Agriculture-Based Biofuels: Overview and Emerging Issues

Bio Fuels Facts

Since the late 1970s, U.S. policymakers at both the federal and state levels have enacted a variety of incentives, regulations, and programs to encourage the production and use of agriculture-based biofuels. Initially, federal biofuels policies were developed to help kick-start the biofuels industry during its early development, when neither production capacity nor a market for the finished product was widely available. Federal policy has played a key role in helping to close the price gap between biofuels and cheaper petroleum fuels. Now, as the industry has evolved, other policy goals (e.g., national energy security, climate change concerns, support for rural economies) are cited by proponents as justification for continuing policy support.

The U.S. biofuels sector has responded to these government incentives by expanding output every year since 1996, with important implications for the domestic and international food and fuel sectors. The production of ethanol (the primary biofuel produced in the United States) has risen from about 175 million gallons in 1980 to 10.7 billion gallons per year in 2009. U.S. biodiesel production is much smaller than its ethanol counterpart, but has also shown strong growth, rising from 0.5 million gallons in 1999 to an estimated 776 million gallons in 2008 before being impeded by the nationwide financial crisis.

Despite this rapid growth, total agriculture-based biofuels production accounted for only about 4.3% of total U.S. transportation fuel consumption in 2009. Federal biofuels policies have had costs, including unintended market and environmental consequences and large federal outlays (estimated at to billion in 2009). Despite the direct and indirect costs of federal biofuels policy and the small role of biofuels as an energy source, the U.S. biofuels sector continues to push for greater federal involvement. But critics of federal policy intervention in the biofuels sector have also emerged.

Current issues and policy developments related to the U.S. biofuels sector that are of interest to Congress include the following:

• Many federal biofuels policies (e.g., tax credits and import tariffs) require routine congressional monitoring and occasional reconsideration in the form of reauthorization or new appropriations funding.

• The 10% ethanol-to-gasoline blend ratio—known as the “blend wall”—poses a barrier to expansion of ethanol use. The Environmental Protection Agency (EPA), in October 2010, issued a waiver to allow ethanol blending (per gallon of gasoline) for standard engines of up to 15% for use in model year 2007 and newer light-duty motor vehicles. However, the vehicle limitation to newer models, coupled with infrastructure issues, is likely to limit rapid expansion of blending rates.

• The evolution of EPA’s methodology for estimating lifecycle greenhouse gas emission reductions of different biofuels production paths (relative to their petroleum counterparts) and the treatment of indirect land use changes will determine which biofuels qualify under the Renewable Fuel Standard.

The slow development of cellulosic biofuels has raised concerns about the industry’s ability to meet large federal usage mandates, which, in turn, has raised the potential for future EPA waivers of mandated biofuel volumes and has contributed to a cycle of slow investment in and development of the sector.Since the late 1970s, U.S. policymakers at both the federal and state levels have enacted a variety of incentives, regulations, and programs to encourage the production and use of agriculture-based biofuels. Initially, federal biofuels policies were developed to help kick-start the biofuels industry during its early development, when neither production capacity nor a market for the finished product was widely available. Federal policy has played a key role in helping to close the price gap between biofuels and cheaper petroleum fuels. Now, as the industry has evolved, other policy goals (e.g., national energy security, climate change concerns, support for rural economies) are cited by proponents as justification for continuing policy support.

The U.S. biofuels sector has responded to these government incentives by expanding output every year since 1996, with important implications for the domestic and international food and fuel sectors. The production of ethanol (the primary biofuel produced in the United States) has risen from about 175 million gallons in 1980 to 10.7 billion gallons per year in 2009. U.S. biodiesel production is much smaller than its ethanol counterpart, but has also shown strong growth, rising from 0.5 million gallons in 1999 to an estimated 776 million gallons in 2008 before being impeded by the nationwide financial crisis.

Despite this rapid growth, total agriculture-based biofuels production accounted for only about 4.3% of total U.S. transportation fuel consumption in 2009. Federal biofuels policies have had costs, including unintended market and environmental consequences and large federal outlays (estimated at to billion in 2009). Despite the direct and indirect costs of federal biofuels policy and the small role of biofuels as an energy source, the U.S. biofuels sector continues to push for greater federal involvement. But critics of federal policy intervention in the biofuels sector have also emerged.

Current issues and policy developments related to the U.S. biofuels sector that are of interest to Congress include the following:

• Many federal biofuels policies (e.g., tax credits and import tariffs) require routine congressional monitoring and occasional reconsideration in the form of reauthorization or new appropriations funding.

• The 10% ethanol-to-gasoline blend ratio—known as the “blend wall”—poses a barrier to expansion of ethanol use. The Environmental Protection Agency (EPA), in October 2010, issued a waiver to allow ethanol blending (per gallon of gasoline) for standard engines of up to 15% for use in model year 2007 and newer light-duty motor vehicles. However, the vehicle limitation to newer models, coupled with infrastructure issues, is likely to limit rapid expansion of blending rates.

• The evolution of EPA’s methodology for estimating lifecycle greenhouse gas emission reductions of different biofuels production paths (relative to their petroleum counterparts) and the treatment of indirect land use changes will determine which biofuels qualify under the Renewable Fuel Standard.

The slow development of cellulosic biofuels has raised concerns about the industry’s ability to meet large federal usage mandates, which, in turn, has raised the potential for future EPA waivers of mandated biofuel volumes and has contributed to a cycle of slow investment in and development of the sector.

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How To Make Your Own Biodiesel At Home Cheaply & Easily – A Step-By-Step Guide For Beginners

Bio Fuels Facts

Are you fed up with the ever-icreasing price of diesel fuel for your car?

Did you know that you can make your own biodiesel at home easily and cheaply using vegetable oil?

You may well be aware of biodiesel but feel that it would be too much trouble and complicated to make biodiesel at home. In fact, it is very simple to do – as thousands of diesel car owners have now discovered.

This guide has been specially written for complete beginners and describes in step-by-step detail how to go about making your own biodiesel.
The items you need are easily obtainable and you don’t require any special skills.

The book covers two biodiesel production techniques – the first is the method to make quality batches of biodiesel. The second technique is a more “cheap & cheerful” one that will produce perfectly acceptable fuel quickly.

Furthermore, neither biodiesel production process is very time-consuming, so it is easy to make up a batch of biodiesel over a weekend!

The main ingredient – vegetable oil – is readily available and can be obtained either very cheaply, or for free! Fish & chip shops, and other fast food outlets have to regularly get rid of their used cooking oil and they are often happy to give it away for nothing. The alternative is that they have to pay waste oil companies to remove the oil – so you can benefit from getting free oil and they save money.

Friends and neighbours are also a good souce of free used vegetable oil from their deep fat fryers.

The author – Mark Tibbert – has been producing his own biodiesel for many years (in fact, long before the recent oil price hikes). Not only is he
therefore someone who is highly knowledgeable and well-qualified with valuable first-hand experience of biodiesel production, but he is also an excellent teacher.

Read this book and you will have all the information you need to start making your own biodiesel.Are you fed up with the ever-icreasing price of diesel fuel for your car?

Did you know that you can make your own biodiesel at home easily and cheaply using vegetable oil?

You may well be aware of biodiesel but feel that it would be too much trouble and complicated to make biodiesel at home. In fact, it is very simple to do – as thousands of diesel car owners have now discovered.

This guide has been specially written for complete beginners and describes in step-by-step detail how to go about making your own biodiesel.
The items you need are easily obtainable and you don’t require any special skills.

The book covers two biodiesel production techniques – the first is the method to make quality batches of biodiesel. The second technique is a more “cheap & cheerful” one that will produce perfectly acceptable fuel quickly.

Furthermore, neither biodiesel production process is very time-consuming, so it is easy to make up a batch of biodiesel over a weekend!

The main ingredient – vegetable oil – is readily available and can be obtained either very cheaply, or for free! Fish & chip shops, and other fast food outlets have to regularly get rid of their used cooking oil and they are often happy to give it away for nothing. The alternative is that they have to pay waste oil companies to remove the oil – so you can benefit from getting free oil and they save money.

Friends and neighbours are also a good souce of free used vegetable oil from their deep fat fryers.

The author – Mark Tibbert – has been producing his own biodiesel for many years (in fact, long before the recent oil price hikes). Not only is he
therefore someone who is highly knowledgeable and well-qualified with valuable first-hand experience of biodiesel production, but he is also an excellent teacher.

Read this book and you will have all the information you need to start making your own biodiesel.

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Run Your Diesel Vehicle on Biofuels: A Do-It-Yourself Manual

Run Your Diesel Vehicle on Biofuels: A Do-It-Yourself Manual

Bio Fuels Facts

CONVERT TO BIODIESEL FOR A MORE ENVIRONMENTALLY FRIENDLY RIDE

Run Your Diesel Vehicle on Biofuelshas everything you need to make the switch from expensive, environment-damaging carbon fuel to cheap (and, in many cases, free), clean fuel for your vehicle. Practical and decidedly apolitical, this unique guide focuses on technical details, parts, and instructions.

Inside, you’ll find step-by-step instructions accompanied by helpful illustrations for such projects as building and properly using a homemade biodiesel reactor, which enables you to drive you car on vegetable oil purchased at a fraction of the price of gas or even on second-hand oil obtained from restaurants free of charge. Run Your Diesel Vehicle on Biofuelsalso includes a list of international parts suppliers and various manufacturers’ warranty statuses regarding vehicles converted to biodiesel.

Projects include:

  • Collecting waste oil
  • Building a waste-oil processor
  • Creating biodiesel fuel
  • Converting your car to professional standards
  • Constructing heat exchangers

Run Your Diesel Vehicle on Biofuels covers:
• History and functions of the diesel engine • Benefits of biofuel • Where to obtain raw ingredients • Theory of fuel conversion • Existing conversion kits o Blends, emulsions, and thinners • Processing and discarding waste oil • Laws and regulations • Green retail o Health and safety • Limitations of environmental benefits

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Biofuels Engineering Process Technology

Biofuels Engineering Process Technology

Bio Fuels Facts

New Process Technology for Developing Low-Cost, Environmentally Safe Biofuels

Rising fuel prices have created a surge in the worldwide demand for biofuels made from plant and animal feedstocks. Filled with a wealth of illustrations, Biofuels Engineering Process Technology fully explains the concepts, systems, and technology now being used to produce biofuels on both an industrial and small scale.

Written by a team of leading biofuels experts, this lucid guide presents a complete introduction to biofuels and biorefining processes…state-of-the-art information on biofuels processed from fermentations of ethanol, hydrogen, microbial oils, and methane…new material on the production of biodiesel from plant and algal oils…and the use of microbial fuel cells to produce bioelectricity. Biofuels Engineering Process Technologytakes readers step by step through:

  • The key concepts, systems, and technology of biofuels
  • A review of the basic concepts of fermentation pathways and kinetic modeling of bioreactors
  • Biofuels produced from fermentations of agricultural feedstocks and biomass-ethanol, hydrogen, microbial oils, and methane
  • Biodiesel fuels processed from the chemical conversion of microbial and plant oils
  • Bioelectricity produced from microbial fuel cells
  • The latest sustainable biorefinery concepts and methods

Inside This Cutting-Edge Biofuels Engineering Guide

• Introduction • Fuels from Fermentations: Ethanol • Hydrogen • Microbial Oils • Methane • Fuel from Chemical Conversion of Plant and Algal Oils: Biodiesel • Microbial Fuel Cells • Technical Resources

List Price: $ 125.00

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