Powerplant: Difference between revisions

Revision as of 00:04, 19 June 2024

The primary power generator of fission-powered vessels is typically a thermal-gas turbine that converts the kinetic energy of reactor-heated propellant into electrical energy. The principle behind thermal-gas turbines has been understood for a very long time, the first example in recorded history having been the steam-powered aeolipile described in Roman engineer Vitruvius' De architectura, a treatise on contemporary architecture that was published before the Common Era.

Turbines as they exist in Delta-V rely on similar principles to steam turbines, but are much more advanced in their implementation and execution.

Available powerplants
Name	Power (nominal)	Propellant Consumption	Mass	Price
Turbine	100 MW	0.1 kg/s	500 kg	30,000 E$
Twin Turbine	200 MW	0.2 kg/s	1,000 kg	60,000 E$
Military-Grade Turbine	500 MW	0.5 kg/s	5,000 kg	150,000 E$

@@ Line 1: / Line 1: @@
-{{#invoke:Equipment|list|Powerplant
+The primary power generator of [[Fission|fission-powered]] vessels is typically a thermal-gas turbine that converts the kinetic energy of reactor-heated propellant into electrical energy. The principle behind thermal-gas turbines has been understood for a very long time, the first example in recorded history having been the steam-powered aeolipile described in Roman engineer Vitruvius' ''De architectura'', a treatise on contemporary architecture that was published before the Common Era.
+Turbines as they exist in Delta-V rely on similar principles to steam turbines, but are much more advanced in their implementation and execution.{{#invoke:Equipment|list|Powerplant
 |caption=Available powerplants
 |Name
@@ Line 6: / Line 8: @@
 |Propellant Consumption
 |Mass|Price}}
-Additional electrical power can be obtained by installing an [[Auxiliary Power Unit]].
 [[Category:Equipment]]