Statements (114)
| Predicate | Object |
|---|---|
| gptkbp:instance_of |
gptkb:turbofan_engine
|
| gptkbp:benefits |
Flexibility
Flexibility in Operation Quick Start-Up Higher Fuel Costs Lower Efficiency than Combined Cycle |
| gptkbp:can_be_combined_with |
Heat Recovery Systems
Heat Recovery Steam Generator |
| gptkbp:can_be_used_for |
Peaking Power
|
| gptkbp:can_be_used_with |
Renewable Energy Sources
|
| gptkbp:developed_by |
gptkb:General_Electric
gptkb:Rolls-Royce gptkb:Siemens Various Manufacturers High Demand Scenarios Rapid Response Applications |
| gptkbp:emissions_standard |
CO2
|
| gptkbp:fuel_type |
gptkb:natural_gas
|
| gptkbp:has_applications_in |
Aerospace
Marine Propulsion Industrial Power Generation |
| gptkbp:has_component |
gptkb:Compressor
Turbine Combustor |
| gptkbp:has_operation_type |
Open Cycle
|
| gptkbp:has_startup_time |
Quick Startup
|
| https://www.w3.org/2000/01/rdf-schema#label |
Open Cycle Gas Turbine
|
| gptkbp:is_affected_by |
Fuel Prices
Regulatory Policies |
| gptkbp:is_associated_with |
Thermal Power Plants
Gas Turbine Technology Power Generation Technology |
| gptkbp:is_common_in |
Regions with High Demand Variability
|
| gptkbp:is_compared_to |
Renewable Energy Technologies
Nuclear Power Plants Steam Turbines Hydropower Systems Steam Turbine Combined Cycle Gas Turbine Diesel Generators |
| gptkbp:is_considered |
Grid Stability
Energy Resilience Emergency Power Supply Load Following Applications |
| gptkbp:is_effective_against |
Combined Cycle Gas Turbine
|
| gptkbp:is_evaluated_by |
gptkb:environmental_policy
Life Cycle Assessment Performance Metrics Cost-Benefit Analysis Operational Flexibility Economic Viability Lifecycle Analysis Technical Feasibility Studies |
| gptkbp:is_influenced_by |
Technological Advances
Market Demand Public Perception Energy Policies Climate Policies |
| gptkbp:is_integrated_with |
Grid Systems
|
| gptkbp:is_known_for |
High Power Output
High Emissions Low Capital Cost |
| gptkbp:is_often_used_in |
gptkb:civil_aviation
|
| gptkbp:is_optimized_for |
Fuel Management Systems
Advanced Control Systems |
| gptkbp:is_part_of |
gptkb:hydroelectric_power_generation
Renewable Energy Integration Energy Transition Energy Efficiency Programs Energy Infrastructure Power Generation Systems Energy Transition Strategies Energy Policy Discussions Thermal Efficiency Improvements Energy Security Strategies Distributed Generation Systems Energy Transition Planning Energy Mix Strategies Gas Turbine Technology Hybrid Power Systems Gas Turbine Power Cycle |
| gptkbp:is_recommended_by |
Short-Term Power Needs
|
| gptkbp:is_subject_to |
Environmental Regulations
Market Fluctuations Regulatory Standards Emission Standards Technological Regulations |
| gptkbp:is_supported_by |
Research Funding
Government Policies Investment Incentives |
| gptkbp:is_used_for |
Electricity Generation
|
| gptkbp:is_used_in |
Backup Power Systems
Industrial Applications Military Applications Remote Locations Research and Development Projects Peak Load Management Emergency Power Supply Commercial Power Generation Peaking Power Plants Urban Power Supply |
| gptkbp:is_utilized_in |
Emergency Response Systems
Power Purchase Agreements Power System Stability Co-Generation Systems Mobile Power Generation |
| gptkbp:operates |
gptkb:natural_gas
|
| gptkbp:operational_use |
30% to 40%
Lower Efficiency than Combined Cycle |
| gptkbp:produces_emissions |
Greenhouse Gases
|
| gptkbp:requires |
gptkb:Cooler
gptkb:exhaust_system Air Intake System |
| gptkbp:used_in |
Power Generation
|