Last month japan showcased its own flying car SkyDrive build by the company Toyota. Japan’s Flying Car(SkyDrive) is powered by 8 independent electric motors and has been in development since 2014. It looks like a passenger drone but the flying car SkyDrive is currently in its test-phase and the next steps will be at wheels.
What is a Flying car:
A flying car is a combination of a car and an airplane, both of them have their own advantages and disadvantages let us see one by one. The airplane is fast but expensive instead of that traveling through cars is cheap but time-consuming.
Traveling through planes is not for day to day purposes but there’s a big problem while using cars as it’s time-consuming because of traffic, accidents, and many more issues occurring day to day life.
So for all these, there’s a simple solution and that is the flying car, currently, japan’s company Skydrive by Toyota is leading in flying car research and development.
A flying car is a combination of a car and an Airplane which basically used for transportation and for security purposes, it has both the features of 3-4 wheeler vehicles and drone.
How Japan’s Flying Car (SkyDrive) works:
SkyDrive is a Japanese automobile and flying car manufacturing company, Japan’s Flying Car (SkyDrive) has one seat with eight electric motors and two specially designed propellers on each corner of the flying cat. It has a ground clearance of 3 meters and was operated by a pilot, as the company claims.
The chief executive of skydrive2020 Tomohiro Fukuzawa stated that skydrive is the most compact air vehicle ever build, before that many air vehicles had big propeller and huge designs.
In-depth information about Japan’s Flying Car (SkyDrive):
Recently japan showcased a flying car built by the company SkyDrive who was sponsored by Toyota the vehicle is powered by eight independent electric motors and has been in development since 2014.
Though it was only publicly demonstrated for the first time last month I know what some of you are thinking that’s not a flying car that’s just a passenger drone.
Well, this is just the test phase the next step will be to add wheels a spokesperson for SkyDrive explains quote before developing a prototype with wheels we would like to ensure that the incredibly difficult flight function has been achieved as a first step we aim at driving function from late 2020.
In other words, concentrate on the hard part first getting the thing to fly then stick the wheels on it later a trivial task in comparison they continue quote we believe that we can add more value in places like Japan and Asia where the land is small and it is difficult to land and take off from the aim to go for commercial manned flights in 2023 the final product will cost around thousand us dollars they hope to decrease the cost by 2030.
Skydrive’s unique selling point is that this product is one of the most compact and light flying car designs out there there are several companies developing similar technology including airbus, as well as toyota&porsche, is teaming up with Boeing, and in January Hyundai and Uber announced that they were collaborating on an all-electric air taxi.
Morgan Stanley analysts state that they expect urban air taxis to be common by 2040 with a global market expected to be about 1.5 trillion dollars, so why are electric aircraft becoming a thing in short fewer emissions cheaper running costs, and simpler maintenance.
let’s take a closer look at these points electric aviation has the promise of greatly reducing the financial and environmental costs of existing air transport.
According to the Australian airport association the biggest airline costs are fuel and maintenance fuel makes up about 27 and maintenance 11 the running costs are powering electric aircraft is low and they are intrinsically less complex than their fuel counterparts too fewer moving parts and a simpler design means less need for maintenance.
Electric aircraft could also improve the efficiency of local airports and allow airports in more diverse locations today a lot of airports often have to comply with pollution regulations this causes a curfew for when aircraft can take off and land the result is possible congestion throughout the rest of the operational period.
With electric aircraft, airports are free from these restrictions improving efficiency reducing costs, and with the added benefit of being allowed to be placed nearer to city centers, this even opens up opportunities for new kinds of work arrangement.
Though this has become less relevant recently with more people working from home these days in the broader picture it’s not all roses for the emerging industry.
let’s take a look at some problems firstly batteries the key issue affecting the uptake of electric aircraft is the need to ensure enough battery energy density to support commercial flights the ball is rolling graphene solid-state and aluminum air are recent developments that are looking likely in the next few years by 2022.
The future is right now it is good that this problem is being looked at and once standardized charging is developed by many companies like tesla, and adopted it will bring us one step closer to an airborne electric air taxis.
But why did it fail in the past the reasons are power plant was too heavy power plant was too noisy electric motors were not uh prolific and low weight.
At this time in development, carbon fiber structures didn’t exist these vehicles were trying to be all things they were trying to be a good car and a good aircraft and unfortunately they compromised on both of those design challenges.
I’m curious to know your thoughts on the electric aircraft industry do you think that we’re a mere five years away from seeing flying cars become a reality or do you think that this is all going to take much longer let me know your thoughts in the comments section below.
Regards – Techohealth.com