Electric Blast Furnace (GregTech 5)/de

Der Elektrohochofen ist eine höher technische Version des konventionellen Ofens. Dieser erlaubt die Herstellung von höherstufigen Metallen, im Gegensatz zum konventionellen Ofen.



Konstruktion
The Electric Blast Furnace is a 4-block high hollow 3x3 box. The top layer is constructed from 8 Heat Proof Machine Casings around one Muffler Hatch. The Muffler Hatch must be facing up and must be facing an air block.

The two hollow middle layers are constructed from 16 Heating Coils.

The bottom layer is more mixed, and must contain the following: The bottom layer may also contain 1 Input Hatch, used to input fluid Oxygen gas for some recipes. The control block is crafted as follows:
 * 1 Electric Blast Furnace control block, placed in the middle of a side
 * 1 Maintenance Hatch
 * 1 or more Input Buses
 * 1 or more Output Buses
 * 1 or more Energy Hatches
 * 0-4 Heat Proof Machine Casings, occupying the space not used by the other components

Es gibt zwei Punkte die bestimmen, was der Elektrohochofen schmelzen kann: Die Wärmekapazität und der Energiestufe. Die Wärmekapazität wird von den benutzten Wärmespulen, und die Energiestufe von der benutzten Energieluke beeinflusst.

Kupfernickel Spulen haben eine Wärmekapazität von 1800 Kelvin.

Kantal Spulen haben eine Wärmekapazität von 2700 Kelvin.

Nickelchrome Spulen haben eine Wärmekapazität von 3600 Kelvin.

Usage
Alle Rezepte, welche im Elektrohochofen durchgeführt werden, benötigen mindestens 120 EU/t. Da die MV Energieluke, welche diese Energiemenge unterstützt, Aluminium benötigt, welches wiederrum im Elektrohochofen hergestellt wird, muss der erste Elektrohochofen mit 4 LV Energieluken betrieben werden. Jede LV Energieluke muss mit 32 EU/t bei 2 AMP gespeißt werden. Unzureichend zugeführte Energie, führt zur Zerstörung des verarbeiteten Materials.

Power is the most important problem with using an EBF. As it requires MV Electricity when only LV is available, it requires 5 Basic Diesel Generators, Gas Turbines, or Steam Turbines. 5 Steam Turbines consume 510L Steam/tick, equal to 34 High Pressure Coal Boilers, 17 High Pressure Lava Boilers, or one fairly expensive Large Bronze Boiler. If, however, a supply of Oil is readily available, a Distillery can easily supply enough Diesel to run a Blast Furnace.

One of the primary uses of the Electric Blast Furnace is the smelting of Iron into Steel. While the Bronze Blast Furnace can also produce Steel from Iron, the Electric Blast Furnace is much, much faster and more energy efficient. (The Bronze Blast Furnace can smelt one Iron Ingot into one Steel Ingot in 6 minutes for 4 Charcoal. The Electric Blast Furnace can smelt one Wrought Iron Ingot into one Steel Ingot in 5 seconds for approximately 20,000 EU, including Oxygen and Wrought Iron processing. Using High Pressure Coal Boilers, 4 Charcoal can produce far more than 20,000 EU.)

Another important use of the Electric Blast Furnace is the smelting of Silicon Ingots, for when Applied Energistics 2 is installed alongside GregTech, all of its circuit recipes consume Silicon Plates. Silicon Dust can most easily be acquired by electrolyzing Silicon Dioxide Dust, a process which also generates 2000L Oxygen (useful for Steel or Annealed Copper). Silicon Dioxide Dust is most easily acquired by centrifuging Glass Dust.

As with all other GregTech multiblock machines:
 * Insufficient energy supply will destroy the currently processed material.
 * When the Output Bus is full, the Electric Blast Furnace will continue to work and will destroy all newly produced items.
 * Do NOT build a multiblock machine over chunk borders. Doing so can lead to unpredictable behavior. If you have NEI installed (which you should), chunk borders can be viewed by pressing F9 (by default).
 * Before using the Electric Blast Furnace for the first time, maintenance must be performed.
 * To activate or deactivate the Electric Blast Furnace, hit its control block with a Soft Hammer.