Julio Chu

Cryogenic system options for a superconducting aircraft propulsion system

Comparison of Candidate Architectures for Future Distributed Propulsion Aircraft

Revolutionary Aeropropulsion Concept for Sustainable Aviation: Turboelectric Distributed Propulsion

Assessment of Vehicle Performance Using Integrated NPSS Hybrid Electric Propulsion Models

HTS Electrical System for a Distributed Propulsion Aircraft

Design and Performance Considerations for a Superconducting Electric Power System to power future Aircraft

Failure Analysis of a Turboelectric Distributed Propulsion Aircraft Electrical Network: A Case Study

A Noise and Emissions Assessment of the N3-X Transport

Turboelectric Distributed Propulsion Protection System Design Trades

Propulsion System Component Considerations for NASA N3-X Turboelectric Distributed Propulsion System

High-Power Machines and Starter-Generator Topologies for More Electric Aircraft: A Technology Outlook

HTS System and Component Targets for a Distributed Aircraft Propulsion System

Turboelectric distributed propulsion benefits on the N3-X vehicle

Electric, hybrid, and turboelectric fixed-wing aircraft: A review of concepts, models, and design approaches

Economic Viability Assessment of NASA’s Blended Wing Body N3-X Aircraft

Partially Turboelectric Aircraft Drive Key Performance Parameters

More Electric Aircraft: Review, Challenges, and Opportunities for Commercial Transport Aircraft

Aircraft Hybrid-Electric Propulsion: Development Trends, Challenges and Opportunities

Turboelectric Distributed Propulsion in a Hybrid Wing Body Aircraft

Sensitivity of Mission Energy Consumption to Turboelectric Distributed Propulsion Design Assumptions on the N3-X Hybrid Wing Body Aircraft