Statements (55)
| Predicate | Object |
|---|---|
| gptkbp:instanceOf |
engine
|
| gptkbp:designedFor |
high efficiency
|
| gptkbp:developedBy |
NASA
|
| gptkbp:features |
low emissions
|
| gptkbp:hasEvents |
high temperature differentials
|
| gptkbp:hasGoals |
gptkb:Mars_rovers
|
| gptkbp:hasRelatedPatent |
renewable energy
future space exploration |
| https://www.w3.org/2000/01/rdf-schema#label |
NASA's Stirling engine
|
| gptkbp:isConsidered |
interplanetary missions
lunar missions alternative to radioisotope thermoelectric generators a viable power source |
| gptkbp:isCounteredBy |
extreme temperatures
|
| gptkbp:isDesignedFor |
maximize efficiency
modular components reduce weight long-term reliability |
| gptkbp:isEvaluatedBy |
environmental impact
cost-effectiveness thermal efficiency spacecraft power systems NASA_engineers |
| gptkbp:isKnownFor |
reliability
|
| gptkbp:isPartOf |
advanced propulsion systems
energy conversion technologies conventional engines energy systems research NASA's_energy_research_initiatives NASA's_propulsion_technology NASA's_technology_portfolio |
| gptkbp:isSuitableFor |
deep space missions
|
| gptkbp:isTestedFor |
durability
long-duration missions various fuels different working fluids thermal cycling. |
| gptkbp:isTrainedIn |
performance benchmarks
field conditions vacuum conditions |
| gptkbp:isUsedBy |
convert heat to mechanical work
|
| gptkbp:isUsedFor |
satellites
|
| gptkbp:isUsedIn |
scientific instruments
power systems for satellites |
| gptkbp:isVisitedBy |
advanced materials
collaborative research sustainable energy solutions improve energy efficiency |
| gptkbp:madeOf |
lightweight materials
|
| gptkbp:operatesIn |
gptkb:Stirling_cycle
|
| gptkbp:provides |
power generation
|
| gptkbp:requires |
heat source
|
| gptkbp:usedIn |
space missions
|
| gptkbp:utilizes |
thermal energy
|
| gptkbp:waterManagement |
laboratory conditions
|