June/July

The Disinformation Society
Robert F. Kennedy, Jr.

Talk RV: No Evidence Required
Robert Jensen

Muting the Conversation of Democracy
Bill Moyers

The Path of Self-Limitation, Cooperation, and Sharing
Richard Heinberg

Biodiesel: Growing a New Energy Economy
Greg Pahl

The Parallel Revolution in Venezuela
America Vera-Zavala

Grassroots Effort Creates Citizens Dialogue
Robyn Leor

The Myth and Necessity of Genetically Modified Free Zones
Jeffrey M. Smith

From Hurt to Heart
Eryn Kalish

Mudra as Meditation
Andrea Luchese, M.A.

The Klamath-Siskiyou Region: A Living Laboratory
Sue Parrish

How You Can Help Protect Endangered Herbs
Laurel Vukovic

Cosmic Calendar
Salina Rain

BACK TO TOP

Biodiesel: Growing a New Energy Economy

By Greg Pahl

We are running out of oil. This is an undeniable fact. The only remaining question is not if but when. However, pumping the global oil barrel dry is not the immediate problem. The more imminent danger is what happens when demand outstrips supply: dramatic price increases for oil, followed by exponential price increases. Recent record-high gasoline prices of well over $2.00 per gallon in the United States are only a hint of what is coming in the near future. The main problem is that, even now, annual demand for oil is four times greater than the volume of new oil reserves discovered (which peaked back in the late 1960s and early 1970s). Moreover, many of the highly publicized “huge” new recent oil finds will add only a few days’ supply to the global oil market, which currently consumes 81 million barrels a day. By 2025, that demand is expected to climb to around 121 million barrels a day, according to the US Energy Information Administration. What’s more, as demand continues to increase, production from most of the largest existing oil fields is declining at about 4 to 5 percent annually, and world production of oil is expected to peak around 2010. Sooner or later, the line on the chart
for demand that’s heading up will cross the line on the chart for supply that’s coming down. When that occurs, we will have reached the critical “tipping point.” The utter chaos this would cause in the global economy is almost too frightening to contemplate. But we’d better take a good, close look, because the date for this scenario will arrive long before we actually run out of oil.

And this date is coming much sooner than most people realize. The experts, as always, are divided on when it will take place. One of the most optimistic views, promoted by the US Department of Energy, maintains that oil production won’t peak until 2037. Many observers, though, feel this estimate is far too optimistic, especially considering the huge increase in demand from countries like China, which overtook Japan as the world’s second-largest oil consumer in 2003. Renowned petroleum geologist Colin Campbell estimates that global extraction of oil will peak before 2010. Geophysicist Kenneth Deffeyes says the date for maximum production was 2004. While these predictions may sound alarmist, the recent massive accounting scandal involving oil giant Royal Dutch/Shell and the subsequent 22 percent (4.35 billion barrels) cut in the company’s petroleum reserve estimates is viewed by some industry experts as just the tip of the iceberg of over-inflated reserve figures. If these calculations are as misleading as some people suspect, then we are in for a very rough ride in the very near future.

Regardless of whoever turns out to be right about the timing of oil’s tipping point, most middle-aged people probably will live to see the consequences. They may wish they hadn’t. And as for the younger generations, well, they just may be out of luck. Nearly two-thirds of the world’s proven oil reserves are located in the eleven countries that make up the Organization of the Petroleum Exporting Countries (OPEC): Algeria, Indonesia, Iran, Iraq, Kuwait, Libya, Nigeria, Qatar, Saudi Arabia, the United Arab Emirates, and Venezuela. The fact that most of these nations are located in the increasingly unstable Middle East is not especially reassuring. And the fact that the former colonial powers of Europe, and more recently the United States, have been involved in numerous wars in the region, in an ongoing attempt to protect the uninterrupted flow of oil, is even more troubling and does not augur well for the future. It’s conceivable that industrialized society as we know it could collapse—even before we are decimated by the consequences of global warming caused by the use of fossil fuels.

The scenario which environmental activists and scientists have been warning about for many years is beginning to look increasingly likely. The five warmest years in recorded weather history have taken place in the past six years, according to the World Resources Institute. And it’s not just environmentalists who are worried. In February 2004, a secret Pentagon study that the Bush Administration had tried to suppress was leaked to the press. The study warned about the possible consequences of sudden climate changes caused by global warming and offered a terrifying picture of a global catastrophe costing millions of lives due to wars and natural disasters. The threat to global stability posed by global warming far surpasses that of terrorism, according to the study.

Will it be a global economic meltdown caused by oil prices or one caused by global warming? Either way, we’re toast. Is there any hope of avoiding this terrible scenario? Perhaps, but time is rapidly running out.

It’s going to take a huge cooperative effort on the part of the entire global community to wean ourselves from our present addiction to fossil fuels in general, and petroleum in particular. Many alternative strategies that rely on various forms of renewable energy, including wind, solar, and geothermal, are gaining in popularity. But running most vehicles directly on these forms of renewable energy, given present technology, is not practical. “Even though technology allows for greater fuel efficiency than ever before, cars and other forms of transportation account for nearly 30 percent of world energy use and 95 percent of global oil consumption,” according to the Worldwatch Institute’s recent annual report, State of the World 2004.

Ninety-five percent of global oil is consumed for transportation! This statistic points right to the heart of the problem. Some people suggest that compressed natural gas (CNG) could serve as a substitute for oil. But using CNG would, at the very least, require expensive retrofitting of vehicles. Unfortunately, natural gas, though cleaner burning, is still a fossil fuel, and natural gas prices have been soaring while world reserves are shrinking almost as fast as those for oil. Hydrogen-powered fuel cells are widely viewed as the ultimate solution for the transportation sector. But hydrogen is produced by the electrolysis of water, and the electricity required to produce enough hydrogen to fuel all the cars in the United States would require four times the present capacity of the national grid (unfortunately, the present grid relies on nonrenewable energy sources for 91 percent of its capacity). What’s more, there is no infrastructure for the production and delivery of the vast amounts of hydrogen that would be required. The transition to hydrogen is, at best, a long, long way off. In the meantime, there is one liquid fuel that is both renewable and can be used in a wide range of vehicles without any modifications to the engines. That fuel is biodiesel.

For many years, farmers, environmentalists, and renewable energy advocates in Europe and the United States have been promoting the use of biodiesel as an alternative to at least a portion of the petroleum-based diesel fuel market. But it wasn’t until the attacks on the World Trade Center on September 11, 2001, that most Americans finally began to realize the implications of their over-reliance on oil—especially Middle Eastern oil—and its heavy economic, political, social, and military costs. The US-led military campaign in Afghanistan and the subsequent ill-advised invasion of Iraq, with its terrible and costly aftermath, have added urgency to the movement seeking to wean the United States from its almost total addiction to petroleum-based fuels.

While many strategies are currently being pursued to accomplish that end, biodiesel is one of the most intriguing and, until fairly recently, one of the least publicized in the United States. In most of Europe, the general public is aware of biodiesel due to strong governmental support, but the sudden emergence of biodiesel from relative obscurity in the United States has taken many Americans by surprise. While other renewable energy strategies such as solar, wind, ethanol, and fuel cells have received most of the media attention, a group of Midwestern soybean farmers and other entrepreneurs have been quietly building biodiesel production capacity and infrastructure. At the same time, a number of federal and state agencies and independent organizations have been testing and evaluating biodiesel performance and setting up fuel production standards, laying the foundation for a new sustainable energy industry. Based on that firm foundation, the biodiesel industry is beginning to experience dramatic growth, both in production capacity and in the number of retail fuel outlets across the country. Despite that growth, however, many people still have only a vague idea of what biodiesel is, and fewer still understand that it can be used for more than fueling diesel-powered cars or pickup trucks.

What, exactly, is biodiesel, and why is it generating so much excitement? First, it’s important to understand that even though diesel is part of its name, pure biodiesel does not contain any petroleum diesel or fossil fuel of any sort. Biodiesel generally falls under the category of biomass, which refers to renewable organic matter such as energy crops, crop residues, wood, municipal and animal wastes, et cetera, that are used to produce energy. More specifically, biofuels, a subcategory of biomass, includes three energy-crop-derived liquid fuels: ethanol (usually referred to as grain alcohol), methanol (usually referred to as wood alcohol), and biodiesel. Technically a fatty acid alkyl ester, biodiesel can be easily made through a simple chemical process from virtually any vegetable oil, including (but not limited to) soy, corn, rapeseed (canola), cottonseed, peanut, sunflower, avocado, and mustard seed. But biodiesel can also be made from recycled cooking oil or animal fats. There have even been some promising experiments with the use of algae as a biodiesel feedstock. And the process is so simple that biodiesel can be made by virtually anyone, although the chemicals required (usually lye and methanol) are hazardous and need to be handled with extreme caution.

Best of all, biodiesel feedstock sources are renewable and can be produced locally. While fossil fuels were formed over millions of years (and are being rapidly depleted), biodiesel can be created in just a few months. The source of the energy content in biodiesel is solar energy captured by feedstock plants during the process of photosynthesis, inspiring some to refer to the fuel as “liquid solar energy.” And the plants grown to make more biodiesel naturally balance most of the carbon dioxide emissions created when the fuel is combusted, eliminating a major con-tributing factor to global warming. What’s more, the resulting fuel is far less polluting than its petroleum-based alternative; biodiesel produces lower quantities of cancer-causing particulate emissions, is more biodegradable than sugar, and is less toxic than table salt. And because it can be produced from domestic feedstocks, biodiesel reduces the need for foreign imports of oil, while simultaneously boosting the local economy. No wonder there is so much enthusiasm, especially in the agricultural community, about biodiesel: farmers can literally grow their own fuel.

While biodiesel may be a relative newcomer to the United States, in Europe it has enjoyed widespread acceptance as a vehicle fuel (as well as a heating fuel in some countries) due to deliberate government tax policies that favor its use. In Germany, for example, where diesel engines power close to 40 percent of passenger cars, more than 1,800 filling stations offer biodiesel at a price competitive with that of regular diesel due to large tax breaks and subsidies for alternative fuels. (In the US, by comparison, where only about 1 percent of automobiles are diesel powered and tax policies are generally not as favorable, the number of gas stations offering biodiesel is just over 300.) The expansion of the European Union in May 2004 offered a good deal of additional potential for continued growth in biodiesel production and use in the so-called new accession nations. There is good potential for the industry in many other countries around the world as well.

Biodiesel has the potential to help pave the way for an eventual transition from fossil fuels to a wide range of renewable energy sources. While it is not the single solution to all our energy problems, biodiesel can be part of the transition from our current near-total dependency on fossil fuels, while at the same time creating jobs, assisting farmers, reducing harmful emissions, and promoting greater energy security. Biodiesel, along with a wide range of other renewable energy strategies, coupled with dramatically increased energy efficiencies, should be able to meet our energy needs well into the future. However, in order to achieve that goal, we need to rapidly increase the pace of the transition to a new energy economy today, while there’s still time.

Excerpted with permission from Biodiesel: Growing a New Energy Economy by Greg Pahl, Chelsea Green Publishing, PO Box 428, White River Junction, VT 05001; (802) 295 6300; chelseagreen.com. Visit biodiesel.org to find a biodiesel fuel supplier in your region.