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Featured
Electric aviation requires the development of an infrastructure to support the understanding and implementation for eco-friendly, zero emission sustainable flying of electric aircraft in the British skies
... Electric aviation requires the development of an infrastructure to support the understanding and implementation for eco-friendly, zero emission sustainable flying of electric aircraft in the British ...
Brisbane City, Australia
1-10 Employees
2021
Stralis intends to obtain a Supplemental Type Certificate (STC) for this product with CASA and the FAA. At Stralis, it is our belief that if we have the means to capture carbon dioxide from the atmosphere, we should use that capacity to sequester carbon and push beyond Net Zero to carbon negative and start to undo some of the damage that we have already done to the planet.All this considered, SAF along with high-integrity carbon offsetting, serve as a good way to make immediate changes and can be a great improvement over fossil fuels but hydrogen electric propulsion will come out on top in the long run as it will have a greater impact on emission reduction, lower engine maintenance costs and offer lower fuel costs (for most scalable SAF production pathways you need more than 1 kWh of H2 to produce 1 kWh of SAF, then consider that you need to supply and pro- cess the carbon feedstock and that the HEPS is almost twice as efficient as a PT6 turbine engine).Stralis anticipates there will always be a need for SAF in difficult to abate niches such as ultra-long-haul flight or supersonic flight. It is Stralis’s mission to build and support sustainable aircraft. At Stralis we believe that climate change should be tackled from all angles, including finding a path to sustainable flight. At Stralis, we want this to continue but just without the negative impact on our environment – and we can do that. It is our goal to bring air travel to even more people then have access to it today, by working to make it more affordable, help local production of green hydrogen in remote areas and implementing technologies that make flying easier end safer. STRALIS IS LOOKING TO GROW OUR TEAM AND WILL PUBLISH A LIST OF OPEN ROLES SOON. WE ARE ALWAYS HAPPY TO HEAR FROM TALENTED PEOPLE.
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Featured
Stralis Aircraft – Emission free hydrogen electric aircraft
... -free hydrogen electric aircraft, designed + built in Australia. ...
Eastleigh, United Kingdom
1-10 Employees
2019
At RogersEV our vision is a cleaner and greener world driven by a powertrain that maximises the advantages of electrification, helping cultivate a new generation of air platforms. HaloDrive increases propulsive efficiency by up to 35% and reduces noise by 40% while offering a compact, heat tolerant system to power next-generation craft around the globe more quietly, sustainably and cost-effectively. We believe that a revolution in motor and rotor technology is needed, not an evolution.
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Featured
Electric Aircraft Motor HaloDrive - United Kingdom | RogersEV
... Our electric aircraft motor is truly versatile for the aerospace market. ...
Newport Beach, United States
11-50 Employees
2020
We are thrilled to bring you the latest updates on our journey towards transforming the aviation industry with our groundbreaking all-electric planes. We are thrilled to share some phenomenal Panhwar Jet updates. Introducing "EcoThrust 78" - an innovative propulsion technology with a unique design, boasting 78% efficiency compared to conventional systems. Custom electric motors, advanced thruster blades, and onboard power generation ensure reduced emissions, lower carbon footprints, and quieter, more reliable aircraft performance. A dynamic icon that swiftly swoops in to provide urgent high-performance medical assistance and keen precision rescue for emergencies.
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Featured
Panhwar Jet | World's first All-Electric Self-Charging Aircraft
... Panhwar is designing and building the world’s first all-electric self-charging aircraft for passengers, cargo, and medical supplies. ...
Dusseldorf, Germany
1-10 Employees
2021
Our mission is to make people fly – safely and effortlessly. With recent advancements in technologies now is the time to make that dream a reality. The Orca is a lightweight, compact single-seater UAM vehicle designed from the ground up to be the safest, most versatile, and most fun aircraft in the sky.
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Featured
We build safe, quiet, and compact electric personal aircrafts
... Developing safe, quiet, and compact personal electric aircrafts for urban air mobility. ...
Glasgow, United Kingdom
1-10 Employees
Mako’s vision for the future is compelling air transport that inspires and excites while achieving balance with the environment. Mako Aerospace is a venture backed startup based in Scotland. Mako’s vision for the future is compelling air transport that inspires and excites while achieving balance with the environment. Our first step is to develop technology that enables sustainable flight and ensures adoption by the industry. This is impossible without technology that is economically competitive with traditional propulsion. We believe that the world works better together, and we work to increase the chances of success of any entity building towards sustainable aviation. Meet the awesome team that makes everything possible! Works good and everyone can create a nice looking landing page.
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Featured
About Us - Mako Aerospace
... We are building the next generation of electric aircraft technology. Mako’s vision for the future is compelling air transport that inspires and excites while achieving balance with the environment. ...
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Featured
Haskel Hydrogen Systems partners with NanoSUN to refuel hydrogen-electric aircraft trials under HyFlyer II
... Haskel Hydrogen Systems partners with NanoSUN to refuel hydrogen-electric aircraft trials under HyFlyer ...
Stuttgart, Germany
51-100 Employees
H2FLY announces to build the Hydrogen Aviation Center at Stuttgart Airport, co-funded by the Ministry of Transport in Baden-Württemberg. H2FLY is acquired by the world’s leading eVTOL company Joby Aviation and gains a strong, long term strategic partner. Furthermore, H2FLY wins German and European government-backed research grants to realize the future of sustainable air tavel. H2FLY, Japan Airlines and JAL Engineering have signed an agreement to explore the feasibility of using H2FLY’s hydrogen electric power units as a power source for Japan Airlines flights. A new home for our mission and technology, built with a hydrogen infrastructure and direct access to the airports airfield. Our partnership with Deutsche Aircraft to achieve the goal of zero carbon in-flight emissions, by developing a hydrogen fuel cell-powered Dornier 328 aircraft demonstrator in 2025, is announced. A test campaign of 32 flights over four days proves the scalability of H2FLYs fuel cell powertrain and demonstrates the fast-refueling capability of our hydrogen propulsion system.
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Featured
H2FLY - Realizes hydrogen-powered zero-emission aviation.
... H2FLY and Air Liquide test hydrogen-electric aircraft ...
Amsterdam, Netherlands
1-10 Employees
2020
Today, we’re proud to share with the world that DANX Group, an innovative leader in time critical logistics services, has made a strategic investment in ELECTRON aerospace. We're excited to join the European Commission's AZEA Programme.
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Featured
Electron Aviation |
... ELECTRON aerospace designs, manufactures and sells electric aircraft ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Electric Aircraft
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 103 |
| Amount of suitable service providers | 64 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 2018 |
| Youngest suiting company | 2021 |
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An electric aircraft is a type of airplane powered primarily by electric motors, utilizing batteries or fuel cells to store and provide energy, rather than traditional internal combustion engines. This innovative propulsion technology marks a significant shift in aerospace engineering, emphasizing sustainability, reduced carbon emissions, and lower operating costs. The introduction of electric aircraft is poised to revolutionize the aviation industry by offering a cleaner alternative to fossil fuel-powered flights, particularly in short to medium-range travel scenarios. The development and adoption of electric aircraft technology are seen as critical steps towards achieving a more sustainable future in air travel, reducing the environmental impact of aviation, and potentially transforming the economics of airline operations. Besides environmental benefits, electric aircraft also promise quieter operations, opening possibilities for airports closer to urban centers without increasing noise pollution. In essence, the advent of electric aircraft not only aligns with global efforts to combat climate change but also heralds a new era in aviation, where efficiency, sustainability, and innovation drive the industry forward. This emerging technology is at the forefront of research and development, with numerous startups and established aerospace companies investing heavily in electric propulsion systems, aiming to be pioneers in a cleaner, more sustainable form of air travel.
1. Reduced Emissions
Electric aircraft represent a significant stride towards sustainable aviation, emitting zero carbon during flight. This advantage is pivotal in the global effort to reduce greenhouse gas emissions and combat climate change, setting electric aircraft apart from their fossil-fuel-powered counterparts.
2. Lower Operational Costs
The operational costs of electric aircraft are substantially lower than traditional airplanes. The cost of electricity for charging batteries is significantly less than the price of aviation fuel. Additionally, electric motors have fewer moving parts, leading to reduced maintenance costs and fewer mechanical failures.
3. Quieter Operations
Electric aircraft offer the benefit of quieter operations compared to conventional aircraft. The reduction in noise pollution not only improves the quality of life for communities near airports but also expands operational hours, allowing for more flexible flight schedules without disturbing residential areas.
4. Enhanced Efficiency
The efficiency of electric motors surpasses that of internal combustion engines, with electric aircraft capable of converting a larger portion of their input energy into propulsion. This increased efficiency can lead to longer ranges and better performance, contributing to the overall viability of electric aircraft for a variety of aviation applications.
While evaluating the different suppliers make sure to check the following criteria:
1. Battery Technology and Efficiency
Evaluate the supplier's battery technology for its efficiency, lifespan, and safety features. Optimal battery performance is crucial for electric aircraft operation.
2. Charging Infrastructure
Consider the supplier's ability to provide or integrate with existing charging infrastructure. Seamless charging solutions are essential for operational efficiency.
3. Aircraft Performance
Assess the aircraft's range, speed, and payload capabilities. These factors are critical for meeting specific operational needs.
4. Certifications and Compliance
Ensure the supplier meets all relevant aviation regulatory standards and certifications. Compliance is key to ensuring safety and legality.
5. After-Sales Support and Maintenance
Investigate the supplier's after-sales service, including maintenance support and availability of spare parts. Reliable support is vital for long-term operational sustainability.
6. Cost-effectiveness
Consider the overall cost of acquisition and operation. An optimal supplier offers competitive pricing without compromising on quality and performance.
Electric aircraft represent a pivotal innovation in sustainable aviation, offering various B2B applications across multiple sectors. One significant use case is in the logistics and delivery industry, where these aircraft can provide eco-friendly alternatives for transporting goods. By leveraging electric aircraft, companies can reduce their carbon footprint and operational costs associated with fuel consumption, making this an attractive option for businesses aiming to enhance their sustainability practices. Another area where electric aircraft are making strides is in the tourism sector. Companies specializing in aerial tours can utilize these quieter, cleaner planes to offer unique experiences to customers, while minimizing environmental impact. This not only appeals to eco-conscious consumers but also allows businesses to access sensitive ecological areas without the risk of pollution or noise disturbance. Electric aircraft also hold promise for the agriculture industry, particularly in precision agriculture. They can be employed for aerial surveying and spraying, offering a more efficient and environmentally friendly method than traditional aircraft. This application can help farmers and agricultural businesses reduce chemical use and improve crop monitoring, leading to increased yields and sustainable farming practices. In the realm of corporate travel, electric aircraft present an opportunity for businesses to manage their travel needs more sustainably. Companies can charter these aircraft for short to medium-haul trips, reducing travel times and emissions compared to conventional air travel or ground transportation. This use case aligns with growing corporate responsibilities towards environmental stewardship and can enhance a company's green credentials. Together, these B2B use cases underscore the versatile potential of electric aircraft across industries, heralding a new era of eco-efficient aviation solutions.
Electric aircraft technology is currently navigating through various stages of development, with most prototypes and concepts positioned around TRL 4 to 6. This range signifies that electric aircraft technology has moved beyond basic principles (TRL 1-3) to small scale validation in laboratory environments (TRL 4) and, in some cases, to larger scale validation in relevant environments (TRL 5-6). The primary technical reasons for this positioning include the challenges related to battery technology, such as energy density, weight, and recharge times, which are crucial for practical and commercial viability. Additionally, electric propulsion systems are being rigorously tested to enhance their efficiency, reliability, and safety to meet stringent aviation standards. While there are significant advancements in electrical motor efficiency and battery technology, the integration of these systems into airframes that can support longer flight durations and heavier payloads without compromising performance is still under development. The regulatory landscape also plays a critical role, as certification processes for entirely new technology standards are being established. These technical and regulatory hurdles are pivotal in determining the pace at which electric aircraft can transition to higher TRLs, where full-scale commercial deployment (TRL 9) becomes feasible.
In the Short-Term, the electric aircraft industry is poised to witness significant advancements in battery technology and electric motors. These innovations will lead to improved energy density and efficiency, enabling electric aircraft to achieve longer flight durations and higher speeds. Additionally, regulatory frameworks will begin to adapt, accommodating the testing and certification of electric aircraft, which will pave the way for commercial viability and early adoption in specific sectors such as short-haul flights and pilot training. Moving into the Mid-Term, the focus will shift towards scaling infrastructure to support electric aircraft operations, including charging stations at airports and maintenance facilities equipped for electric propulsion systems. Collaboration between technology firms and aerospace manufacturers will yield more robust, lightweight materials for aircraft construction, further enhancing range and efficiency. We can also expect the emergence of hybrid models that combine electric propulsion with traditional fuels to extend the operational capabilities of electric aircraft, catering to a broader range of flight missions. In the Long-Term, electric aircraft are anticipated to dominate the skies, with advancements in autonomous flight technology and AI integration leading to fully autonomous electric planes. These planes will offer unprecedented levels of safety, efficiency, and environmental sustainability. The widespread adoption of electric aircraft will significantly reduce the carbon footprint of the aviation industry, contributing to global efforts against climate change. Additionally, the cost of air travel is expected to decrease, making it more accessible to the general population, thanks to the reduced operational costs associated with electric propulsion.
Some interesting questions that has been asked about the results you have just received for Electric Aircraft
What are related technologies to Electric Aircraft?
Based on our calculations related technologies to Electric Aircraft are Space Technologies, Military, Commercial Aviation, Airport Security
Who are Start-Ups in the field of Electric Aircraft?
Start-Ups who are working in Electric Aircraft are NEBOair Ltd
,
Stralis Aircraft,
Panhwar Jet,
Siren Aerospace,
ELECTRON aviationWhich industries are mostly working on Electric Aircraft?
The most represented industries which are working in Electric Aircraft are Transportation, Manufacturing, Science and Engineering, Professional Services, Commerce and Shopping
How does ensun find these Electric Aircraft Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
