## Secret of Agha Waqar’s Water fuel Kit: Agha Waqar exposed

Secret of Agha Waqar’s Water fuel Kitr: Agha Waqar exposed

Secret of Agha Waqar the Water-Kit inventor answers some questions of  Dr. Samar Mubarakmand

Agha Waqar  Water-Kit Secret  exposed by Dr. Samar Mubarakmand, Agha Waqar can not give the answers some questions of  Dr. Samar Mubarakmand
He use calcium carbide CaC2 to produce acetylene (ethyne C2H2) gas (Calcium Carbide = CaC2. with react with water to produce it)

(Acetylene (systematic name: ethyne) is the chemical compound with the formula C2H2. It is a hydrocarbon and the simplest alkyne. This colorless gas is widely used as a fuel and a chemical building block. It is unstable in pure form and thus is usually handled as a solution. Pure acetylene is odorless, but commercial grades usually have a marked odor due to impurities.)

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The Car Running by water Power: A Feasibility Report for Electrical Energy

After some recent calculations for the heat of enthalpies for combustion of conventional gasoline fuel and hydrogen gas. It was concluded that the heat of combustion from hydrogen is three times as big as heat of combustion from gasoline. In the next step, an approach towards the electrical power production and its consumption in water based fuel cars would be presented.

Energy Produced from battery

In the step wise procedure we must know about the basic facts that a 12 V car battery can produce maximum of 40 A of current that corresponds to 12 X 40 = 480 watts of power according to basic formula
P = VI
P = 12 x 40 = 480 watts (or J/sec)
Now if this battery continuously provides direct current for 1 hour it will produce 0.48 kWh
of energy
The calculations are as follows
p = E / t
That corresponds to
E = P x t
if power is produced for one hour
E = 480 X 1 = 480 Wh or 0.48 KWh
This is the amount of energy which can be used in producing hydrogen gas from electrolysis
of water.

Energy Consumed by the battery for electrolysis

Now the amount of energy consumed in electrolytic cell calculated: Ideally, 39 kWh of electrical energy is required to convert 8.9 kg of water to produce 1kg of hydrogen and 7.9 kg of oxygen completely. While typical commercial electrolyzer system has efficiencies ranges from 56% to 73% and this corresponds to 70.1–53.4 kWh/kg:

How much distance a car can travel with 1kg of hydrogen?
Normally, 47. 3 MJ is the energy consumed by a 1000cc car when it uses 1 kg ( ~1.40 liter) of petrol and on average car cannot give more than 20 km in one liter of fuel. Keeping the same figures in mind the energy produced by 1kg of hydrogen can give (141.9 / 47.3) x 28 = 84 km with 1kg (500mol) of hydrogen

To run a car for 84km, 1kg of hydrogen must be produced from fuel cells while providing 39 kWh or more amount of electricity.

Law of conservation of energy

Maximum energy produced by one battery = 0.48 KWh Energy consumed by fuel cell to produce 1kg of hydrogen = 39 kWh
Number of batteries required to produce 39kWh of energy = 39 / 0.48 = 81 That corresponds 81 batteries in parallel are required with 9 liters of water to produce 1 kg of hydrogen torun the car for 85 km after full consumption.

OR
With 0.48 KW of battery power continuously provided to the electrolytic cell (and to no other power consuming source) for one hour will give the amount of hydrogen practically as 6.85 gm in total, which can run a car for 582 meters only.