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Difference between revisions of "Pumped Gas Rocket Engine"

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{{Structurebox
 
{{Structurebox
  | name            = Pumped Gas Rocket Engine
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  | name            = Pumped Gas Engine
 
  | image            =
 
  | image            =
  | placed_with_item = [[Pumped Gas Rocket Engine|Kit (Pumped Gas Rocket Engine)]]
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  | placed_with_item = [[Pumped Gas Engine|Kit (Pumped Gas Rocket Engine)]]
 
  | placed_on_grid  = Engine Mount
 
  | placed_on_grid  = Engine Mount
  
  | item_rec1        = [[Pumped Gas Rocket Engine|Kit (Pumped Gas Rocket Engine)]]
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  | item_rec1        = [[Pumped Gas Engine|Kit (Pumped Gas Rocket Engine)]]
  
 
  | const_with_item2 = 5 x [[Kit (Pipe)]]
 
  | const_with_item2 = 5 x [[Kit (Pipe)]]
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The pumped gas rocket engine uses a 2:1 mix of [[Volatiles]] to [[Oxygen]]. It has a maximum thrust of 16.2kN and contributes 500kg to the overall weight of the rocket.
 
The pumped gas rocket engine uses a 2:1 mix of [[Volatiles]] to [[Oxygen]]. It has a maximum thrust of 16.2kN and contributes 500kg to the overall weight of the rocket.
 
To travel to mars orbit it is recommended the rocket weigh less than 8000kg.
 
To travel to mars orbit it is recommended the rocket weigh less than 8000kg.
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== Comparison ==
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{{:Rocket_Engines}}
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[[Category:Rocketry]]
 
[[Category:Rocketry]]

Revision as of 10:17, 26 August 2024

Kit (Pumped Gas Rocket Engine)
Recipe
Created With Rocket Manufactory
Cost 15g Iron, 10g Copper, 5g Gold
Pumped Gas Engine
Construction
Placed with Kit (Pumped Gas Rocket Engine)
Placed on Engine Mount
Stage 1
Deconstruction
Item received Kit (Pumped Gas Rocket Engine)
Stage 2
Next Stage Construction
Constructed with item 5 x Kit (Pipe)
Deconstruction
Item received 5 x Kit (Pipe)
Stage 3
Next Stage Construction
Constructed with tool Welding Torch
Constructed with item 4 x Steel Sheets
Deconstruction
Item received 4 x Steel Sheets

Description

The pumped gas rocket engine uses a 2:1 mix of Volatiles to Oxygen. It has a maximum thrust of 16.2kN and contributes 500kg to the overall weight of the rocket. To travel to mars orbit it is recommended the rocket weigh less than 8000kg.

Comparison

Rocket Engines give you their max output in kN with this you can calculate what they can reasonably carry into orbit depending on the planet or moon you are on. Force = Mass * Acceleration. Acceleration is equal to the planet's gravity, Mass is given in kg per part of the rocket, and Force is kN. If your thrust force listed below is less than the weight of the rocket in kN then you will not even take off. It is better to have a thrust much higher than the weight of the rocket or else you risk running out of fuel on launch and on landing.

Liquid propellants bring greater efficiencies. Using Nitrous Oxide as oxidizer provides excessive thrust values. Keep in mind that N2O fuel mix is 1.9375 times heavier while thrust boost is around 1.5-1.7. Engine efficiency determines "bonus" thrust multiplier, meaning engine with higher efficiency will give more thrust consuming same amount of fuel. Thus using liquid engines is more favorable if one can cool fuel down, moreover Pressure Fed Engines consume fuel inversely proportional to its temperature. On the other hand if Volatiles and Oxygen are in excess (e.g. farm on Vulcan) is may be much easier to opt for Pressure Fed Gas Engine. It will provide ~40kN at 20°C.

Name Base Power Usage Rocket Mass Contribution Max Thrust Real Max Thrust Efficiency Exhaust Velocity
Using O2 Using N2O
Pressure Fed Gas Engine 10W 500kg 40,3kN 61,0kN 41,9kN[1] 96% 3,86km/s (Isp: 394s)
Pumped Gas Engine 200W 500kg 16,2kN 16,5kN 24,5kN 100% 4,02km/s (Isp: 411s)
Pumped Liquid Engine 200W 500kg 17,6kN 18,7kN 31,3kN 140% 5,47km/s (Isp: 559s)
Pressure Fed Liquid Engine 20W 500kg 29,2kN 43,4kN - 38,1kN 74,5kN - 61,3kN 160% 6,18km/s (Isp: 631s)
Update 0.2.4726.21691 - 18/01/2024 Rocket_Engines
  1. N2O must be much hotter to avoid condensing therefore decreasing pumping rate