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{{Infobox Block
{{Objectinfo
|image        = [[File:GeoGeneratorBlock.jpg]]
| caption      =  
|type         = [[Generators]]
| type         = IC Machines
|mod          = [[Industrial Craft]]
| physics      =  
|gravity      = No
| transparency =  
|transparent  = No
| luminance    =  
|luminance    = No
| blast        =  
|blast         = ?
| tool         = Wrench
|tool          = bwrench
| renew        =  
|stackable    = Yes (64)
| stack        = Yes (64)
}}
| data        = 246:1
== Usage ==
| emc          =  
| mod          = Industrial Craft 2}}The '''Geothermal Generator''' is an [[:Category:IC Machines|IC Machine]] used to generate [[EU]]. It works on the same basic principle as normal [[Generator]]s do, except in this case, they use the heat of [[Lava]] to generate electricity. Geothermal Generators accept both [[Lava Bucket]]s and [[Lava Cell]]s. The latter are stackable and thus require less maintenance, but cost [[Tin]] to produce. [[Lava]] source blocks (obtained from [[Not Enough Items|NEI]] or crafted using [[UU-Matter]]) cannot be used.


*[[Geothermal Generator]](s) uses [[lava]] as it's primary fuel.
It has an advantage over normal generators in that it does not waste power. For example, if you have a Geothermal Generator hooked up to an [[MFE Unit]] which is powering a [[Rotary Macerator]] (or any other machine with a small but constant power drain), a normal Generator will start cooking one coal and cook off the entire thing regardless of whether or not all the power is used. However, a Geo. Generator will rapidly turn on and shut off, only using lava when needed.
*It accepts [[Lava Bucket]](s) and [[Lava Cell]](s).


== Recipe ==
The Geothermal Generator will connect to [[Waterproof Pipes]], and will receive [[Lava]] carried by them. It will also accept lava directly from an adjacent BuildCraft [[Pump (BC)|Pump]]. It does not need to be pumped into the top; it can be pumped in from any side.
 
==Recipe==


{{Grid/Crafting Table
{{Grid/Crafting Table
|A1=Glass|B1=Empty Cell|C1=Glass
|A1=Glass |B1=Empty Cell |C1=Glass
|A2=Glass|B2=Empty Cell|C2=Glass
|A2=Glass |B2=Empty Cell |C2=Glass
|A3=Refined Iron|B3=Generator|C3=Refined Iron
|A3=Refined Iron |B3=Generator |C3=Refined Iron
|Output=Geothermal Generator
|Output=Geothermal Generator}}
}}


===='''Raw Materials:'''====


== Notes ==
{| border="0" cellpadding="1" cellspacing="1" class="article-table" style="width:350px;"
 
! scope="col"|
*[[Geothermal Generator]](s) also can be connected to waterproof BuildCraft pipes which are connected with [[Tank]](s) filled with lava; therefore your [[Generator]] will last longer.
! scope="col"|Raw Materials Needed
 
! scope="col"|
== Energy ==
|-
 
|4
 
|[[File:Grid_Glass.png]]
{| class="wikitable"
|[[Glass]]
|-
|10
|[[File:Grid_Refined_Iron.png]]
|[[Refined Iron]]
|-
|-
! colspan=1 |  
|8
! align="right" |[[EU]]
|[[File:Grid_Tin.png]]
|[[Tin]]
|-
|-
| align="left" | '''Input'''
|2
| align="left" | [[Lava Bucket]], [[Lava Cell]]
|[[File:Grid_Redstone.png]]
|[[Redstone Dust]]
|-
|-
| align="left" | '''Output'''
|6
| align="right" | 20,000[[EU]] per [[Lava Cell]] or [[Lava Bucket]] at 20[[EU]]/t
|[[File:Grid_Rubber.png]]
|[[Rubber]]
|-
|-
| align="left" | '''Storage'''
|3
| align="left" | 1,000,000[[EU]]
|[[File:Grid_Copper.png]]
|[[Copper]]
|-
|-
|8
|[[File:Grid_Cobblestone.png]]
|[[Cobblestone]]
|}
|}


[[Category:Industrial Craft]]
==Usage==
 
As with all Generators, the lava-based fuel of choice is inserted into the lower slot, and optionally a [[RE Battery]] in the upper slot. Alternatively, lava may be supplied through BuildCraft [[Cobblestone Waterproof Pipe|Waterproof pipes]]. The Geothermal Generator will charge the battery or output power at a rate of 20 EU/t. A single lava bucket/cell will last approximately 50s, giving off 20000 EU. Filling an [[MFE]] with a single Geothermal generator would take theoretically 42.5 minutes.
 
A single Geothermal Generator can store 24 units of lava - thus, inserting a full stack of Lava Cells will instantly use up 24 of them and fill out the lava gauge. The remaining cells would stay in the lower slot and be gradually used.
 
==Strategies around lava found on the map==
At the very start of the game it suffices to feed the Geothermal Generator with a couple of lava buckets. This makes a surface lava lake a great starting location. Because the Geothermal Generator delivers great power for just a few building materials, you can build other types of machines early on.
 
If you find a big lava lake like a flooded ravine you can opt to race for [[Teleport Pipes]]. This will allow you to drain and use thousands of buckets of lava to use high power tools like a mining laser early on.
 
==Supplying with EE lava==
It is possible to produce infinite power with geothermal generators by using an [[Energy Condenser]] to produce lava. One way of implementing this is by condensing lava buckets, feeding them into the generator(s), then cycling the emptied buckets back into the condenser, giving an economy of 64emc/lava unit. Alternatively, condensing lava cells gives a lower economy of 128emc/lava unit but as the cells are consumed by the generator, they do not need to be cycled back which simplifies the system massively, allowing for more compact generator arrays.
 
One issue with this setup is Buildcraft's pipes overflowing and throwing out some of the lava buckets once the Energy Condenser is full. To fix this, simply place Redpower's [[Transposer]] one block above the [[Wooden Pipe]] connected to the Condenser. Connect the Transposer to another Condenser using [[Pneumatic Tube]]. Place a [[Timer]] beside the Transposer, and it set it pulse every 0.4000 seconds. You could also use the [[Teleport_Pipes#Advanced_Insertion_Pipe|Advanced Insertion Pipes]] to bypass inserting cells or buckets into a full generator and have it just cycle to another location if all of the generators are full, such as another [[Energy Condenser]] or a chest to store [[Lava Cell]]s.
 
A second solution is to eliminate the need for Buildcraft parts entirely and use a Redpower [[Filter]] and Pneumatic Tubes to send Lava Cells to the Geothermal Generator. Set a Timer beside the Filter to pulse every ~50 seconds (the approximate rate of consumption for 1 Lava Cell). Overflow will simply flow back into the Filter, eliminating the messy spillage that can happen with BuildCraft apparati.
 
==Efficient setup==
 
[[File:2012-09-14_21.41.59.png|thumb|300px|An efficient setup using Equivalent Exchange.]]Using an [[Energy Condenser]], [[Energy_Collector|Collector]], and [[Antimatter Relay]] to produce [[Lava Cell]]s is an efficient way to produce electrical energy. The cells can be pumped directly into the Generator. An advantage to this is having no buckets left over, allowing for more compact systems. Hooking it up to a lava lake in the Nether provides almost infinte energy as well.
 
==Energy==
 
Storage: 480,000 EU
 
''Note that the 480,000 EU that is "stored" is the amount of energy that can be created from the 24 Lava Cells or Lava Buckets the Geothermal Generator can store. The machine has no true EU storage as such.''
 
Input: Lava Buckets, Lava Cells, or Lava pumped in directly from [[Waterproof Pipes]].
 
Output: 20,000 EU per Lava Bucket or Lava Cell at a rate of 20 EU/t. Each Lava unit lasts 50 seconds.
 
==Strategy==
 
Using [[:Category:Equivalent Exchange|Equivalent Exchange]], you can make more lava cells or lava buckets and pump it into the geothermal generator, creating a very effcient way to produce energy, especially using [[Energy Collector]]s and [[Antimatter Relay]]s, as this would provide for an infinite lava source.
 
Using 2 Ender Chests, a player can pump lava from the Nether into the Overworld, providing unlimited power
 
==Note==
 
*The MK2 Geothermal Generator exists, but is unable to be crafted, as in early versions players were unable to pump lava straight into a Geothermal Generator. By removing this block, any previous worlds that contained it would break.
 
==Video Tutorial==
 
<youtube height=142 width=222> Z6v7yZ-e-4w </youtube>
 
<youtube height=142 width=222> y8y5Qqv6OPA </youtube>
[[Category:Industrial Craft 2]]
[[Category:IC Machines]]
[[Category:Generators]]
[[Category:Generators]]

Latest revision as of 20:39, 22 November 2012

Geothermal Generator

Geothermal Generator.png

Type IC Machines
Tool Grid Wrench.png
Stackable Yes (64)
Item ID 246:1
Added by Industrial Craft 2

The Geothermal Generator is an IC Machine used to generate EU. It works on the same basic principle as normal Generators do, except in this case, they use the heat of Lava to generate electricity. Geothermal Generators accept both Lava Buckets and Lava Cells. The latter are stackable and thus require less maintenance, but cost Tin to produce. Lava source blocks (obtained from NEI or crafted using UU-Matter) cannot be used.

It has an advantage over normal generators in that it does not waste power. For example, if you have a Geothermal Generator hooked up to an MFE Unit which is powering a Rotary Macerator (or any other machine with a small but constant power drain), a normal Generator will start cooking one coal and cook off the entire thing regardless of whether or not all the power is used. However, a Geo. Generator will rapidly turn on and shut off, only using lava when needed.

The Geothermal Generator will connect to Waterproof Pipes, and will receive Lava carried by them. It will also accept lava directly from an adjacent BuildCraft Pump. It does not need to be pumped into the top; it can be pumped in from any side.

Recipe

Glass

Glass

Refined Iron

Empty Cell

Empty Cell

Generator

Glass

Glass

Refined Iron

Geothermal Generator


Raw Materials:

Raw Materials Needed
4 Grid Glass.png Glass
10 Grid Refined Iron.png Refined Iron
8 Grid Tin.png Tin
2 Grid Redstone.png Redstone Dust
6 Grid Rubber.png Rubber
3 Grid Copper.png Copper
8 Grid Cobblestone.png Cobblestone

Usage

As with all Generators, the lava-based fuel of choice is inserted into the lower slot, and optionally a RE Battery in the upper slot. Alternatively, lava may be supplied through BuildCraft Waterproof pipes. The Geothermal Generator will charge the battery or output power at a rate of 20 EU/t. A single lava bucket/cell will last approximately 50s, giving off 20000 EU. Filling an MFE with a single Geothermal generator would take theoretically 42.5 minutes.

A single Geothermal Generator can store 24 units of lava - thus, inserting a full stack of Lava Cells will instantly use up 24 of them and fill out the lava gauge. The remaining cells would stay in the lower slot and be gradually used.

Strategies around lava found on the map

At the very start of the game it suffices to feed the Geothermal Generator with a couple of lava buckets. This makes a surface lava lake a great starting location. Because the Geothermal Generator delivers great power for just a few building materials, you can build other types of machines early on.

If you find a big lava lake like a flooded ravine you can opt to race for Teleport Pipes. This will allow you to drain and use thousands of buckets of lava to use high power tools like a mining laser early on.

Supplying with EE lava

It is possible to produce infinite power with geothermal generators by using an Energy Condenser to produce lava. One way of implementing this is by condensing lava buckets, feeding them into the generator(s), then cycling the emptied buckets back into the condenser, giving an economy of 64emc/lava unit. Alternatively, condensing lava cells gives a lower economy of 128emc/lava unit but as the cells are consumed by the generator, they do not need to be cycled back which simplifies the system massively, allowing for more compact generator arrays.

One issue with this setup is Buildcraft's pipes overflowing and throwing out some of the lava buckets once the Energy Condenser is full. To fix this, simply place Redpower's Transposer one block above the Wooden Pipe connected to the Condenser. Connect the Transposer to another Condenser using Pneumatic Tube. Place a Timer beside the Transposer, and it set it pulse every 0.4000 seconds. You could also use the Advanced Insertion Pipes to bypass inserting cells or buckets into a full generator and have it just cycle to another location if all of the generators are full, such as another Energy Condenser or a chest to store Lava Cells.

A second solution is to eliminate the need for Buildcraft parts entirely and use a Redpower Filter and Pneumatic Tubes to send Lava Cells to the Geothermal Generator. Set a Timer beside the Filter to pulse every ~50 seconds (the approximate rate of consumption for 1 Lava Cell). Overflow will simply flow back into the Filter, eliminating the messy spillage that can happen with BuildCraft apparati.

Efficient setup

File:2012-09-14 21.41.59.png
An efficient setup using Equivalent Exchange.

Using an Energy Condenser, Collector, and Antimatter Relay to produce Lava Cells is an efficient way to produce electrical energy. The cells can be pumped directly into the Generator. An advantage to this is having no buckets left over, allowing for more compact systems. Hooking it up to a lava lake in the Nether provides almost infinte energy as well.

Energy

Storage: 480,000 EU

Note that the 480,000 EU that is "stored" is the amount of energy that can be created from the 24 Lava Cells or Lava Buckets the Geothermal Generator can store. The machine has no true EU storage as such.

Input: Lava Buckets, Lava Cells, or Lava pumped in directly from Waterproof Pipes.

Output: 20,000 EU per Lava Bucket or Lava Cell at a rate of 20 EU/t. Each Lava unit lasts 50 seconds.

Strategy

Using Equivalent Exchange, you can make more lava cells or lava buckets and pump it into the geothermal generator, creating a very effcient way to produce energy, especially using Energy Collectors and Antimatter Relays, as this would provide for an infinite lava source.

Using 2 Ender Chests, a player can pump lava from the Nether into the Overworld, providing unlimited power

Note

  • The MK2 Geothermal Generator exists, but is unable to be crafted, as in early versions players were unable to pump lava straight into a Geothermal Generator. By removing this block, any previous worlds that contained it would break.

Video Tutorial

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