Biofuel Pretenders
Submitted by R-Squared Energy Blog
This article was initially titled “Pretenders, Contenders, and Niches.” However, the section on pretenders grew to the point that I have decided to split the essay up into three parts. The first part, Biofuel Pretenders, will cover many of the current media and political darlings. The second part, Biofuel Contenders, will discuss some options that have received less attention, but in the long term are more likely to have staying power. The final part, Biofuel Niches, will discuss situations in which some of the pretenders might actually work.
There was an interesting article in the Wall Street Journal this past week:
U.S. Biofuel Boom Running on Empty
A few pertinent excerpts:
The biofuels revolution that promised to reduce America’s dependence on foreign oil is fizzling out.Two-thirds of U.S. biodiesel production capacity now sits unused, reports the National Biodiesel Board.
Producers of next-generation biofuels — those using nonfood renewable materials such as grasses, cornstalks and sugarcane stalks — are finding it tough to attract investment and ramp up production to an industrial scale.
Domestically produced biofuels were supposed to be an answer to reducing America’s reliance on foreign oil. In 2007, Congress set targets for the U.S. to blend 36 billion gallons of biofuels a year into the U.S. fuel supply in 2022, from 11.1 billion gallons in 2009.Cellulosic ethanol, derived from the inedible portions of plants, and other advanced fuels were expected to surpass corn ethanol to fill close to half of all biofuel mandates in that time.
But the industry is already falling behind the targets. The mandate to blend next-generation fuels, which kicks in next year, is unlikely to be met because of a lack of enough viable production.
Most people don’t realize that the Germans were the first to produce ethanol from cellulose. That happened in 1898
In President Bush’s 2006 State of the Union address, he broadly expanded the mandate for ethanol. He voiced his strong support for cellulosic ethanol, and included billions of gallons in the Renewable Fuel Standard
How quickly our politicians seem to have forgotten the 2003 State of the Union, in which Bush set forth his vision of the hydrogen economy
“A simple chemical reaction between hydrogen and oxygen generates energy, which can be used to power a car producing only water, not exhaust fumes. With a new national commitment, our scientists and engineers will overcome obstacles to taking these cars from laboratory to showroom so that the first car driven by a child born today could be powered by hydrogen and pollution-free.”
We spent some two billion dollars toward that goal. Once again, this ignored many technical and economic realities, and so in May 2009 the headlines read:
Hydrogen Car Goes Down Like the Hindenburg: DoE Kills the Program
The dream of hydrogen fuel cell cars has just been put back in the garage. U.S. Energy Secretary Steven Chu announced yesterday that his department is cutting all funding for hydrogen car research, saying that it won’t be a feasible technology anytime soon. “We asked ourselves, ‘Is it likely in the next 10 or 15, 20 years that we will covert to a hydrogen car economy?’ The answer, we felt, was ‘no,’” Chu said.
Pretenders
Broadly speaking, in the world of next generation biofuels there are contenders, pretenders, and niches. Over the past decade, we have thrown a lot of money at pretenders and have little to show for it. There are many reasons for this, but fundamentally I believe it boils down to the fact that our political leaders can’t sort the wheat from the chaff. If a proponent extols the benefits of hydrogen, cellulose, or algae - the politicians just don’t know enough to ask the right critical questions. They listen - often to the very people who will benefit from more funding - and then they allocate money. Billions of dollars and little progress later, they or their successors may begin to realize that they have been misled and they start to dial the funding back.
Here is how I define a next generation Biofuel Pretender: A company or group that makes grandiose promises about the ability of a technology to displace large amounts of fossil fuel, despite facing significant (and often unrecognized) barriers to commercialization.
Here are some examples:
Hydrogen
The poster child for the pretenders. Proponents ignored practical realities in many different areas, including fuel cell vehicles that cost a million dollars, the fact that most hydrogen is produced from natural gas, the fact that the energy density of hydrogen is very low, and the fact that there are multiple issues with hydrogen storage and transport. Technical breakthroughs were being counted on to solve these challenges. After all, we put a man on the moon. Surely we could solve these challenges.
The real problem is that the potential for success falls rapidly as the number of needed breakthroughs pile up. Imagine for instance that the following - cost of production, cost effective storage, and cost effective transport - each have a 25% chance of achieving commercial viability in the next 20 years. The total chance for success of all three in that case falls to 1.5% - so this is overall probability of success. Thus, the vast majority of technologies that require multiple technical breakthroughs will fail to materialize commercially except perhaps over a much longer period of time.
Cellulosic Ethanol
As was the case with hydrogen, this one requires multiple technical breakthroughs before commercial (unsubsidized) viability can be achieved. I won’t go through them all now, as I have covered them before
For example, assume you start off with 10 BTUs of biomass. You expend energy to get it to the factory, to process it, and then to get the water out. You burn part of the biomass to fuel the process, and input some fossil fuel. You might net something like 3 BTUs of liquid fuel from the 10 BTUs of biomass you started with.
Don’t confuse this with fossil fuel energy balance, though. If the external energy inputs in this example only amounted to 1 BTU of fossil fuel, one could claim a fossil fuel energy balance of 3/1. But that doesn’t change the fact the final liquid fuel input is a small fraction of the starting BTUs in the biomass.
This is analogous to the situation with oil shale, which is why I have compared the two. There may in fact be a trillion or more barrels of oil shale locked up in Colorado, Utah, and Wyoming. But if the extraction of those barrels required a trillion barrels worth of energy inputs and lots of water - then that oil shale might as well be on the moon. That means that a trillion barrels isn’t really a trillion barrels in the case of oil shale, and a billion tons of biomass
So despite the claims from the EPA that the “Renewable Fuel Standard program will increase the volume of renewable fuel required to be blended into gasoline from 9 billion gallons in 2008 to 36 billion gallons by 2022” - that is not going to happen unless the government is willing to throw massive amounts of money at an inefficient process.
Algal Biofuel
Like many, I was initially enchanted by the possibility of weaning the world away from fossil fuels by using fuel made from algae. Proponents wrote articles
Sadly, the story is much more complex than that. The U.S. DOE funded a study for many years into the potential of algae to produce fuel. (For an overview of where things stand from John Benemann, one of the men who co-authored the close-out report of that study, see Algal Biodiesel: Fact or Fiction?) The problem is again one of needing to surmount multiple technical hurdles, and the close-out report states that reality. Again, I won’t go into those details, as that has been covered before
While it is a fact that you can produce fuel from algae, the challenges are such that John has written that you can’t even buy algal biofuel for $100/gallon
First Generation Biodiesel
This story is primarily about 2nd generation fuels, and as such I won’t get into corn ethanol issues. But I will say a bit about biodiesel. As indicated in the Wall Street Journal story, conventional biodiesel producers are in trouble. Briefly, a conventional biodiesel producer is someone who takes vegetable oils or animal fats and uses methanol (almost all of which is fossil-fuel derived) and converts that into an oxygenated compound (called a mono-alkyl ester). This compound has been defined as ‘biodiesel’, and can be used - subject to certain limitations - in a diesel engine.
Again, the problems are fundamental. It takes a lot of effort (energy, cost) to produce most of the oils that are used as raw materials, and then you have to react with methanol - which usually contains a lot of embodied fossil fuel energy. Up til now, the first generation biodiesel producers have benefited from a high level of protectionism (to the extent of punishing the more efficient 2nd generation producers
Miscellaneous
There are a number of miscellaneous pretenders that we probably don’t need to discuss in depth, such as various free energy schemes or water as a fuel
Summary
To summarize, the biofuel pretenders fall into several broad categories. The big ones are:
• Hydrogen
• Most would-be cellulosic ethanol producers
• Most would-be algal biofuel producers
• Most first generation biodiesel producers
This isn’t to say that none of these will work in any circumstances. I will get into that when I talk about niches. But I will say that I am confident that none of these are scalable solutions to our fossil fuel dependence. The problem is that political leaders have been, or are still convinced that there is great potential for some of these and we waste billions of dollars chasing fantasies. This is a great distraction, causing a loss of precious time and public goodwill as taxpayer money is squandered chasing schemes that ultimately will not pan out.
In the next installment, I will talk about contenders - options that I think can compete with fossil fuels on a level playing field.
