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.OUR
PROJECT
Our project will
be a kit car basically.. Well it will be a couple of cars made into one adaptable
rolling chassis like a skateboard, 4 wheels and a thick 10” frame with a rotary engine that will be
running on a hydrogen fuel generated system. So it will be self generated gas fuel
system with and independent rear suspension, and 4 wheel disc brakes.
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| .ENGINE
CHOICE |
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Firstly the engine we have decided to use is the wankel
rotary engine but any combustion engine can run on hydrogen, but this engine has a large power to weight ratio, and the
engine it self only has 2 cylinders, each have 3 sides all processing
simultaneously.
The engine is very small infact 1.2 or 1.3 litres and yet has the
power of a V6 or even a V8 motor.
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The chassis will be modeled from a 1968
Daihatsu Compagno as this car was designed to have the body removable from its
chassis. So this means it was body interchangeable, I only had learnt this when
my father started buying 1960's convertibles, a Honda s600 and a Daihatsu
Compagno convertible.
It seemed like a great way for us to utilize
the chassis base as the complete driving and rolling foundation of the car,
much like a kit car or the GM
Skateboard. It will be just that a chassis with the engine, suspension,
driveline and differential all contained, so with all the extra space we can
mount the batteries, Hydrogen fuel system, electrics, and hydraulics.
Modification to the chassis is necessary
not just to mount resources but to strengthen the frame to meet today’s safety
standards.
We have decided to use the suspension from
a Mazda
Mx5 as it is setup for Independant Rear
Suspension and the assembly is removable from the chassis, this will make
the modifications to the chassis much easier and time effective. Strut tower
mounts will have to be added to the chassis rails of the Compagno. Some modifications
will be completed to the front end to adopt the front suspension and rack and
pinion steering.
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Chassis
images
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| .HYDROGEN
FUEL SYSTEM |
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Our hydrogen fuel cells are still in a
testing, as we are currently testing different plate styles, electrolytes and
HHO Brown gas generators.
Electrolytes are required to assist in the current passing from one molecule
to another and in the process splitting these molecules between the anode and
cathode, so this means if the electrolytes are very conductive it will create
more Hydrogen with the se of less energy. We want to get more energy out then
we put in so it is efficient.
There are many electrolytes we can use but we have been deciding between
Potassium Hydroxide (KOH) and regular old salt water from the ocean. I want to use
the salt water because it will be a readily available source of fuel for the
future and extremely safe to use. Potassium Hydroxide is very dangerous and it
will give you a chemical burn if you come into contact with it, so you can see
why I don’t want to use this material.
We will be using the Joe Cell Technology something that was created in world war II to increase the range and speed of the tanks.
> The Joe Cell
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Hydrogen
Diagrams and fuel cell Images
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Idea 
