Electrical Vertical Take-Off and Landing Aircrafts in a Civilian Urban Environment. Concepts, Technology and Legislative Framework
Electrical Vertical Take-Off and Landing Aircrafts in a Civilian Urban Environment. Concepts, Technology and Legislative Framework

Author: Niklas Lohse

Publisher: GRIN Verlag

Published: 2019-12-11

Total Pages: 83

ISBN-13: 3346081257

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Master's Thesis from the year 2019 in the subject Engineering - Aerospace Technology, grade: 1,5, University of Applied Sciences Wildau, language: English, abstract: This Paper will introduce the most developed concept of vertical take off and landing (VTOL) aircrafts and assess them. It will also analyse the key technology challenges and the legislative situation. The world’s population is growing and people continue to move from rural to urban areas. This is accompanied by an increasing number of cars. As a result of this, traffic jams in densely populated areas and long commutes are becoming omnipresent. Extension possibilities for existing infrastructure, especially within urban areas, are very limited due to space. Consequently, innovative alternatives are required. Flying cars, also known as vertical take off and landing (VTOL) aircraft, still appear to be a future vision which seems to be far away. However, to date, more than 200 of such concepts around the world are being developed, some of which are even performing flight tests. The objective of this Master’s Thesis therefore is to evaluate if flying cars have a realistic potential to improve the overloaded ground infrastructure systems on a mid-term ten years basis. In order to answer the research question, a conceptual examination and subsequent classification of the existing concepts is conducted. Based on this a profound content analysis of the four most mature aircraft is carried out. As a result, three significant technical challenges emerge: batteries, noise pollution and the autonomous flying capability. By performing another content analysis on these obstacles, their respective relevance and impact following an upcoming vehicle certification is investigated. Furthermore, VTOL aircraft operations would require legislative amendments. Hence, the current legal situations and actual activities in those regions are studied, where the four companies with the most mature concepts are based. On that basis it can be concluded, that flying cars have a huge potential to relieve the overstressed infrastructure systems on the ground. Although more than ten years will be required to significantly improve this situation, the first flying cars will most likely be visible much sooner. Technical as well as legal challenges exist, but are not insurmountable and especially the latter are relatively well developed already to enable VTOL operations in an urban environment in the near future.

Conceptual & Preliminary Design of a Vertical Take Off and Landing UAV with High Endurance
Conceptual & Preliminary Design of a Vertical Take Off and Landing UAV with High Endurance

Author: Todor Ilchev Ilchevski

Publisher:

Published: 2021

Total Pages: 145

ISBN-13:

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The goal for this project is to conduct a conceptual design study of an unmanned vertical take-off and landing electric aircraft with maximum take-off mass of 25kg. The aircraft in question features the PICOMA (Pitch Control by Mass Actuation) patented concept, which is used to control the stability of the aircraft around its lateral axis by moving a mass along its longitudinal one. Previously, two separate design studies were performed on aircraft using the PICOMA concept and the gathered experience, where possible, is applied to this project.This report includes the creation of the needed CAD models, performance calculations for the vertical and horizontal flight phases, and the CFD analysis performed on the aerodynamic surfaces of the airplane. Furthermore, the used design methods are outlined in the report along with several identified design challenges, stemming from the unique control mechanism of the aircraft. Respectively, possible solutions to the design challenges are proposed and discussed throughout this report.*****The goal for this project is to conduct a conceptual design study of an unmanned vertical take-off and landing electric aircraft with maximum take-off mass of 25kg. The aircraft in question features the PICOMA (Pitch Control by Mass Actuation) patented concept, which is used to control the stability of the aircraft around its lateral axis by moving a mass along its longitudinal one. Previously, two separate design studies were performed on aircraft using the PICOMA concept and the gathered experience, where possible, is applied to this project.This report includes the creation of the needed CAD models, performance calculations for the vertical and horizontal flight phases, and the CFD analysis performed on the aerodynamic surfaces of the airplane. Furthermore, the used design methods are outlined in the report along with several identified design challenges, stemming from the unique control mechanism of the aircraft. Respectively, possible so

Short Field Take-Off and Landing Performance As an Enabling Technology for a Greener, More Efficient Airspace System
Short Field Take-Off and Landing Performance As an Enabling Technology for a Greener, More Efficient Airspace System

Author: Craig E. Hange

Publisher: BiblioGov

Published: 2013-07

Total Pages: 22

ISBN-13: 9781289260569

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The Cruise Efficient Short Take-Off and Landing (CESTOL) aircraft and Civil Tiltrotor (CTR) are two examples of powered-lift aircraft concepts that are of interest to NASA. These concepts will be able to utilize the shorter unused or underutilized runways and corresponding airspace at the crowded hub airports and many unused airfields and airspace that currently exist in other expanding urban areas providing additional capacity to the airspace system and reductions in congestion and delays seen in the current system. By treating the use of CESTOL and CTR as critical components that supplement other green aircraft to be used in the overall airspace system, the efficiency and improvements gained by the entire system will offset the potential increased fuel usage and emissions that may be a result of providing short field capability to the powered-lift aircraft. My presentation will address how NASA and the aerospace industry may identify, analysis, and finally implement these powered-lift aircraft into the airspace system and improve the capacity and reduce delay, while obtaining an overall reduction in noise, fuel usage, and emissions.

Unsettled Issues Concerning the Opportunities and Challenges of EVTOL Applications During a Global Pandemic
Unsettled Issues Concerning the Opportunities and Challenges of EVTOL Applications During a Global Pandemic

Author: Johnny T Doo

Publisher: Sae Edge Research Report

Published: 2020-10-30

Total Pages: 34

ISBN-13: 9781468602524

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Electric vertical takeoff and landing (eVTOL) aircraft technology has developed beyond the traditional aviation industry and now influences the creation of new and novel transportation applications. Some experts even suggest on-demand eVTOL logistics capabilities could be harnessed by crisis response teams to c ombat a future pandemic. The lessons of the COVID-19 crisis highlighted the challenges of managing a global pandemic response due to the difference in regional and local resources, culture, and political systems. Although there may not be a uniform crisis management strategy that the world can agree on, next-generation vertical flight vehicles could be used to distribute limited medical equipment, supplies, and personnel to hot spots faster than conventional aircraft or ground vehicles. However, creating this capability is not easy. This SAE EDGE(TM) Research Report by Johnny Doo addresses the opportunities and challenges of establishing an eVTOL fleet, including deployment, supporting infrastructure, and fleet management.

Biofuels for Aviation
Biofuels for Aviation

Author: Christopher Chuck

Publisher: Academic Press

Published: 2016-06-02

Total Pages: 392

ISBN-13: 0128032154

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Biofuels for Aviation: Feedstocks, Technology and Implementation presents the issues surrounding the research and use of biofuels for aviation, such as policy, markets, certification and performance requirements, life cycle assessment, and the economic and technical barriers to their full implementation. Readers involved in bioenergy and aviation sectors—research, planning, or policy making activities—will benefit from this thorough overview. The aviation industry’s commitment to reducing GHG emissions along with increasing oil prices have sparked the need for renewable and affordable energy sources tailored to this sector’s very specific needs. As jet engines cannot be readily electrified, turning to biofuels is the most viable option. However, aviation is a type of transportation for which traditional biofuels, such as bioethanol and biodiesel, do not fulfill key fuel requirements. Therefore, different solutions to this situation are being researched and tested around the globe, which makes navigating this scenario particularly challenging. This book guides readers through this intricate subject, bringing them up to speed with its current status and future prospects both from the academic and the industry point of view. Science and technology chapters delve into the technical aspects of the currently tested and the most promising technology in development, as well as their respective feedstocks and the use of additives as a way of adapting them to meet certain specifications. Conversion processes such as hydrotreatment, synthetic biology, pyrolysis, hydrothermal liquefaction and Fisher-Tropsch are explored and their results are assessed for current and future viability. Presents the current status of biofuels for the aviation sector, including technologies that are currently in use and the most promising future technologies, their production processes and viability Explains the requirements for certification and performance of aviation fuels and how that can be achieved by biofuels Explores the economic and policy issues, as well as life cycle assessment, a comparative techno-economic analysis of promising technologies and a roadmap to the future Explores conversion processes such as hydrotreatment, synthetic biology, pyrolysis, hydrothermal liquefaction and Fisher-Tropsch

Risk Management Handbook
Risk Management Handbook

Author: Federal Aviation Administration

Publisher: Simon and Schuster

Published: 2012-07-03

Total Pages: 112

ISBN-13: 1620874598

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Every day in the United States, over two million men, women, and children step onto an aircraft and place their lives in the hands of strangers. As anyone who has ever flown knows, modern flight offers unparalleled advantages in travel and freedom, but it also comes with grave responsibility and risk. For the first time in its history, the Federal Aviation Administration has put together a set of easy-to-understand guidelines and principles that will help pilots of any skill level minimize risk and maximize safety while in the air. The Risk Management Handbook offers full-color diagrams and illustrations to help students and pilots visualize the science of flight, while providing straightforward information on decision-making and the risk-management process.