Statements (112)
Predicate | Object |
---|---|
gptkbp:instance_of |
gptkb:gasoline
|
gptkbp:benefits |
High Efficiency
Sensitivity to CO2 |
gptkbp:can_be_used_for |
Backup power systems
|
gptkbp:developed_by |
gptkb:NASA
gptkb:Ballard_Power_Systems 1960s Clean Energy Solutions Portable power applications |
gptkbp:has_a_focus_on |
Government research funding
Innovation in energy technology Clean energy research |
gptkbp:has_a_history_of_use_in |
gptkb:NASA_missions
|
gptkbp:has_applications_in |
Electric vehicles
|
gptkbp:has_limitations |
Durability issues
|
https://www.w3.org/2000/01/rdf-schema#label |
Alkaline Fuel Cell
|
gptkbp:is_a_clean_technology_for |
Energy generation
|
gptkbp:is_a_solution_for |
Energy independence
Decentralized power generation Carbon-neutral energy systems |
gptkbp:is_a_subject_of |
Environmental impact studies
Technical standards development |
gptkbp:is_a_viable_option_for |
Off-grid power solutions
|
gptkbp:is_affected_by |
Temperature variations
|
gptkbp:is_associated_with |
Electrolytic processes
|
gptkbp:is_characterized_by |
High power density
|
gptkbp:is_common_in |
Proton exchange membrane fuel cell
|
gptkbp:is_compared_to |
gptkb:Proton_Exchange_Membrane_Fuel_Cell
gptkb:Solid_Oxide_Fuel_Cell Phosphoric acid fuel cell Solid oxide fuel cell |
gptkbp:is_compatible_with |
Hydrogen production technologies
|
gptkbp:is_evaluated_by |
Cost-effectiveness
|
gptkbp:is_explored_in |
Home energy systems
|
gptkbp:is_influenced_by |
Electrode materials
|
gptkbp:is_integrated_with |
Renewable energy sources
|
gptkbp:is_known_for |
High efficiency
Low Cost Simplicity of design Rapid response time Simplicity of Design Low Operating Temperature Rapid Start-Up |
gptkbp:is_part_of |
gptkb:Renewable_Energy_Systems
Energy efficiency programs Hydrogen economy Hydrogen Economy Energy transition strategies Future energy systems Clean transportation initiatives Decarbonization efforts Alternative energy technologies |
gptkbp:is_regarded_as |
A Clean Technology
A Solution for Clean Air Initiatives A Solution for Climate Change Mitigation A Solution for Critical Infrastructure A Solution for Data Centers A Solution for Disaster Recovery A Solution for Economic Growth A Solution for Education and Awareness A Solution for Emergency Power Supply A Solution for Energy Independence A Solution for Energy Storage A Solution for Energy Transition A Solution for Grid Stability A Solution for Industrial Applications A Solution for Innovation A Solution for Job Creation A Solution for Military Applications A Solution for Off-Grid Applications A Solution for Reducing Emissions A Solution for Remote Power Generation A Solution for Research and Development A Solution for Smart Grids A Solution for Sustainable Development A Solution for Telecommunications A Solution for Transportation Sector A Solution for Urban Mobility A Sustainable Energy Source An Alternative to Fossil Fuels |
gptkbp:is_tested_for |
gptkb:Laboratories
Field Conditions |
gptkbp:is_used_in |
gptkb:spacecraft
gptkb:electric_vehicles Submarines Backup Power Systems Military applications Research laboratories Portable Power Applications Remote power systems |
gptkbp:manufacturer |
Various Companies
|
gptkbp:notable_nominees |
Grid energy storage
Smart grid applications |
gptkbp:operates_in |
Reformed fuels
|
gptkbp:operates_under |
Low temperature
High Temperature |
gptkbp:produces |
gptkb:Water
gptkb:Electricity |
gptkbp:requires |
gptkb:Potassium_Hydroxide
Potassium hydroxide electrolyte |
gptkbp:research |
Renewable energy solutions
|
gptkbp:sensitivity |
Carbon dioxide
|
gptkbp:technology |
Reduces greenhouse gas emissions
Enhances energy security Supports sustainable development. |
gptkbp:type_of |
gptkb:Electrochemical_cell
Fuel cell technology |
gptkbp:uses |
Oxygen
Hydrogen |
gptkbp:uses_technology |
Sustainable energy
|
gptkbp:bfsParent |
gptkb:Hydrogen_Fuel_Cells
|
gptkbp:bfsLayer |
5
|