Difference between revisions of "Converter"

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A '''converter''' is a special [[parts|part]] able to make [[fuel]] from [[resource|raw-material]]. Specifically, it consumes [[ore]] stored in an [[ore tank]] to make [[liquid fuel]], [[oxidizer]] or [[monopropellant]], requiring empty space available in an appropriate type of [[fuel tank]]. Conversion also consumes a large amount of [[electric charge]] and requires active [[radiator]] cooling to run continuously at a reasonable rate.
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'''Converters''', also called ISRUs (In Situ Resource Utilization), are special [[parts]] able to make [[fuel]] from [[resource|raw-material]]. Specifically, they consume [[ore]] stored in an [[ore tank]] to make [[liquid fuel]], [[oxidizer]] or [[monopropellant]], requiring empty space available in an appropriate type of [[fuel tank]]. Conversion also consumes a large amount of [[electric charge]] and requires active [[radiator]] cooling to run continuously at a reasonable rate.
  
 
Producing fuel aboard a craft with a converter can allow it to have effectively unlimited [[delta-v]], by refuelling repeatedly, so greatly extending mission range and flexibility. Conversion will generally follow, or run concurrently with, [[resource harvester|resource harvesting]], with drills extracting ore from a [[celestial body]] or [[asteroid]]. On [[planet]]s or [[moon]]s, this will generally have been proceeded by use of [[resource scanner]]s to find a location with a sufficiently high ore concentration. Although craft can also be launched pre-loaded with ore.
 
Producing fuel aboard a craft with a converter can allow it to have effectively unlimited [[delta-v]], by refuelling repeatedly, so greatly extending mission range and flexibility. Conversion will generally follow, or run concurrently with, [[resource harvester|resource harvesting]], with drills extracting ore from a [[celestial body]] or [[asteroid]]. On [[planet]]s or [[moon]]s, this will generally have been proceeded by use of [[resource scanner]]s to find a location with a sufficiently high ore concentration. Although craft can also be launched pre-loaded with ore.
  
The conversion ratio of ore to fuel is fixed, but there is a large difference between the two converter types, and also in the base conversion rates. Conversion rate and electricity use are also very variable, being greatly effected by "thermal efficiency" (determined by the current core temperature) and by the presence and level of an engineer aboard the craft.
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There is a large difference between the two converter types in the base conversion rates and ore-to-fuel ratio, with a 1:2 for the 250 and a pitiful 10:2 for the 125<ref>This was concluded by a test I personally did where I put a 125 and a 250 on two separate vessels set to liquid fuel only with 100 units of ore each. Once the ore was drained, the 125 had produced 20 units of liquid fuel and the 250 had produced 200 units. This conversion rate remains consistent no matter the set fuel, with the Lf+Ox still producing a total of either 20 or 200.</ref>, though the ratio per type is always the same
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. Conversion rate and electricity use are also very variable, being greatly effected by "thermal efficiency" (determined by the current core temperature) and by the presence and level of an [[engineer]] aboard the craft.
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[[File:DrillingSizeComparison.jpg|thumb|A size comparison of the available converter and drill parts]]
  
 
== Converters available ==
 
== Converters available ==
 
{{Stats table converters}}
 
{{Stats table converters}}
 
 
==Usage==
 
==Usage==
Conversion is initiated by selecting one ''Italic text''or more''Italic text'' of the options from a converter's action menu (via right clicking on the part), or bounding to an [[action group]]:
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Conversion is initiated by selecting one ''or more'' of the options from a converter's action menu (via right clicking on the part), or bounding to an [[action group]]:
 
* '''''Start/Stop ISRU [Lf+Ox]''''' - converts to [[liquid fuel]] and [[oxidizer]] in ratio of the need of the [[liquid fuel engine]]s.
 
* '''''Start/Stop ISRU [Lf+Ox]''''' - converts to [[liquid fuel]] and [[oxidizer]] in ratio of the need of the [[liquid fuel engine]]s.
 
* '''''Start/Stop ISRU [Monoprop]''''' - converts to [[monopropellant]].
 
* '''''Start/Stop ISRU [Monoprop]''''' - converts to [[monopropellant]].
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* '''''Start/Stop ISRU [Ox]''''' - converts to oxidizer.
 
* '''''Start/Stop ISRU [Ox]''''' - converts to oxidizer.
  
There must be available ore on the craft, in an ore tank that is not locked, and also space available in a fuel tank of the fuel type being produced. "Lf+Of" mode requires space for both fuel types.
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There must be available ore on the craft, in an ore tank that is not locked, and also space available in a fuel tank of the fuel type being produced. "Lf+Ox" mode requires space for both fuel types.
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Once activated, the core temperature of a converter will rise from ambient, warming up towards 100% optimal thermal efficiency at 1000K. Radiator core cooling, if available, will then begin transferring surplus heat from the core to maintain this temperature, as much as is permitted. If cooling is insufficient (always the case for the 125) the core temperature will continue to rise, eventually settling into thermodynamic balance, as heat production falls off again with decreasing thermal efficiency and passive heat dissipation to other parts and surroundings runs faster at higher temperatures. If there is no active cooling at all, the core will eventually reach the part's shut down temperature, and turn off all conversion modes, requiring manual restart.
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Note that for unmanned probes (or if no [[engineer]] is on board) converter speed maxes out at 5% of nominal efficiency once you are at optimum temperature.  So as an example:  a Convert-O-Tron 250 set to produce Liquid Fuel will produce about .05 fuel/sec and use about 2 electric charge/sec
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If electric charge on the craft is depleted the converter will stop, but then continue automatically when charge becomes available again. (Note: converters may even take priority over probe cores in a situation of inadequate electrical supply, potentially creating a deadlock where the converter can not be disabled due to limited craft control when unmanned command pods are unpowered, if there are no [[Kerbonaut]]s available.)
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As with drills, converters are able to run in the background, while their craft is not loaded, after switching to distant craft (or back to the [[KSC]]). Upon resuming control of the craft it will appear as if the converter had continued running, with the appropriate amount of ore consumed and fuel created. However, no charge is consumed, or cooling required (which may be exploitable).
  
Once activated, the core temperature of a converter will rise from ambient, warming up towards 100% optimal thermal efficiency at 1000K. Radiator core cooling, if available, will then begin transferring surplus heat from the core to maintain this temperature, as much as is permitted. If cooling is insufficient the core temperature will continue to rise, eventually settling into thermodynamic balance, as heat production falls off again with decreasing thermal efficiency and passive heat dissipation to other parts and surroundings runs faster at higher temperatures.
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== Changes ==
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[[1.0.5]]
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* ISRU renamed to [[Convert-O-Tron 250]].
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* Mini-ISRU part added: [[Convert-O-Tron 125]].
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[[1.0]]
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* ISRU added.
  
If electric charge on the craft is depleted the converter will stop, but then continue automatically when charge becomes available again. (Note: converters may even take priority over probe cores in a situation of inadequate electrical supply, potentially creating a deadlock where the converter can not be disabled due to limited craft control when unmanned command pods are unpowered, if there are no [[Kerbalnaut]]s available.)
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[[Category: Parts]]
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[[Category: Converters]]

Latest revision as of 03:44, 24 May 2021

Converters, also called ISRUs (In Situ Resource Utilization), are special parts able to make fuel from raw-material. Specifically, they consume ore stored in an ore tank to make liquid fuel, oxidizer or monopropellant, requiring empty space available in an appropriate type of fuel tank. Conversion also consumes a large amount of electric charge and requires active radiator cooling to run continuously at a reasonable rate.

Producing fuel aboard a craft with a converter can allow it to have effectively unlimited delta-v, by refuelling repeatedly, so greatly extending mission range and flexibility. Conversion will generally follow, or run concurrently with, resource harvesting, with drills extracting ore from a celestial body or asteroid. On planets or moons, this will generally have been proceeded by use of resource scanners to find a location with a sufficiently high ore concentration. Although craft can also be launched pre-loaded with ore.

There is a large difference between the two converter types in the base conversion rates and ore-to-fuel ratio, with a 1:2 for the 250 and a pitiful 10:2 for the 125[1], though the ratio per type is always the same . Conversion rate and electricity use are also very variable, being greatly effected by "thermal efficiency" (determined by the current core temperature) and by the presence and level of an engineer aboard the craft.

A size comparison of the available converter and drill parts

Converters available

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Electricity
(⚡/s)
Convert-O-Tron 125.png
Convert-O-Tron 125 Small 1 000 1.25 2 000 7 50 30
ISRU Converter.png
Convert-O-Tron 250 Large 8 000 4.25 2 000 7 50 30

Usage

Conversion is initiated by selecting one or more of the options from a converter's action menu (via right clicking on the part), or bounding to an action group:

  • Start/Stop ISRU [Lf+Ox] - converts to liquid fuel and oxidizer in ratio of the need of the liquid fuel engines.
  • Start/Stop ISRU [Monoprop] - converts to monopropellant.
  • Start/Stop ISRU [LqdFuel] - converts to liquid fuel.
  • Start/Stop ISRU [Ox] - converts to oxidizer.

There must be available ore on the craft, in an ore tank that is not locked, and also space available in a fuel tank of the fuel type being produced. "Lf+Ox" mode requires space for both fuel types.

Once activated, the core temperature of a converter will rise from ambient, warming up towards 100% optimal thermal efficiency at 1000K. Radiator core cooling, if available, will then begin transferring surplus heat from the core to maintain this temperature, as much as is permitted. If cooling is insufficient (always the case for the 125) the core temperature will continue to rise, eventually settling into thermodynamic balance, as heat production falls off again with decreasing thermal efficiency and passive heat dissipation to other parts and surroundings runs faster at higher temperatures. If there is no active cooling at all, the core will eventually reach the part's shut down temperature, and turn off all conversion modes, requiring manual restart.

Note that for unmanned probes (or if no engineer is on board) converter speed maxes out at 5% of nominal efficiency once you are at optimum temperature. So as an example: a Convert-O-Tron 250 set to produce Liquid Fuel will produce about .05 fuel/sec and use about 2 electric charge/sec

If electric charge on the craft is depleted the converter will stop, but then continue automatically when charge becomes available again. (Note: converters may even take priority over probe cores in a situation of inadequate electrical supply, potentially creating a deadlock where the converter can not be disabled due to limited craft control when unmanned command pods are unpowered, if there are no Kerbonauts available.)

As with drills, converters are able to run in the background, while their craft is not loaded, after switching to distant craft (or back to the KSC). Upon resuming control of the craft it will appear as if the converter had continued running, with the appropriate amount of ore consumed and fuel created. However, no charge is consumed, or cooling required (which may be exploitable).

Changes

1.0.5

1.0

  • ISRU added.
  • This was concluded by a test I personally did where I put a 125 and a 250 on two separate vessels set to liquid fuel only with 100 units of ore each. Once the ore was drained, the 125 had produced 20 units of liquid fuel and the 250 had produced 200 units. This conversion rate remains consistent no matter the set fuel, with the Lf+Ox still producing a total of either 20 or 200.