Difference between revisions of "'Drill-O-Matic Junior' Mining Excavator"
(Added a few details that a new player really needs to know in advance) |
m (port the power consumpton note from the large drill) |
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{{:'Drill-O-Matic Junior' Mining Excavator/Box}} | {{:'Drill-O-Matic Junior' Mining Excavator/Box}} | ||
− | The ''''Drill-O-Matic Junior' Mining Excavator''' is a small [[resource harvester]] -- a smaller version of the [['Drill-O-Matic' Mining Excavator]]. Kerbals can use this part to extract [[ore]] from the surface of a [[celestial body]]. The drill must be connected to an [[ore tank]] in order for it to be able to extract any ore. | + | The ''''Drill-O-Matic Junior' Mining Excavator''' is a small [[resource harvester]] -- a smaller version of the [['Drill-O-Matic' Mining Excavator]]. Kerbals can use this part to extract [[ore]] from the surface of a [[celestial body]]. The drill must be connected to a craft with an [[ore tank]] in order for it to be able to extract any ore. |
== Uses == | == Uses == | ||
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Though not designed for this purpose, the drill can be used to lift up the part that it is connected to, though this can lead to the drill flipping over or breaking. | Though not designed for this purpose, the drill can be used to lift up the part that it is connected to, though this can lead to the drill flipping over or breaking. | ||
− | == Ore extraction rate == | + | ==Ore extraction rate== |
− | While the drill is active, it extracts ore depending on the ore concentration in the area, | + | While the drill is active, it extracts ore depending on the ore concentration in the area, the core temperature, the presence and level of an engineer on-board. The ore extraction rate is B·c·T·m where "B" is 0.3 ore/s on a moon or planet surface and 1.0 ore/s on an asteroid, "c" is the ore concentration between 0 and 100%, "T" is the thermal efficiency displayed in the drill menu (100% at 500K, less at higher or lower temperatures) and "m" is the multiplier supplied by the level of the highest level [[engineer]] on-board. These are as follows: |
{| class="wikitable" | {| class="wikitable" | ||
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! Level !! Multiplier | ! Level !! Multiplier | ||
|- | |- | ||
− | | | + | | No Engineer || 5% |
|- | |- | ||
− | | {{mark| | + | | {{mark|0star}} || 25% |
|- | |- | ||
− | | {{mark| | + | | {{mark|1star}} || 45% |
|- | |- | ||
− | | {{mark| | + | | {{mark|2star}} || 65% |
|- | |- | ||
− | | {{mark| | + | | {{mark|3star}} || 85% |
|- | |- | ||
− | | {{mark|5star}} || | + | | {{mark|4star}} || 105% |
+ | |- | ||
+ | | {{mark|5star}} || 125% | ||
|} | |} | ||
+ | |||
+ | The drill displays B·c as "Ore rate" and T·m as "X% load". The effective ore generation rate can be calculated by multiplying those two values. | ||
+ | |||
+ | Note: charge used = T·m·3 = "X% load"·3 ⚡/s. Hence it varies greatly, scaling up gradually with thermal efficiency (as the drill core warms up), then from 0.15 ⚡/s with no engineer to 3.75 ⚡/s with a 5 star engineer (while at 100% thermal efficiency, on a planetary body). Asteroid harvesting mode consumes a flat 0.3 ⚡/s under all circumstances (while there is space to store ore). | ||
== Practical details == | == Practical details == | ||
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This part needs 50kW of cooling, or it will overheat and go into auto-shutdown mode. You can also expect that it will need the equivalent output of two or three [[OX-4L 1x6 Photovoltaic Panels]]. For a very rough estimate, assume that one of these drills will produce .01 units of ore per second. | This part needs 50kW of cooling, or it will overheat and go into auto-shutdown mode. You can also expect that it will need the equivalent output of two or three [[OX-4L 1x6 Photovoltaic Panels]]. For a very rough estimate, assume that one of these drills will produce .01 units of ore per second. | ||
− | + | To have the drill run "in the background" (so you don't need to watch it produce ore), you need to leave it alone for more than 6 hours. If you switch focus back to the craft with the drill before 6 hours have passed, the drill will retroactively stop. | |
== Product description == | == Product description == | ||
{{Quote | {{Quote | ||
− | |A smaller version of the popular Drill-O-Matic, this drill is designed to help extract valuable resources from the crust of planets and asteroids. Unlike it's larger cousin, this smaller model is only suitable for ore concentrations in excess of 2.5%. When operated by a skilled engineer, you will be able to operate with better efficiency. These modules operate best at their ideal operating temperatures, and features auto-shutdown in the event of excessive overheating. Radiators can be used to help manage excessive heat.| | + | |A smaller version of the popular Drill-O-Matic, this drill is designed to help extract valuable resources from the crust of planets and asteroids. Unlike it's larger cousin, this smaller model is only suitable for ore concentrations in excess of 2.5%. When operated by a skilled engineer, you will be able to operate with better efficiency. These modules operate best at their ideal operating temperatures, and features auto-shutdown in the event of excessive overheating. Radiators can be used to help manage excessive heat. |
+ | |Kerbodyne | ||
}} | }} | ||
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{{Parts}} | {{Parts}} | ||
+ | [[Category:Drills]] |
Latest revision as of 00:32, 18 November 2024
'Drill-O-Matic Junior' Mining Excavator | ||
Resource harvester by Kerbodyne | ||
Radial size | Radial mounted | |
Cost | (total) | 1 000.00 |
Mass | (total) | 0.250 t |
Drag | 0.2 | |
Max. Temp. | 2000 K | |
Impact Tolerance | 7 m/s | |
Research | Advanced Science Tech | |
Unlock cost | 3 000 | |
Since version | 1.0.5 | |
Part configuration | MiniDrill.cfg | |
Harvester type | Planetary | |
Resource | Ore | |
Efficiency | 30 % | |
Electricity required | 0.9 ⚡/s | |
Ore | 0.3 unit/s | |
Harvester type | Asteroid | |
Efficiency | 100 % | |
Electricity required | 0.3 ⚡/s | |
Harvester type | Comet | |
Efficiency | 100 % | |
Electricity required | 0.3 ⚡/s | |
Optimum Temp | 500 K | |
Shutdown Temp | 1000 K | |
Max Cooling | 50 kW | |
Packed volume | 400 l |
The 'Drill-O-Matic Junior' Mining Excavator is a small resource harvester -- a smaller version of the 'Drill-O-Matic' Mining Excavator. Kerbals can use this part to extract ore from the surface of a celestial body. The drill must be connected to a craft with an ore tank in order for it to be able to extract any ore.
Uses
The primary use for the Drill-O-Matic is for mining. If a player positions the drill on an area with a nominal amount of ore beneath the surface (which can be determined by completing planetary scans with resource scanners) the player can use the drill to collect ore that can be turned into liquid fuel, oxidizer or monopropellant with a converter. A qualified engineer will increase the output efficiency (however more than one engineer will have no additional effect). Since this type is far smaller than the basic model, it is recommended for use on the more abundant deposits.
Though not designed for this purpose, the drill can be used to lift up the part that it is connected to, though this can lead to the drill flipping over or breaking.
Ore extraction rate
While the drill is active, it extracts ore depending on the ore concentration in the area, the core temperature, the presence and level of an engineer on-board. The ore extraction rate is B·c·T·m where "B" is 0.3 ore/s on a moon or planet surface and 1.0 ore/s on an asteroid, "c" is the ore concentration between 0 and 100%, "T" is the thermal efficiency displayed in the drill menu (100% at 500K, less at higher or lower temperatures) and "m" is the multiplier supplied by the level of the highest level engineer on-board. These are as follows:
Level | Multiplier |
---|---|
No Engineer | 5% |
☆☆☆☆☆ | 25% |
★☆☆☆☆ | 45% |
★★☆☆☆ | 65% |
★★★☆☆ | 85% |
★★★★☆ | 105% |
★★★★★ | 125% |
The drill displays B·c as "Ore rate" and T·m as "X% load". The effective ore generation rate can be calculated by multiplying those two values.
Note: charge used = T·m·3 = "X% load"·3 ⚡/s. Hence it varies greatly, scaling up gradually with thermal efficiency (as the drill core warms up), then from 0.15 ⚡/s with no engineer to 3.75 ⚡/s with a 5 star engineer (while at 100% thermal efficiency, on a planetary body). Asteroid harvesting mode consumes a flat 0.3 ⚡/s under all circumstances (while there is space to store ore).
Practical details
This part needs 50kW of cooling, or it will overheat and go into auto-shutdown mode. You can also expect that it will need the equivalent output of two or three OX-4L 1x6 Photovoltaic Panels. For a very rough estimate, assume that one of these drills will produce .01 units of ore per second.
To have the drill run "in the background" (so you don't need to watch it produce ore), you need to leave it alone for more than 6 hours. If you switch focus back to the craft with the drill before 6 hours have passed, the drill will retroactively stop.
Product description
“ | A smaller version of the popular Drill-O-Matic, this drill is designed to help extract valuable resources from the crust of planets and asteroids. Unlike it's larger cousin, this smaller model is only suitable for ore concentrations in excess of 2.5%. When operated by a skilled engineer, you will be able to operate with better efficiency. These modules operate best at their ideal operating temperatures, and features auto-shutdown in the event of excessive overheating. Radiators can be used to help manage excessive heat. — Kerbodyne |
” |
Changes
- Initial release