Thermoelectric Boiler: Difference between revisions
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== Construction == | == Construction == | ||
* The structure must be a cuboid of minimum outside size 3x4x3, up to 18x18x18. | |||
* The edges of the outer shell must be made of [[Boiler Casing]] | |||
* The faces of the outer shell can be either [[Boiler Casing]], [[Boiler Valve]] or [[Reactor Glass]] | |||
* The interior of the structure is made up of 3 sections (top to bottom): | |||
** '''Steam Cavity''' layer: Made up exclusively of air and can be as tall as you want (optional for smaller designs) | |||
** '''Steam Catch''' layer: A one block tall layer of [[Pressure Disperser]] blocks seperating the steam and water sections. | |||
** '''Water Cavity''' layer: Made up of a combination of air blocks and [[Superheating Element]] blocks. All superheating elements must be touching each other and there cannot be any air pockets. This will generally be the tallest layer of the structure as water is much denser than steam. | |||
* The structure will emit red particles when valid | |||
== Boil Rate == | |||
The throughput of the boiler is limited three things: the '''steam capacity''', the '''water capacity''' and the '''boil capacity'''. | |||
water cavity volume = (height of water cavity + 1) * outer width * outer length - number of superheaters | |||
> water capacity = water cavity volume * 16,000 mb | |||
coolant capacity = water cavity volume * 256,000 mb | |||
steam cavity volume = (height of steam cavity + 1) * outer width * outer length | |||
> steam capacity = steam cavity volume * 160,000 mb | |||
heated coolant capacity = steam cavity volume * 256,000 mb | |||
boil capacity = number of superheaters * max heat transfer / water thermal enthalpy * steam energy efficiency | |||
> boil capacity = number of superheaters * 320,000 mb | |||
== Example Boiler == | |||
| | {| class="wikitable" | ||
|- | |- | ||
| | | [[File:Thermoelectric boiler step1.png|x200px]] | ||
Bottom Boiler Casing | |||
| | | [[File:Thermoelectric boiler step3a.png|x200px]] | ||
Superheating Element | |||
| [[File:Thermoelectric boiler step4a.png|x200px]] | |||
Pressure Disperser | |||
|- | |||
| [[File:Thermoelectric boiler step5.png|x200px]] | |||
Top Boiler Casing | |||
| [[File:Thermoelectric boiler step7.png|x200px]] | |||
Boiler Valves | |||
|} | |} | ||
Latest revision as of 12:31, 4 June 2025
This article is a stub.
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The Thermoelectric Boiler is a multi-block structure used to generate steam from external heat. Its minimum dimensions are 3x3x4 (3 long, 3 wide, 4 tall) and its maximum dimensions are 18x18x18, as with Mekanism's other multi-block structures. The heat required is best supplied by Superheated Liquid Sodium from an active Fission Reactor running on sodium cooling, and the steam produced by the Thermoelectric Boiler is used in keeping an Industrial Turbine running.
Contents
Construction
- The structure must be a cuboid of minimum outside size 3x4x3, up to 18x18x18.
- The edges of the outer shell must be made of Boiler Casing
- The faces of the outer shell can be either Boiler Casing, Boiler Valve or Reactor Glass
- The interior of the structure is made up of 3 sections (top to bottom):
- Steam Cavity layer: Made up exclusively of air and can be as tall as you want (optional for smaller designs)
- Steam Catch layer: A one block tall layer of Pressure Disperser blocks seperating the steam and water sections.
- Water Cavity layer: Made up of a combination of air blocks and Superheating Element blocks. All superheating elements must be touching each other and there cannot be any air pockets. This will generally be the tallest layer of the structure as water is much denser than steam.
- The structure will emit red particles when valid
Boil Rate
The throughput of the boiler is limited three things: the steam capacity, the water capacity and the boil capacity.
water cavity volume = (height of water cavity + 1) * outer width * outer length - number of superheaters > water capacity = water cavity volume * 16,000 mb coolant capacity = water cavity volume * 256,000 mb
steam cavity volume = (height of steam cavity + 1) * outer width * outer length > steam capacity = steam cavity volume * 160,000 mb heated coolant capacity = steam cavity volume * 256,000 mb
boil capacity = number of superheaters * max heat transfer / water thermal enthalpy * steam energy efficiency > boil capacity = number of superheaters * 320,000 mb
Example Boiler
Bottom Boiler Casing |
Superheating Element |
Pressure Disperser |
Top Boiler Casing |
Boiler Valves |
Showcase of built Boiler
Notes
- While it is possible to supply the heat required with Resistive Heaters, it is much more efficient with the heat output from the Fission Reactor or Fusion Reactor.
Video Tutorials
https://www.youtube.com/watch?v=Zv7XrmVfKN4&t - Tutorial made by Aidan Brady , Developer of Mekanism Mod
https://www.youtube.com/watch?v=WgLGOA9UztI - Tutorial made by MathewCell , updated in version Minecraft 1.7.10 - 1.12 ,
https://www.youtube.com/watch?v=SiBc5S27gaQ&ab_channel=MathewCell-Minecraft - UPDATED Mekanism v10 - MathewCell
https://www.youtube.com/watch?v=9EgZTwCnWwA&t EsquilãoBR Tutorial PT-BR
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