Global Hydrogen Aircraft Market 2021-2026

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    GLOBAL HYDROGEN AIRCRAFT MARKET

     

    INTRODUCTION

    Hydrogen transportation might have a huge influence on the environment. Hydrogen removes Carbon footprints in flight and may be generated without the need of fossil fuels.

     

    Taking non-CO2 emissions into consideration, and assuming the assumptions of these impacts into account1, the newest estimates reveal that H2 combustion might minimize impact on climate change in flight by 50 to 75 percent, and fuel-cell powering by 75 to 90 percent.

     

    This compared to roughly 30-60% for synfuels. To scale H2-powered aircraft, several technological breakthroughs are required: improving overall effectiveness with lightweight tanks (targeting 12 kWh/kg / gravimetric index of 35 percent) and fuel cell systems (targeting 2 kW/kg incl. cooling), liquid hydrogen (LH2) dissemination inside the airframe, turbines competent of combusting hydrogen with reduced NOx emissions, and the development of better refuelling progressively helpful mass flow roughly equivalent to jet engines.

     

    infographic: Hydrogen Aircraft Market, Hydrogen Aircraft Market Size, Hydrogen Aircraft Market Trends, Hydrogen Aircraft Market Forecast, Hydrogen Aircraft Market Risks, Hydrogen Aircraft Market Report, Hydrogen Aircraft Market Share

     

    Protracted aeroplanes necessitate innovative hydrogen-powered aircraft designs. H2 is theoretically viable, but economically unsuitable for evolving long-range airplane concepts.

     

    The hydrogen canisters could lengthen the aircraft and increase energy demand, leading in 40% to 50% higher expenses per PAX.

     

    Synfuel is most probably the less expensive emission reduction solution. New aircraft designs (for example, blended-wing-body) may change this; however they may be at least 20 years prevented from having production.

     

    To know more about Global Hydrogen Fueling Station Market, read our report

     

    GLOBAL HYDROGEN AIRCRAFT MARKET DEVELOPMENTS AND INNOVATIONS

    S No Overview of Development Development Detailing Region of Development Possible Future Outcomes
    1 Embraer reveals ‘Energia’ family of electric- and hydrogen-powered aircraft concepts Embraer has introduced a group of four low- or zero-emission conceptual aircraft for the regional market, which it wants to fly in the next decades, comprising hybrid-, all-electric, and hydrogen-powered types. The Energia aircraft will use cutting-edge technologies to produce “low- or zero-carbon emissions” using “various propulsion systems for different missions.” Global Scale This would enhance better Technologies and production

     

    As the effects of climate change in Africa worsen, the necessity for quick aerial response grows. FlyH2 has already created a climate-friendly, carbon-neutral aerial response system that is ready for commercial deployment.

     

    The Dragonfly V, a hydrogen-powered aircraft, is billed as a long-range remotely piloted aircraft system that is affordable for ordinary commercial use. It was built from the ground up with minimal operating costs, dependability, and ease of use in mind.

     

    In the medium term, FlyH2 will continue to improve its aircraft and software to a level of unequalled simplicity and reliability, ensuring that any rural operator’s choice of aircraft is a no-brainer.

     

    GLOBAL HYDROGEN AIRCRAFT MARKET DYNAMICS

    The aviation sector is already at a decision point. In the face of increasing demand to manage its influence on changing climate, the sector needs react; it must continue to enhance modern methods while also developing in cleaner, possibly game-changing alternatives.

     

    Among some of the various sustainable aviation technologies under consideration – from sustainability jet fuel to electric aircraft hydrogen has emerged as a potential aviation fuel of the century, with fuel cell technology and combust alternatives providing varying possibilities.

     

    The aviation industry is in desperate need of a change. While large industries including such power and manufacturing are working to reduce their carbon footprints, aviation emissions continue to rise.

     

    Aircraft performance is increasing, with gas consumption dropping at a rate of around 1% per year, while aircraft fleet sizes are increasing at a rate of about 4% per year. Focusing now at net effect, The aviation might account for up to 24 percent of world CO emissions by 2050, up from about three percent now.

     

    Variables including increased worldwide air transport, the appropriateness of hydrogen as something of an aviation fuel, and lower GHG emissions from the usage of hydrogen aircrafts are expected to dominate the growth hydrogen aircraft market. 

     

    Nevertheless, the constant price gap among hydrogen and traditional jet fuel, as well as the significant investments required for licencing and certification of hydrogen-powered planes and helicopters, are projected to stymie the global hydrogen aircraft industry’s growth.

     

    infographic: Hydrogen Aircraft Market, Hydrogen Aircraft Market Size, Hydrogen Aircraft Market Trends, Hydrogen Aircraft Market Forecast, Hydrogen Aircraft Market Risks, Hydrogen Aircraft Market Report, Hydrogen Aircraft Market Share

     

    GLOBAL HYDROGEN AIRCRAFT MARKET SEGMENTATION

    The Global Hydrogen Aircraft Market can be segmented into following categories for further analysis.

    Hydrogen Aircraft Market By Application

    • Passenger Transportation
    • Freighter Transportation
    • Military Transportation

     

    Hydrogen Aircraft Market By Product Type

    • Piloted Product
    • Autonomous Product
    • Hybrid Product

     

    Hydrogen Aircraft Market By Technology Focus Type

    • Hydrogen Combustion
    • Hydrogen Fuel Cells

     

    Hydrogen Aircraft Market By Architecture Type

    • UAVs
    • Air Taxis
    • Business Jets

     

    Hydrogen Aircraft Market By Regional Classification

    • Asia Pacific Region – APAC
    • Middle East and Gulf Region
    • Africa Region
    • North America Region
    • Europe Region
    • Latin America and Caribbean Region

     

    RECENT TECHNOLOGICAL TRENDS IN GLOBAL HYDROGEN AIRCRAFT MARKET

    Technology has been developing in the market focusing on the technological production of hydrogen as fuel. The steam reformation of natural gas, oil, and coal accounts for 96% of worldwide hydrogen generation.

     

    This has traditionally been one of the most outlay technique of producing hydrogen, however it refers to the conversion of carbon to CO2.

     

    As a result, hydrogen is not a clean energy transporter as long as this procedure is utilised. In this mechanism, fuel (for illustration, methane (CH4)) interacts with water to produce CO and H2, after which a moisture shift process converts CO + additional H2O to H2 + CO2.

     

    A third option is to use liquid hydrogen (LH2) as a fuel. Hydrogen is the most plentiful element in earth’s crust, and it carries approximately 2.5 times more energy per kilogramme than kerosene in liquid state.

     

    Because hydrogen has no carbon content to begin with, it merely creates water vapour as a by-product when burned. In relation to local air pollutants, hydrogen consumption releases up to 90% less nitrogen dioxide than fuel properties and prevents the formation of fine particulates. Hydrogen has a lot of promise in terms of both the environment and energy content.

     

    Power density, inexhaustibility, purity, efficiency, and independence from foreign influence are all favourable requirements for any fuel.

     

    Hydrogen power, whether it be through turbines or fuel cells, seems to have the ability to significantly decarbonize aircraft. Nevertheless, thus far, emerging technologies have never been the focus of the EU’s efforts to reduce carbon emissions aircraft.

     

    Unlike biofuels, the primary source of synfuels (power-to-liquid) is energy. This power is utilised to generate hydrogen and trap carbon before conflating the two to create a kerosene-like fuel. Synfuel is also compatible with current aircraft engines and fuel infrastructure, making it appropriate for all sectors.

     

    infographic: Hydrogen Aircraft Market, Hydrogen Aircraft Market Size, Hydrogen Aircraft Market Trends, Hydrogen Aircraft Market Forecast, Hydrogen Aircraft Market Risks, Hydrogen Aircraft Market Report, Hydrogen Aircraft Market Share

    RECENT PARTNERSHIPS IN HYDROGEN AIRCRAFT MARKET

    Wizz Air, a low-cost carrier, and Airbus, an aerospace company, have inked an MOU for a feasibility study on hydrogen-powered aircraft operations. The goal is to learn how future hydrogen-powered planes can affect Hungarian budget carrier’s business model and fleet.

     

    Wizz will investigate the impact of future hydrogen-powered aircraft on the airline’s network, timetable, and bases as a result of the MoU. The two firms’ new chapter of collaboration will examine a wide range of concerns that will develop as a result of the new technology, including refuelling, aircraft range, and other performance parameters.

     

    Wizz isn’t the first airline to team up with Airbus to investigate how future clean propulsion may affect operations. Delta Air Lines, a major US airline, inked an MoU with the plane maker as part of its Flight to Net Zero programme to work on hydrogen-powered aircraft research.

     

    Meanwhile, easyJet, Wizz’s competitor European LCC and Airbus operator, has been working with Airbus on hydrogen for some years. It has also pushed nations to support Airbus’ hydrogen plane idea.

     

    HYDROGEN AIRCRAFT MARKET COMPETITIVE LANDSCAPE

    A hydrogen aircraft is indeed an aeroplane that is powered by hydrogen (liquid or gas). The electricity of hydrogen may be used in two ways for a hydrogen aeroplane.

     

    It may be used in a jet engine or other types of internal combustion engines, or it is being used to operate a fuel cell, which generates energy to power an aircraft’s turbine.

     

    In recent years, there has been an increase in research into hydrogen as a viable fuel to power zero-emission aircraft. The aviation industry is attempting to create technology to address the difficulties of hydrogen production, public impression of safety, and affordability.

     

    Airbus is part of the latest hydrogen powered aircraft development in the market. It has developed the ZEROe concept in which the planes allow users to experiment with various configurations and hydrogen capabilities that would contribute to the advancement of our eventual zero-emission jets.

     

    The three ZEROe ideas are all combination planes. These are propelled by modified gas turbine engines driven by hydrogen combustion. Liquid hydrogen is utilised as a catalyst for oxygen ignition.

     

    Furthermore, hydrogen fuel cells generate electrical power that is used to supplement the gas turbine, culminating in an extremely effective hybrid-electric propeller. Every one of these systems support one another, and their advantages are cumulative.

     

    Boeing Group is also involved in development of the hydrogen aircraft technologies in the market. Phantom Eye is an elevated, protracted, liquid hydrogen-fuelled unmanned aerial system designed for continuous espionage, surveillance, and reconnaissance, as well as communications operations.

     

    The demonstration aircraft can keep its height for up to four days while hauling a 450-pound cargo. Various sensors packages for surveillance, tracking, and telecommunications are common cargoes. A full-size Phantom Eye model can fly aloft over up to 10 days and transport a 2,000-pound cargo.

     

    HYDROGEN AIRCRAFT MARKET COMPANIES PROFILED

    THIS HYDROGEN AIRCRAFT MARKET REPORT WILL ANSWER FOLLOWING QUESTIONS

    1. Hydrogen Aircraft Market size and Forecast, by region, by application
    2. Average B-2-B price for Hydrogen Aircraft Market, by region, per user
    3. Technology trends and related opportunity for new Hydrogen Aircraft Market tech suppliers
    4. Hydrogen Aircraft Market share of leading vendors, by region,
    5. Corona virus impact on Hydrogen Aircraft Market earnings
    Sl no Topic
    1 Market Segmentation
    2 Scope of the report
    3 Abbreviations
    4 Research Methodology
    5 Executive Summary
    6 Introduction
    7 Insights from Industry stakeholders
    8 Cost breakdown of Product by sub-components and average profit margin
    9 Disruptive innovation in the Industry
    10 Technology trends in the Industry
    11 Consumer trends in the industry
    12 Recent Production Milestones
    13 Component Manufacturing in US, EU and China
    14 COVID-19 impact on overall market
    15 COVID-19 impact on Production of components
    16 COVID-19 impact on Point of sale
    17 Market Segmentation, Dynamics and Forecast by Geography, 2021-2026
    18 Market Segmentation, Dynamics and Forecast by Product Type, 2021-2026
    19 Market Segmentation, Dynamics and Forecast by Application, 2021-2026
    20 Market Segmentation, Dynamics and Forecast by End use, 2021-2026
    21 Product installation rate by OEM, 2021
    22 Incline/Decline in Average B-2-B selling price in past 5 years
    23 Competition from substitute products
    24 Gross margin and average profitability of suppliers
    25 New product development in past 12 months
    26 M&A in past 12 months
    27 Growth strategy of leading players
    28 Market share of vendors, 2021
    29 Company Profiles
    30 Unmet needs and opportunity for new suppliers
    31 Conclusion
    32 Appendix
     
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