of the machines can be made to go a bit faster.
