Hydrogen on Demand Technology

Hydrogen on demand or HOD technology has wide range applications within the automotive, medical and welding industries. In the automotive industry there are two types of hydrogen when needed technologies commonly described including systems that will power 100-percent of the car to those that partially power the automobile. Hydrogen knowledge is also used in fueling stations for fuel cell cars. Hydrogen can be created on demand by electrolysis of water or by steam reforming natural gas as needed to be able to provide fuel for the vehicles.

At the present, the hydrogen on demand systems that are being developed for the automotive industry either use electrolysis or perhaps a chemical reaction in order to generate hydrogen fuel as required for a car designed with either an interior combustion engine (ICE) or a fuel cell. The hydrogen-on-demand systems that use electrolysis generally use some other metal catalyst including aluminum or magnesium to aid assisted in the process. The hydrogen-on-demand systems that use a chemical reaction usually start with sodium borohydride (or another boron / hydrogen derivative), that is a hydrogen-rich chemical compound and force a reaction that releases the hydrogen as required. In the case of sodium borohydride (NaBH4), the effect of the chemical reaction would be to degrade into inert salt, which can then be recycled back into sodium borohydride again.

By the use of sodium borohydride (NaBH4), a hydrogen-rich chemical compound in combination with water (another hydrogen-rich compound) the H2 could be released after which tell you a fuel cell to produce electricity or run through an internal combustion engine to create torque.

Generally in most aftermarket hydrogen on demand systems, the HHO gas is done by running electrical charge through water and the other chemical — the kind of chemical varies, depending on the system. The electrical charge is generated by the vehicle’s battery. The process creates HHO gas, which may be then fed into the engine with the intake manifold where it mixes using the gasoline and it is burned in the combustion chamber. Supposedly, adding the HHO gas to the gasoline allows it of burning in a lower temperature, increasing efficiency and decreasing harmful emissions.

But, probably the most engaging hydrogen system field is the emerging technology of partially managing a car on water. Notice, Some say totally. Water is electrolyzed and a small amount of either hydrogen or oxyhydrogen (via HHO gas generators) is injected right into a car’s intake system.

A lot of companies and inventors who make these aftermarket parts describe them as a way to power your car with water. In truth, it’s not water that’s powering the automobile — it’s the chemical the water is reacting with — along with the gasoline or diesel fuel that you simply normally put into the gas tank. In fact, powering a car with water could be extremely hard. Chemical reactions release energy by altering chemical bonds. The chemical bond of water is so stable that to change it requires more energy than is gained in the chemical reaction. So while these aftermarket systems may increase a gasoline engine’s efficiency, the energy required to create the HHO gas is substantial enough to negate the advantages.

Hello I’m Craig S. Coney. I’m an online marketer and I write blogs on a regular basis. People these days are looking for solutions in order to save money on gas and so they try converting their cars to run on hydrogen gas because it helps them save a lot on gas bills. Although hydrogen on demand has not gained too much attention, the advantages you can get is so huge.