HyperSolar claims it is developing a zero carbon method of producing hydrogen gas from wastewater by harnessing solar energy. Hydrogen gas is a clean source of fuel in that, theoretically at least, the only waste product is water. But hydrogen gas does not occur naturally on Earth, and requires energy to create. Typically that energy comes from traditional, carbon dioxide-emitting sources, rendering hydrogen fuel rather less environmentally friendly than it has the potential to be. HyperSolar's work may mean truly clean, renewable hydrogen fuel could be a commercial reality sooner than we might have imagined.
"If hydrogen is meant to be the ultimate fuel that will enable a clean energy future with zero carbon emissions, then its production must also be zero carbon," said HyperSolar CEO, Tim Young in a press release on Monday. "Powering cars with fossil fuel based hydrogen is not sustainable, not renewable and not much cleaner than today's fuels."
Young has a point. Because hydrogen fuel has to be made, it is better to think of it as an energy store rather than an energy source - after all, energy had to go into making it. A car running on HyperSolar hydrogen gas would effectively be solar powered - the Sun being the ultimate energy source powering the car, with hydrogen gas merely the energy carrier. Alternatively, the hydrogen can alternatively be reacted with carbon dioxide to produce a sort of unnatural version of natural gas, which is not a completely clean fuel.
HyperSolar's approach adopts a breakthrough "solar-powered nanoparticle system" inspired by the natural process of photosynthesis. The photoelectrochemical nanoparticles float in wastewater in transparent vessels, creating hydrogen gas using solely the energy of sunlight. The company says the process is optimized for wastewater, which is simultaneously purified by the process. HyperSolar's solar concentrators that we discussed last February are not involved.
The process appears to be similar to that developed by Emory University which we reported in March 2010, and though it is not clear precisely what stage HyperSolar's technology has reached, this announcement indicates they at least have a working prototype system cable of producing hydrogen gas. The company stresses the commercially viability of the technology, since it effectively monetizes the process of wastewater treatment, as well as producing the marketable byproducts, hydrogen bromide and hydrogen chlorides. Additionally, HyperSolar claims the technology is eminently scalable - all you need is more water vessels with more nanoparticles, the company claims, though presumably there is also the consideration of the infrastructure required to remove the gas from the vessels.
In a similar vein, nanocrystals have been used at the research level to create hydrogen from water by harnessing the power of ambient noise.
True that fossil fuel based hydrogen generates emissions in the \"production\" of hydrogen, but that\'s where the pollution ends since the end use of hydrogen, in cars for example, is 100% clean! This translates to a 50% reduction in emissions overall, and 50% is a VERY BIG step forward in carbon emission reduction.
The only other question to answer with something like the Dearman angine ready in the next 2 years is that a Dearman engine is more efficient than Hydrogen as a energy converter (power torque needs etc taken into account as Dearman will lag and electric engines 100% from start).
Either of these solutions can be implemented with todays infrastructure with hot swapable bottles able to be placed at any service station where they are currently located.
Governments need to drive the end solution by setting place common sense (how we going to get that froma government??) plans for the immediate future of transport, particularly around traffic congestion and the only viable solution to that right now is what I term a Personal Transport vehicle, something like the Nissan Glide and similar cambersteer vehicle (4wheels please not 3!!), Motorcycles like the Quattro which will ease more people into motorcycle commuting.
Then you can address things like the CO2 emmission moving buses cabs and taxi trucks to Zero emissions in a 3 year project etc. All very acheivable if somebody buts their line in the sand and says tommorrow never comes and today we have to make our best decision.
@Gavin Greaves: I think I know what you are meaning, BUT hydrogen in these applications is hardly a catalyst, as a catalyst is defined as \"A substance that causes or accelerates a chemical reaction without being affected (consumed) itself\". In these reactions (fuel cell or ICE the hydrogen is being oxidised therefore changed/affected... sorry for nit picking, better use of words helps avoid confusion.
I hope you actually meant that Hydrogen technology is a catalyst for change from a Non Renewable Lifestyle to a renewable one.
(Forget the CO2 bizo, economics and non pollution is good enough, the climate will look after itself... at current rates the Worlds GDP isn\'t enough to offset Climate change if it is driven by CO2, if it is not driven by CO2 then the worlds GDP spent on the problem will only help to make certain individuals Much richer)
However, there is clearly a very easy solution to all this fuel business - set up a massive solar farm on Moon Base 1, convert it into transportable Hydrogen pods, and ship it back to earth using a Space elevator. Im sure we could have built all that for less than a trillion $.......
Natural gas and liquid oxygen are probably the winning combo. The question is: who will fund the rolling test beds?