Editor’s note: The following is part one of an ongoing series Greenbang will be publishing to review how each element in the periodic table fits in with the vision of a cleaner, greener economy.
Hydrogen, the first entry in the periodic table of elements, is not only the lightest element in the universe but the most abundant as well. It’s also touted by some as the key to a clean and renewable energy future … though not everyone agrees with that assessment.
First produced artificially in the 16th century, and identified as a unique element in 1766, hydrogen helped power the first working fuel cell — which generates electricity from the reaction between hydrogen and oxygen — in 1842. Around the same time, hydrogen gas began being used to lift airships for travel. The public’s enthusiasm for hydrogen-buoyed transport, however, waned after the 1937 Hindenburg disaster.
In the decades following, hydrogen became the star player in many new technologies, including:
- The first hydrogen-cooled turbogenerator, launched into service in 1937;
- The first tests of liquid hydrogen as a rocket fuel (1943);
- The first fuel-cell-driven tractor (1958);
- The first rocket engine flight fueled by liquid hydrogen (1961);
- The first commercially used fuel cell (Gemini spacecraft, 1965); and
- The first rechargeable nickel-hydrogen battery and the first use of the term “hydrogen economy” (1970).
Advocates of the hydrogen economy point to the gas’ ability to release energy when it’s combined with oxygen. The reaction produces no pollutants — least of all, the climate problematic carbon dioxide.
The problem, though, lies with first obtaining hydrogen gas for that reaction: because it’s not readily available in nature — there are no hydrogen mines or wells to tap — hydrogen has to be produced before it can be used. And the sticking point there is that producing hydrogen takes energy, which today typically means energy from fossil fuels. Hydrogen’s champions, though, say those hurdles can be overcome with new technologies like, for example, producing hydrogen by using algae under special conditions.
As Wikipedia’s entry on the “Hydrogen economy” points out, hydrogen is an energy carrier rather than a primary energy source.
Hydrogen today is used largely to produce ammonia for agricultural fertilisers and for “hydrocracking” heavy grades of petroleum into lighter, more fuel-friendly grades. As a future fuel for transport, however, its value currently remains less certain. In fact, US Energy Secretary Steven Chu last year released a proposed budget for 2010 that dramatically cut the department’s spending on transportation-related hydrogen research.
At a briefing on the budget proposal, Chu said, “We asked ourselves, ‘Is it likely in the next 10 or 15, 20 years that we will convert to a hydrogen car economy?’ The answer, we felt, was, ‘no.’ “
In the longer term, who knows? New developments in hydrogen production and storage strategies could one day change the picture, and researchers continue to make headway, as these recent discoveries show:
- In November, scientists at the Carnegie Institution said they’d found for the first time that high pressure can be used to make a unique hydrogen-storage material.
- Last autumn, a team of researchers from the University of Tennessee, Knoxville, and Oak Ridge National Laboratory, found the inner machinery of photosynthesis can be isolated from certain algae and, when coupled with a platinum catalyst, can produce a steady supply of hydrogen when exposed to light.
- The Napa Wine Company in California has begun using a refrigerator-sized hydrogen generator that takes winery wastewater and, using bacteria and a small amount of electrical energy, converts the organic material into hydrogen.
- A hydrogen-rich compound discovered last year by researchers at Stanford University shows promise for overcoming one of the biggest hurdles to using hydrogen for fuel: that is, packing enough hydrogen into a space that’s small enough to be portable and practical for powering a car.
Peter Martin - Junkk.com, Home of the RE:tie
Nifty. I suspect a few might struggle to ‘fit in’ in a ‘good’ way.
Great idea with the PeriodEco Table (good luck getting much out of some of them though: you started with an easy one!)
Much has been made of the rise of electric cars and how they have destroyed the prospect of a hydrogen economy. However, all the technologies required for electric vehicles are also needed by hydrogen fuel cell cars, so the current rush towards electric transportation is yet another stepping stone, just as hybrid vehicles were too.
Comments are closed.