designPowerOutput

P10373
predicate

Indicates the intended or specified power output level that something is designed to produce under defined conditions.

All labels observed (18)

Label Occurrences
powerOutputClass 19
ratedPower 13
powerOutputThermal 5

Description generation (PDg)

The one-sentence description above was generated by prompting gpt-5.1 with the predicate name and this instruction.

Instruction
Given a predicate that represents a relationship or action between entities, generate a one-sentence description explaining its meaning.  
# Instructions
Focus on describing the relationship, not the entities themselves. 
# Response Format
Begin the description with \' Indicates...\'
Input
Predicate: designPowerOutput
Generated description
Indicates the intended or specified power output level that something is designed to produce under defined conditions.

Sample triples (64)

Subject Object
B Reactor approximately 250 megawatts thermal
Arecibo message about 1000 kW via predicate surface "transmissionPower"
N Reactor approximately 860 MWe via predicate surface "powerOutputElectrical"
N Reactor approximately 4000 MWt via predicate surface "powerOutputThermal"
Tesla Megacharger megawatt-class charging via predicate surface "powerOutputClass"
Spallation Neutron Source 1.4 MW via predicate surface "designBeamPower"
L Reactor approximately 2,800 MWth via predicate surface "designedThermalPower"
L Reactor none (non‑power production reactor) via predicate surface "designedElectricalOutput"
Experimental Breeder Reactor I about 200 kilowatts via predicate surface "powerOutputElectrical"
Experimental Breeder Reactor I about 1.4 megawatts via predicate surface "powerOutputThermal"
Daimler-Benz DB 606 around 2700 horsepower via predicate surface "powerOutputClass"
Class 222 Meridian high power-to-weight ratio via predicate surface "hasPowerOutput"
V-1650-3 takeoff power via predicate surface "powerOutputCondition"
Siemens SWT-3.6-107 3.6 MW via predicate surface "ratedPower"
Siemens SWT-3.6-107 3600 kW via predicate surface "ratedPower"
Vestas V80 2000 kW via predicate surface "ratedPower"
USS Washington (BB-47) 28000 shaft horsepower via predicate surface "designedPower"
Vestas V90-3.0 MW 3 MW via predicate surface "ratedPower"
Vestas V90-3.0 MW 3000 kW via predicate surface "ratedPower"
REpower 5M 5 megawatts via predicate surface "ratedPower"
REpower 5M 5000 kilowatts via predicate surface "ratedPower"
University of Missouri Research Reactor 10 megawatts thermal via predicate surface "designedPowerLevel"
Mitsubishi Ha-104 radial engine
surface form: Mitsubishi Ha-104
approximately 1900 horsepower via predicate surface "powerOutputClass"
K15 pressurized water reactor approximately 150 megawatts thermal equivalent for propulsion and onboard systems via predicate surface "powerOutputElectrical"
Nakajima Ha-5 radial engine
surface form: Nakajima Ha-5
around 800–900 horsepower via predicate surface "powerOutputClass"
GP40PH-2 3000 hp class via predicate surface "hasPowerOutput"
Nakajima Ha-109 radial engine
surface form: Nakajima Ha-109
around 1,500 horsepower via predicate surface "powerOutputClass"
DB 605A about 1310 PS at altitude via predicate surface "ratedPower"
Kuznetsov NK-12 over 11,000 kW via predicate surface "powerOutputClass"
Kuznetsov NK-12 over 15,000 shp via predicate surface "powerOutputClass"
Molten-Salt Reactor Experiment at Oak Ridge about 10 megawatts thermal via predicate surface "designedPowerLevel"
Arak heavy water reactor 40 megawatts thermal via predicate surface "designedThermalPower"
GP40MC 3000–3500 hp range via predicate surface "powerOutputClass"
ITER 500 megawatts via predicate surface "designedFusionPowerOutput"
ITER about 50 megawatts via predicate surface "designedInputHeatingPower"
Napier Eland around 3,000 shaft horsepower via predicate surface "powerOutputClass"
Fiat A.80 high-power piston aircraft engine via predicate surface "powerOutputClass"
Ivchenko AI-20 turboprop
surface form: Ivchenko AI-20
4000–5000 shaft horsepower via predicate surface "powerOutputClass"
Klimov TV3-117 approximately 1,900–2,200 shaft horsepower via predicate surface "powerOutputClass"
XEW-AM high-power AM signal via predicate surface "transmissionPower"
Class 387/1
surface form: British Rail Class 387/1
1,680 kW per unit (approximate) via predicate surface "hasPowerOutput"
Clemson class
surface form: Clemson-class destroyer
27,000 shaft horsepower via predicate surface "designedPower"
V-320 approximately 1000 MWe via predicate surface "powerOutputElectrical"
V-320 approximately 3000 MWt via predicate surface "powerOutputThermal"
Siemens SWT-3.6-120 3.6 MW via predicate surface "ratedPower"
Siemens SWT-3.6-120 3600 kW via predicate surface "ratedPower"
Nakajima Homare radial engine
surface form: Nakajima Homare
approximately 1800–2000 horsepower via predicate surface "powerOutputClass"
X-10 4000 kW via predicate surface "powerOutputThermal"
Siemens SWT-2.3-93 2.3 MW via predicate surface "ratedPower"
Siemens SWT-2.3-93 2300 kW via predicate surface "ratedPower"