Difference between revisions of "Kinetic Wind Generator"

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The Kinetic Wind Generator is an upgrade of the old [[Windmill]]. It generates energy from wind power which varies randomly, although certain factors can change this. Unlike the Windmill, the Kinetic Wind Generator will require maintenance in the form of the Rotors. These are needed to run the Kinetic Wind Generator. Once a Rotor is placed inside the GUI, the block is given sufficient space, and the current wind level is adequate for the current rotor, the Kinetic Wind Generator will begin to generate Kinetic Energy. This can be converted into EU by using a [[Kinetic Generator]] attached to the correct face(the black circle).
[[File:KWG_ig.png|300px|thumb|The Kinetic Wind Generator, with an Iron Rotor inside, in action]]


== About Wind ==
The '''Kinetic Wind Generator''' (or '''Wind Turbine''') is an upgrade of the old {{Gin|Windmill}}. It generates energy from wind power. The Wind Turbine requires maintenance, as the rotor will need to be replaced.


First off, the wind strength of a particular area is affected by 3 factors: Height, Weather, and Chance. The higher up in the world you are, the higher the wind level. Below y64, there is no wind, and KWG's will not function at all. Weather will also give boosts; Rainy weather will give a 20% boost to normal wind levels, and stormy weather will give a 50% boost. The final factor of chance makes the wind strength vary randomly, however there is a limited range of variation.  
A rotor is required to run a Wind Turbine. Once a rotor is placed inside the GUI, the turbine is given sufficient space, and the wind level is strong enough for the rotor, the Wind Turbine will generate [[Kinetic Units|Kinetic Energy]]. This can be converted into [[EU]] with a {{Gin|Kinetic Generator}} placed next to the turbine.


The easiest way to check the current wind level in an area is by using a [[Windmeter]].
__TOC__
-WIP-
 
== Recipe ==
{{Grid/Crafting Table
|A2=Shaft (Iron)|B2=Machine|C2=Shaft (Iron)
|Output=Kinetic Wind Generator
}}
 
== Kinetic Unit Output ==
 
KU output = wind strength * output modifier * rotor efficiency
 
Arguments in the formula:
 
Wind strength: the strength of wind, can be test by {{Gin|Windmeter}};
 
Output modifier: Used for control the balance of different energies, is 1.0 by default;
 
Motor efficiency: Related to rotor type.
 
== Wind Strength ==
The wind strength, measured in MCW, is affected by 3 factors: Height, Weather, and a Random Factor.
 
Height is a main factor of wind strength.
Below y = 64, there is never enough wind, and the generator will not create EU at all.
Wind is strongest at around y = 160.
There is very little wind at y=255, hence no point attempting to run a wind turbine that high.
 
Weather also give boosts.
Rainy weather will yield a 25% boost.
Stormy weather will yield a 50% boost.
 
At every update, the wind direction may change +18 degree or -18 degree or not change. The three choices have same probabilities.
There's no evidence that the wind direction will affect EU generation.
 
The easiest way to check the current wind level in an area is by using a {{Gin|Windmeter}}.


== Spacing ==
== Spacing ==
[[File:KWG_1.png|250px|thumb|left|Figure 1. Notice how the rotors overlap]] [[File:KWG_3.png|250px|thumb|right|Figure 3.]]
[[File:KWG_2.png|250px|thumb|left|Figure 2. Notice how the third rotor in the background still functions]] [[File:KWG_4.png|250px|thumb|right|Figure 4.]]


-WIP-
 
For the most part, the only real space requirements of the Kinetic Wind Generator are the rotor blades. 
 
*The rotor blades must remain free from obstruction by blocks or other rotors. (Figure 1)
*A Wind Turbine can also become obstructed if there is another Wind Turbine behind it. (Figure 2)
*This will occur if there is another KWG behind it and in range of the rotors up to 22 blocks away. Specifically, the distance is 3x the radius of the rotors. Because of this, it is considered impractical to have Wind Turbines set up as such, instead it much more preferred to have them in a line (Figure 3) or in a grid (Figure 4).
<br clear=all/>


== Rotors ==
== Rotors ==


The rotor equipped by the KWG will strongly affect the output of the generator. Each rotor has a different cost, durability, and wind requirement. This means that even the low-level Wood Rotor can be useful in some circumstances.  
The efficiency of rotor equipped by the Wind Turbine will strongly affect the output of the generator.
Each rotor has a different material cost, durability, and wind speed requirement.
This means that even the lowly Wood Rotor can be useful in some circumstances where wind levels are not sufficient to run a larger rotor.  
 
{| class="wikitable"
! style="text-align: center; font-weight:bold;" | Rotor Type
! style="text-align: center; font-weight:bold;" | Diameter
! style="text-align: center; font-weight:bold;" | Efficiency
! style="text-align: center; font-weight:bold;" | Durability(s)
! style="text-align: center; font-weight:bold;" | Durability(d)
! style="text-align: center; font-weight:bold;" | Min Wind Strength
! style="text-align: center; font-weight:bold;" | Max Wind Strength
! style="text-align: center; font-weigth: bold;"| Materials
|-
| style="text-align: center;" | Wood Rotor
| style="text-align: center;" | 5
| style="text-align: center;" | 0.25
| style="text-align: center;" | 10800
| style="text-align: center;" | 0.125
| style="text-align: center;" | 10
| style="text-align: center;" | 60
| style="text-align: center;" | {{Gin|Iron}} * 1 + {{Gin|Wood}} * 18
|-
| style="text-align: center;" | Iron Rotor
| style="text-align: center;" | 7
| style="text-align: center;" | 0.5
| style="text-align: center;" | 86400
| style="text-align: center;" | 1
| style="text-align: center;" | 14
| style="text-align: center;" | 75
| style="text-align: center;" | {{Gin|Iron}} * 45
|-
| style="text-align: center;" | Steel Rotor
| style="text-align: center;" | 9
| style="text-align: center;" | 0.75
| style="text-align: center;" | 172800
| style="text-align: center;" | 2
| style="text-align: center;" | 17
| style="text-align: center;" | 90
| style="text-align: center;" | {{Gin|Steel Ingot}} * 36 + {{Gin|Iron}} * 9
|-
| style="text-align: center;" | Carbon Rotor
| style="text-align: center;" | 11
| style="text-align: center;" | 1.0
| style="text-align: center;" | 604800
| style="text-align: center;" | 7
| style="text-align: center;" | 20
| style="text-align: center;" | 110
| style="text-align: center;" | {{Gin|Coal}} * 288 + {{Gin|Steel Ingot}} * 9
|}
 
=== Recipes ===


=== Wood Rotor ===
{|
{|
|{{Grid/Crafting Table
|{{Grid/Crafting Table
Line 22: Line 114:
|A2=Wood Rotor Blade|B2=Iron|C2=Wood Rotor Blade
|A2=Wood Rotor Blade|B2=Iron|C2=Wood Rotor Blade
|B3=Wood Rotor Blade
|B3=Wood Rotor Blade
|Output=Kinetic Wind Generator Rotor (Wood)
|Output=Kinetic Gearbox Rotor (Wood)
|}}
|}}
|{{Grid/Crafting Table
|{{Grid/Crafting Table
Line 30: Line 122:
|Output=Wood Rotor Blade
|Output=Wood Rotor Blade
|}}
|}}
|}
|-
 
|{{Grid/Crafting Table
The Wood Rotor lasts 3 IRL hours inside the KWG and requires wind levels between ??-??
 
Total Cost=
 
- 1 Iron Ingot
 
- 12 Logs
 
- 24 Planks
 
=== Iron Rotor ===
{{Grid/Crafting Table
|B1=Iron Rotor Blade
|B1=Iron Rotor Blade
|A2=Iron Rotor Blade|B2=Shaft (Iron)|C2=Iron Rotor Blade
|A2=Iron Rotor Blade|B2=Shaft (Iron)|C2=Iron Rotor Blade
|B3=Iron Rotor Blade
|B3=Iron Rotor Blade
|Output=Kinetic Wind Generator Rotor (Iron)
|Output=Kinetic Gearbox Rotor (Iron)
}}
|}}
 
|{{Grid/Crafting Table
The Iron Rotor lasts 24 IRL hours inside the KWG and requires wind levels between ??-??
|A1=Iron Plate|B1=Iron|C1=Iron Plate
 
|A2=Iron Plate|B2=Iron|C2=Iron Plate
Total Cost:
|A3=Iron Plate|B3=Iron|C3=Iron Plate
 
|Output=Iron Rotor Blade
- 45 Iron
|}}
 
|-
=== Refined Iron Rotor ===
|{{Grid/Crafting Table
{{Grid/Crafting Table
|B1=Steel Rotor Blade
|B1=Refined Iron Rotor Blade
|A2=Steel Rotor Blade|B2=Shaft (Iron)|C2=Steel Rotor Blade
|A2=Refined Iron Rotor Blade|B2=Shaft (Iron)|C2=Refined Iron Rotor Blade
|B3=Steel Rotor Blade
|B3=Refined Iron Rotor Blade
|Output=Kinetic Gearbox Rotor (Steel)
|Output=Kinetic Wind Generator Rotor (Refined Iron)
|}}
}}
|{{Grid/Crafting Table
 
|A1=Steel Plate|B1=Steel Ingot|C1=Steel Plate
The Refined Iron Rotor last 3 IRL days (72 hours) inside the KWG and requires wind levels between ??-??
|A2=Steel Plate|B2=Steel Ingot|C2=Steel Plate
 
|A3=Steel Plate|B3=Steel Ingot|C3=Steel Plate
Total Cost:
|Output=Steel Rotor Blade
 
|}}
- 9 Iron
|-
 
|{{Grid/Crafting Table
- 36 Refined Iron
 
=== Carbon Rotor ===
{{Grid/Crafting Table
|B1=Carbon Rotor Blade
|B1=Carbon Rotor Blade
|A2=Carbon Rotor Blade|B2=Shaft (Refined Iron)|C2=Carbon Rotor Blade
|A2=Carbon Rotor Blade|B2=Shaft (Steel)|C2=Carbon Rotor Blade
|B3=Carbon Rotor Blade
|B3=Carbon Rotor Blade
|Output=Kinetic Wind Generator Rotor (Carbon)  
|Output=Kinetic Gearbox Rotor (Carbon)
}}
|}}
 
|{{Grid/Crafting Table
The Carbon Rotor lasts 7 IRL days (168 hours) inside the KWG and requires wind levels between ??-??
|A1=Carbon Plate|B1=Combined Carbon Fibers|C1=Carbon Plate
 
|A2=Carbon Plate|B2=Combined Carbon Fibers|C2=Carbon Plate
Total Cost:
|A3=Carbon Plate|B3=Combined Carbon Fibers|C3=Carbon Plate
 
|Output=Carbon Rotor Blade
- 9 Refined Iron
|}}
|}


- 288 Coal Dust
=== Notes ===


{{Navigation}}
* If wind strength exceed the max wind strength of rotor, the rotor will still work, but will cost 4 times durability.

Latest revision as of 19:05, 18 January 2022

The Kinetic Wind Generator, with an Iron Rotor inside, in action

The Kinetic Wind Generator (or Wind Turbine) is an upgrade of the old Grid Windmill.png Windmill. It generates energy from wind power. The Wind Turbine requires maintenance, as the rotor will need to be replaced.

A rotor is required to run a Wind Turbine. Once a rotor is placed inside the GUI, the turbine is given sufficient space, and the wind level is strong enough for the rotor, the Wind Turbine will generate Kinetic Energy. This can be converted into EU with a Grid Kinetic Generator.png Kinetic Generator placed next to the turbine.

Recipe[edit]


Grid Shaft (Iron).png


Grid Machine.png


Grid Shaft (Iron).png


Grid Kinetic Wind Generator.png


Kinetic Unit Output[edit]

KU output = wind strength * output modifier * rotor efficiency

Arguments in the formula:

Wind strength: the strength of wind, can be test by Grid Windmeter.png Windmeter;

Output modifier: Used for control the balance of different energies, is 1.0 by default;

Motor efficiency: Related to rotor type.

Wind Strength[edit]

The wind strength, measured in MCW, is affected by 3 factors: Height, Weather, and a Random Factor.

Height is a main factor of wind strength. Below y = 64, there is never enough wind, and the generator will not create EU at all. Wind is strongest at around y = 160. There is very little wind at y=255, hence no point attempting to run a wind turbine that high.

Weather also give boosts. Rainy weather will yield a 25% boost. Stormy weather will yield a 50% boost.

At every update, the wind direction may change +18 degree or -18 degree or not change. The three choices have same probabilities. There's no evidence that the wind direction will affect EU generation.

The easiest way to check the current wind level in an area is by using a Grid Windmeter.png Windmeter.

Spacing[edit]

Figure 1. Notice how the rotors overlap
Figure 3.
Figure 2. Notice how the third rotor in the background still functions
Figure 4.


For the most part, the only real space requirements of the Kinetic Wind Generator are the rotor blades.

  • The rotor blades must remain free from obstruction by blocks or other rotors. (Figure 1)
  • A Wind Turbine can also become obstructed if there is another Wind Turbine behind it. (Figure 2)
  • This will occur if there is another KWG behind it and in range of the rotors up to 22 blocks away. Specifically, the distance is 3x the radius of the rotors. Because of this, it is considered impractical to have Wind Turbines set up as such, instead it much more preferred to have them in a line (Figure 3) or in a grid (Figure 4).


Rotors[edit]

The efficiency of rotor equipped by the Wind Turbine will strongly affect the output of the generator. Each rotor has a different material cost, durability, and wind speed requirement. This means that even the lowly Wood Rotor can be useful in some circumstances where wind levels are not sufficient to run a larger rotor.

Rotor Type Diameter Efficiency Durability(s) Durability(d) Min Wind Strength Max Wind Strength Materials
Wood Rotor 5 0.25 10800 0.125 10 60 Grid Iron.png Iron * 1 + Grid Wood.png Wood * 18
Iron Rotor 7 0.5 86400 1 14 75 Grid Iron.png Iron * 45
Steel Rotor 9 0.75 172800 2 17 90 Grid Steel Ingot.png Steel Ingot * 36 + Grid Iron.png Iron * 9
Carbon Rotor 11 1.0 604800 7 20 110 Grid Coal.png Coal * 288 + Grid Steel Ingot.png Steel Ingot * 9

Recipes[edit]


Grid Wood Rotor Blade.png


Grid Wood Rotor Blade.png
Grid Iron.png
Grid Wood Rotor Blade.png


Grid Wood Rotor Blade.png


Grid Kinetic Gearbox Rotor (Wood).png

Grid Wooden Planks.png
Grid Wooden Planks.png
Grid Wooden Planks.png
Grid Wood.png
Grid Wood.png
Grid Wood.png
Grid Wooden Planks.png
Grid Wooden Planks.png
Grid Wooden Planks.png
Grid Wood Rotor Blade.png


Grid Iron Rotor Blade.png


Grid Iron Rotor Blade.png
Grid Shaft (Iron).png
Grid Iron Rotor Blade.png


Grid Iron Rotor Blade.png


Grid Kinetic Gearbox Rotor (Iron).png

Grid Iron Plate.png
Grid Iron Plate.png
Grid Iron Plate.png
Grid Iron.png
Grid Iron.png
Grid Iron.png
Grid Iron Plate.png
Grid Iron Plate.png
Grid Iron Plate.png
Grid Iron Rotor Blade.png


Grid Steel Rotor Blade.png


Grid Steel Rotor Blade.png
Grid Shaft (Iron).png
Grid Steel Rotor Blade.png


Grid Steel Rotor Blade.png


Grid Kinetic Gearbox Rotor (Steel).png

Grid Steel Plate.png
Grid Steel Plate.png
Grid Steel Plate.png
Grid Steel Ingot.png
Grid Steel Ingot.png
Grid Steel Ingot.png
Grid Steel Plate.png
Grid Steel Plate.png
Grid Steel Plate.png
Grid Steel Rotor Blade.png


Grid Carbon Rotor Blade.png


Grid Carbon Rotor Blade.png
Grid Shaft (Steel).png
Grid Carbon Rotor Blade.png


Grid Carbon Rotor Blade.png


Grid Kinetic Gearbox Rotor (Carbon).png

Grid Carbon Plate.png
Grid Carbon Plate.png
Grid Carbon Plate.png
Grid Combined Carbon Fibers.png
Grid Combined Carbon Fibers.png
Grid Combined Carbon Fibers.png
Grid Carbon Plate.png
Grid Carbon Plate.png
Grid Carbon Plate.png
Grid Carbon Rotor Blade.png

Notes[edit]

  • If wind strength exceed the max wind strength of rotor, the rotor will still work, but will cost 4 times durability.