Archives
Team - A : Fuel Cell for a Diesel Electric Submarine
Team - B : Unmmaned Underwater Vehicles
Team - C : Wearable Power Pack
Team - D : 1 MW Level Commercial Power Plant
Team - A : Wearable Power Pack
Team - B : Segway or One Person Transportation Vehicles
Team - C : Unmanned Underwater or Aerial Vehicles
Team - D : Fuel Cell Electric Vehicles
Team - E : 5 KW Level Residential Co-generation System
Team - F : 1 MW Level Commercial Power Plant
Team - B : Unmanned Underwater or Aerial Vehicles
Team - C : 3 KW Level Residential Tri-generation System
Team - E : Railway Transportation
Team - A : Fuel Cell Technology in Automotive Vehicles
Team - B : Wearable Power Pack
Team - C : Fuel Cells for Power and Energy Production
Team - D : Fuel Cell Motors for Mopeds and Scooters
Team - E : Wearable Power Pack with Camping and Survival Applications
Team - F : Wearable (Portable) Power Pack
Team - G : Fuel Cell Operated Boat House
Team - H : Portable Charger Pack
Team - I : Small, Stationary Fuel Cell Generators for Residence or Small Building
Team - S : Global Transition and Expansion to a Hydrogen Economy
Team - A : Fuel Cells for Mobile Scooters
Team - B : Applications of PEM Fuel Cells in Transportation
Team - C : Fuel Cell to Power Shelters During Disasters
Team - D : Fuel Cell Usage in Satellites
Team - E : 2kW Fuel Cells for Residential Use
Team - F : Fuel Cell replacing the batteries in the Single Channel Glround and Airborne Radio System (SINCGARS) model RT-1702G
Team - G : Emergency Backup Power
Team - H : Fuel Cell Motors for Submarines
Team - I : Plasma Treatment of Electrode to improve Catalytic Properties in Fuel Cell System
Team - J : Stationary Cogeneration Fuel Cell for Structures
Team - A : Solid Oxide Fuel Cell for Mars Colonization
Team - B : The use of Hydrogen Fuel Cells as an energy source to be used in Forward Operating Bases or other fortifications
Team - C : Portable Fuel Cell for College Students
Team - D : Fuel cell applications in trains
Team - E : Antarctic Fuel Cell power Generation
Team - F : Fuel Cell Applications in SUVs
Team - G : Powering Homes using Fuel Cell Technology
Team - H : Fuel Cell for Semi Trucks
Team - I : Hydrogen-Fuel Cell for Passenger Vehicle Applications
Team - J : Fuel Cell for kW Range Operations
Team - K : Fuel Cell Revolution
Team - A : Space - The Final Fueltier
Team - B : Solar Farm Fuel Cell
Team - C : Military Operations Fuel Cell
Team - D : Hydrogen Fuel Cell Powered Scooters
Team - E : Microbial fuel cells (MFC’s) to generate power in refugee camps and disaster prone areas
Team - F : Fuel Cell powered Unmanned Aerial Vehicle (UAV)
Team - G : Fuel Cells in Consumer Electronics
Team - H : Fuel Cell Powered Generator
Team - I : Metal Air Fuel Cell for Emergency Situations
Team - J : RVFC - Recreational Vehicle Fuel Cell
Team - K : Solar-Hydrolytic Cell for Military Use
Team - A : Fuel Cell Applications for the Mars Rover
Team - B : Fuel Cell for Disaster Relief
Team - C : Hydrogen Fuel Cells Powering UIUC Buses
Team - D : Fuel Cell Applications in Passenger Aircraft
Team - E : Fuel cell for a small submersible submarine research vessel
Team - F : Fuel Cell Powered Exoskeletons
Team - G : Backpack Friendly Portable Fuel Cells
Team - H : Fuel Cell Applications for Ambulances
Team - I : Fuel Cells in Long Range Commercial Transport
Team - J : Fuel Cells to Mars
Team - K : Fuel Cell Powered Pressure Swing Adsorber
Team - L : Fuel Cell Usage in Space
Team - A : Fuel Cells for Mars Rover Applications
Team - B : Fuel-Cell based sensor device for blood alcohol content detection
Team - C : Fuel Cells for Powering Unmanned Military Vehicles
Team - D : A Top-Down Analysis of In Situ Hydrogen Production for Fuel Cell Application
Team - E : Fuel cell powered scooters
Team - F : Fuel Cell and Electric Battery for Future Vehicles
Team - G : Integrated Hydrogen Fuel Cell Buses
Team - H : Fermentation Methane-Based Fuel Cells for Household Power
Team - I : The Reduction of Carbon Dioxide Via Fuel Cell
Team - J : Powering Your Commute_ Fuel Cells in Public Transportation
Team - K : Hydrogen Fuel Cell Generator Application
Team - A : Design a Hydrogen Bus for University of Illinois Transportation
Team - B : Powering UIUC Campus Buildings with Direct Ethanol Fuel Cells Using Bioethanol Derived from Corn
Team - C : Powering the Earths First Lunar Base and Human Habitat
Team - D : Offsetting CO2 and NOx Emissions in Agricultural Production through the Design of a Hydrogen-offset Tractor
Team - E : 1 MW Hydrogen Fuel Cell System for Microgrid Stability
Team - F : Pairing Electrolysis for Green Hydrogen Production from Surplus Solar & Wind Power with Hydrogen Fuel Cell Systems for Grid-Scale Energy Storage
Team - G : Transforming waterway transportation with hydrogen fuel cells
Team - H : Introduction of Fuel Cell Technology into the Heavy Machinery Industry
Team - A : A fuel cell to power industrial mining trucks as an alternative to diesel fuel.
Team - B : Fuel Cells for Powering Today's Vehicles.
Team - C : Role of Hydrogen as an Energy Storage Medium.
Team - D : Fuel cell Technology for Usage in Residential Generators.
Team - E: Implementation and Possibilities of Fuels Cells in Cellular Technology.
Team - F: Fuel Cells in Personal Automobiles.
Team - G: Alkaline Fuel Technology for Space Travel.
Team - H: Hydrogen Fuel Cell Powered Motorcycle.
Team - I: Fuel Cell for Lunar Vehicles.
Team - Campbell: Hydrogen propulsion for passenger airliners
Team - A : Emergency Fuel Cell
Team - B : Hydrogen and Fuel Cells in Space
Team - C : Fuel Cells for Warehouse Operations
Team - D : Data Centers, Improving Efficiency of Hydrogen Generators
Team - E: Microbial Fuel Cell Applications in Biorefineries
Team - F: Designing Hydrogen Fuel Cell boilers for residential housing
Team - G: Hydrogen System for Grid Scale Utility and Green Steel Industry
Team - H: Hydrogen Fuel Cells in Submarines
Team - I: Fuel Cell Powered School and School Buses
Team - J: The Role of Hydrogen Fuel Cells in the Global Distribution of Goods and Services
Team - K: SMRs and Hydrogen Production
Team - L: Hydrogen Fuel Cell Power in an Automotive Application
Copyright © 2022 Kyu-Jung Kim