$91 Million Taxpayer Dollars to Fund Louisiana Biofuel Plant

- Cole Avery, October 3, 2014, The Times-Picayune

[[{"type":"media","view_mode":"media_large","fid":"296","attributes":{"alt":"","class":"media-image","height":"346","style":"width: 347px; height: 346px; margin: 3px 10px; float: left;","width":"347"}}]]Tom Vilsack, the secretary of the U.S. Department of Agriculture, announced a $91 million loan guarantee from the federal government to help build a biomass fuel plant in Louisiana.

Vilsack traveled to Baton Rouge on Friday to make the announcement. He said the plant could have a "profound impact" on agriculture in America.

The plant is being built by Cool Energy in Alexandria. It under construction and is expected to be complete in 2015 with production to begin in 2016. The plant will produce an expected 150-175 direct or indirect jobs.

"This is going to provide a new market opportunity for pine chips and other renewable forest material, which will help the forestry industry in the state," Vilsack said. "This biochar soil nutrient they're able to produce is really remarkable opportunity for us not only to learn from your experience but to take this and extend the notion of biochar."

Lakeview Biofuel Plant Proposal Raises Air Quality Concerns

- September 25, 2014, Oregon Public Broadcasting

[[{"type":"media","view_mode":"media_large","fid":"295","attributes":{"alt":"","class":"media-image","style":"width: 300px; height: 199px; margin: 3px 10px; float: left;"}}]]A project proposed in Lakeview, Oregon, would turn woody biomass from logging into biofuels for Southwest Airlines, the U.S. Navy and Marines.

The biofuel would have fewer greenhouse gas emissions than traditional jet fuel and diesel, but some worry the project might add to existing air quality problems in southern Oregon.

Red Rock Biofuels of Fort Collins, Colorado, received a $4.1 million design and engineering grant from the U.S. Department of Defense earlier to help develop the project.

On Friday, the department announced new contracts with the company to supply fuel to the U.S. Navy and Marines. This week, Southwest Airlines announced plans to buy 3 million gallons of the company’s low-carbon jet fuel.

The biofuel refinery has yet to be built, but it’s clearly gaining momentum.

Betty Riley, executive director of the South Central Oregon Economic Development District, said most people in the community are “tentatively optimistic” that the project will be built as planned. But they’re cautious about new developments – particularly after Iberdrolas decided to halt construction on its $100 million Lakeview biomass plant in 2011.

“It’s a new technology, so its always challenging to see if they can make it pencil,” Riley said. “But apparently they’ve done a lot of background work, and with the contracts and the support of the federal government, it is something that hopefully can sustain itself over time.”

But Lakeview resident Chris Zinda sees a problem looming. The area already has too much air pollution, he says, and a biofuel plant would add more.

“Lakeview already has poor air quality as it is,” Zinda said. “We’ve permitted a biomass facility in our already poor air quality. Now we have a proposed biofuel plant to boot.”

Zinda recently joined the Northwest Environmental Defense Center and several other environmental groups in petitioning the Environmental Protection Agency to reclassify Lakeview as a “non-attainment area” – or an area that doesn’t meet air quality standards under the Clean Air Act. If successful, the petition would result in new rules that would require Red Rock Biofuels to reduce or offset its air emissions so it doesn’t add to existing air pollution.

The Oregon Department of Environmental Quality has recognized Lakeview’s air quality problem. The levels of particulate matter in the air exceeds the federally allowed limit – mostly because of wood stove pollution that gets trapped in the area during weather inversions.

The agency has proposed a plan that aims to avoid an EPA “non-attainment area” designation. The plan acknowledges that additional industry proposed in the Lakeview area will bump up against air pollution limits, preventing the state from issuing development permits.

“Any intermediate size to large industry wishing to expand or establish in Lakeview is restricted from doing so,” the agency states in justifying its plan.

So, its plan recommends replacing old wood stoves and shifting people away from wood-fired heat. It also proposes allowing companies to buy wood stove emissions offsets.

But Zinda says the DEQ hasn’t gone far enough. He wants the EPA to require all major polluters in Lakeview to reduce their emissions, as it would if the area were classified as “non-attainment.”

“Why should the citizens pay in their health and pocketbook while industry continues to pollute?” he said. “Corporations should at least be required to pay to worsen our air quality.”

Is Biomass All It's Cut Up to Be?

- by Howard Brown, October 17, 2014, Summit Daily
 
[[{"type":"media","view_mode":"media_large","fid":"292","attributes":{"alt":"","class":"media-image","height":"360","style":"width: 333px; height: 250px; margin: 3px 10px; float: left;","width":"480"}}]]One possible reason for sticking to the ill-advised Ophir Mountain and other clear-cutting plans is that the clear-cut trees would go to the biomass power plant in Gypsum. Biomass power is renewable energy. It wouldn’t justify destroying Summit County’s wonderful forests and trails, but biomass is green energy right? Maybe not.
 
Is biomass power a good renewable energy source that we should promote here in Colorado? To answer this, we need to back up and look at where biomass energy comes from. As with most of our energy sources, it starts with energy from the sun. In photosynthesis, plants use solar energy to convert water and carbon dioxide to carbohydrates. Energy is stored in the carbon-hydrogen bonds. (Geologic pressure over time strips the oxygen from plant material to create hydrocarbon fossil fuels.) When animals metabolize carbohydrates, or when plant or fossil fuel material combusts (burns), that energy is released as oxygen combined with the material, returning to the lower-energy carbon-oxygen and hydrogen-oxygen bonds of carbon dioxide and water.
 
The problem with fuels such as coal and wood is that they are solids. The combustion process requires direct contact between oxygen molecules and molecules of the fuel. For gaseous fuels such as natural gas, that is very easy, individual oxygen molecules readily mix directly with individual methane molecules. For liquid fuels such as petroleum products, vegetable oil or ethanol, that mixing is more difficult and the resulting combustion less efficient. With solid fuels, however, it is exceedingly difficult for individual oxygen molecules to contact individual fuel molecules, so the combustion process is incomplete and far less efficient.
 
As a result, much less energy is produced per amount of fuel. This both generates more carbon dioxide and other greenhouse gases per amount of energy generated and makes the fuel far less valuable. With its low value as a fuel, biomass can only be an economic fuel if it is inexpensive and very close to the power plant. Indeed, nearly all [a significant and increasing percentage of biomass facilities transport wood from elsewhere. -Ed.] current commercial biomass power uses waste biomass sources burned right at the generation site (pulping liquid at paper mills, scrap at lumber mills and municipal solid waste at collection centers). Also, the incomplete combustion generates air emissions as well as ash.
 

Consequently, the future of biomass power lies with developing technologies to gasify or liquefy biomass, so that it can be burned more efficiently. This research closely parallels efforts to develop clean-coal technologies. Other biomass research focuses on developing fast-growing trees or grasses.

Gasification and liquefaction technologies are not here yet. You certainly don’t come to the mountains or the arid West for fast-growing trees. Cutting down natural forests and hauling the wood 60 miles hardly qualifies as using industrial waste materials at their source.

Colorado is blessed with great solar and wind resources. These are our best sources for renewable energy. Here and now, at the expense of losing Summit County’s beautiful forests and trails, is clearly not the place for biomass power.

Howard Brown lives near Silverthorne. While he has extensive environmental policy analysis experience at the federal, state and local levels, he attributes his expertise to observing and asking questions while enjoying Summit County’s beauty.

Valero’s Indiana Ethanol Plant Damaged After Morning Fire

- October 13, 2014, The Paper of Montgomery County

[[{"type":"media","view_mode":"media_large","fid":"124","attributes":{"alt":"","class":"media-image","height":"194","style":"line-height: 20.6719989776611px; width: 259px; height: 194px; margin: 3px 10px; float: left;","width":"259"}}]]

Crews were called to an early morning fire at the Valero ethanol plant in Montgomery County Monday.

After 1 a.m., a call came in about a fire at the Valero plant, just off of U.S. 231 near Linden. Firefighters from six departments responded to the plant just after 1:30 a.m.

Linden firefighters say the fire started in the dryer area which is on the west end of the facility.

Earl Heide from the Linden Fire Department said it took five hours to put out all of the hot spots. He said there is major damage to the west section of the plant.

Authorities said no one was injured in the incident.

State investigators are currently trying to determine the cause of the fire.

Biomass Energy: Another Kind of Climate Change Denial

 (Graphic: Indiana Joel)

[[{"type":"media","view_mode":"media_large","fid":"282","field_deltas":{"1":{}},"link_text":null,"fields":{},"attributes":{"title":"Graphic: Indiana Joel","height":480,"width":445,"style":"line-height: 20.6719989776611px; width: 388px; height: 419px; margin: 3px 10px; float: right;","class":"media-image media-element file-media-large","data-delta":"1"}}]]

We’re all familiar with climate change deniers, cheerfully and/or willfully ignorant folk who refuse to accept that human-caused carbon emissions are responsible for the climate crisis — or that there even is a climate crisis. Those of us who value science and common sense typically have as much patience for these twenty-three percent of Americans as we do for anyone who believes that maggots arise spontaneously from rotting meat, witches cause disease, or the Earth is the center of the universe.  

Recently, a subtler breed of climate change denier has emerged, spreading their propaganda and even infiltrating aspects of the environmental movement: biomass boosters. These advocates for the biomass energy industry often avoid detection by professing concern with carbon emissions. Yet, while cursing fossil fuels out of one side of their mouths, out of the other they bless the burning of one of the world’s greatest buffers against runaway climate chaos — our forests — for energy.

If the climate movement wants to win over the American people and influence policy, it needs to have credibility, which only comes through consistency, and that means distancing itself from the climate change deniers in our midst.

Forests = Carbon

Forests store and sequester mind-boggling amounts of carbon and are one of our last best hopes in fighting climate change. Cutting forests and burning them for energy in polluting biomass incinerators is perhaps the worst thing we can do when it comes to the climate threat.

Biomass incinerators emit higher levels of carbon dioxide per unit of energy than most coal-fired plants, the dirtiest fossil fuel, with some studies demonstrating up to a centuries-long time frame for the reabsorption of this carbon by future forests, and others showing a permanent increase in atmospheric CO2. Some of the more optimistic (and flawed) studies show it will still take decades for the carbon to be reabsorbed by forests cut for biomass energy. Yet, this assumes a forest cut for biomass will be protected and not logged again (a highly unlikely scenario), and will maintain the same rate of growth despite soil compaction, nutrient depletion, and erosion from past logging and impacts from climate change, including drought.

Even if that best case scenario were true, it’s irrelevant. Climate scientists insist the only way to reverse runaway climate change is to drastically cut our emissions now, not at some undetermined point in the future after emitting a massive pulse of carbon out the smokestacks of biomass incinerators.

Only when you bring up this point to biomass boosters do they reveal their true colors, proving that, despite pretensions, they really aren’t taking climate change that seriously at all.

Magic Tree Carbon

When pressed on the reality of curbing emissions today rather than in the year 2114, biomass advocates typically admit that carbon emissions from biomass incineration don’t count because they don’t come from the bad kind of fossil fuel carbon, but the good kind of “biogenic” carbon. In other words, you can cut and burn all the trees you want for energy, because the carbon they emit is harmless, basically a kind of magic tree carbon.

Of course, an eighth grade grasp of Earth science proves that the atmosphere doesn’t give a fig whether the carbon comes from trees, fossil fuels, or unicorn poop, because carbon is carbon is carbon.  

The US Environmental Protection Agency (EPA) has been spending the last few years deciding how to measure carbon emissions from biomass energy (even though the only honest way to account for it is to tabulate what comes out of the smokestack), with vague plans to come out with its accounting framework for “biogenic” carbon by the end of 2014. The agency’s willingness to even entertain industry’s notion of magic tree carbon exposes the EPA for what it truly is: a political, rather than scientific body. The Obama administration has come out in support of biomass energy, chopping down the low-hanging fruit of “green” energy to make it seem like it’s actually doing something about the climate crisis.

One final point to bring up if you’re ever in a conversation with a biomass booster and really want to watch them squirm. Remind them that the supposedly “biogenic” carbon stored in any given tree actually includes some carbon sequestered from hundreds of years of burning fossil fuels, and when that tree is burned for energy, that carbon too is released back into the atmosphere. If they have a response to this, please contact me and let me know what it is, because I’ve yet to hear one.

Of course, chances are, no matter how much you question biomass boosters on carbon emissions, you won’t get any good answers out of them. Maybe that’s because most of them secretly believe — though they’ll never admit it, perhaps not even to themselves — that climate change simply isn’t that big of a deal.   

 

Bioenergy Capacity Continues to Increase

- by Erin Voegele, September 26, 2014, Biomass Magazine

[[{"type":"media","view_mode":"media_large","fid":"246","attributes":{"alt":"","class":"media-image","style":"line-height: 20.6719989776611px; width: 333px; height: 250px; margin: 3px 10px; float: left;"}}]]

The U.S. Energy Information Administration has released the September issue of its Electric Power Monthly report, indicating total in-service bioenergy capacity equaled 13,431.4 MW as of the close of July, up from 13,368.4 MW at the close of June. Overall, 313 MW of new bioenergy capacity was added in July, with 250 MW of bioenergy capacity reductions.

According to the EIA, wood and waste wood biomass capacity increased from 8,215.3 MW to 8,329.8 MW. Overall landfill gas capacity decreased slightly, from 2,046.4 MW to 2,044.2 MW. Municipal solid waste (MSW) capacity decreased slightly from 2,230.7 MW to 2,244.0 MW. Capacity from other sources of waste biomass also decreased, from 876.0 MW to 833.4 MW.

Over the next 12 months, EIA data shows 229.3 MW of planned bioenergy capacity additions. This includes 73 MW of wood and waste wood biomass capacity, 33.5 MW of landfill gas capacity, 88 MW of MSW capacity, and 34.8 MW of capacity from other waste biomass sources.

Oregon Site Selected for Biofuel Plant

[[{"type":"media","view_mode":"media_large","fid":"277","attributes":{"alt":"","class":"media-image","style":"line-height: 20.6719989776611px; width: 192px; height: 144px; float: left; margin: 3px 10px;"}}]]- by Eric Mortenson, September 19, 2014, Capital Press

Red Rock Biofuels, a subsidiary of IR1 Group of Fort Collins, Colo., will use forest biomass — debris from logging or thinning operations — to produce fuel. It is one of three firms selected for the project, which is intended to produce a combined total of 100 million gallons annually at an average cost of less than $3.50 a gallon and producing 50 percent less greenhouse gas emissions than conventional fuel. Firms in Nevada and Louisiana also were selected for the project. Details of the contracts were not immediately available.

The plants will produce what is called “drop-in” biofuels, meaning they are chemically similar to existing petroleum-based fuel and can be used in ships and planes without extensive retrofitting.

Louisiana Biorefineries Getting $161 Million Taxpayer Handout

- Ted Griggs, October 4, 2014, The Advocate

[[{"type":"media","view_mode":"media_large","fid":"274","attributes":{"alt":"","class":"media-image","style":"line-height: 20.6719989776611px; width: 242px; height: 332px; margin: 3px 10px; float: left;"}}]]Two bioenergy companies are getting a combined $161 million in federal loan guarantees or contracts that will help them develop biofuel refineries in Plaquemine and Alexandria.

Cool Planet Energy Systems is getting a $91 million federal loan guarantee to produce renewable biofuel in central Louisiana from trees, forestry waste and natural gas at a previously announced plant at the Port of Alexandria.

Emerald Biofuels will build a previously announced animal fats-to-diesel refinery in Plaquemine through a $70 million contract from the U.S. departments of the Navy, Energy and Agriculture.

U.S. Agriculture Department Secretary Roger Vilsack said the Energy Department will help Emerald Biofuels with construction, USDA will help buy down the cost of feedstock, and the Defense Department will buy the plant’s production for five years.

Vilsack was in Baton Rouge on Friday and discussed the Emerald Biofuels contract after holding a news conference to announce the Cool Planet loan guarantee.

The Emerald Biofuels facility will be able to produce 82 million gallons of fuel each year.

Are Biomass Incinerators Gobbling Up Firewood?

[While we are certainly not advocating for any form of burning, including firewood, it's interesting how the biomass industry competes with itself. -Ed.]

- by Anna Simet, October 03, 2014, Biomass Magazine

[[{"type":"media","view_mode":"media_large","fid":"270","attributes":{"alt":"","class":"media-image","height":"183","style":"line-height: 20.6719989776611px; width: 275px; height: 183px; margin: 3px 10px; float: left;","width":"275"}}]]Last week, I blogged about the pellet availability situation in the Northeast (the “shortage” last year, what might happen this year, etc.) What I didn’t mention—new to my radar this week— is that right now, the very same thing is going on with cordwood that did with pellets. It’s been making headlines in several northeastern states.

So, I called up my friend and Biomass Magazine columnist John Ackerly, president of the Alliance for Green Heat, to get some more details on the situation. 

He said he’s never seen a situation like this.

Tennessee Biomass Incinerator Shut Down For Costs, Safety

- by Frank Munger, August 24, 2014, Knoxville News Sentinel

[[{"type":"media","view_mode":"media_large","fid":"249","attributes":{"alt":"","class":"media-image","style":"width: 233px; height: 155px; margin: 3px 10px; float: left;"}}]]Oak Ridge National Laboratory’s Biomass Steam Plant, heralded as a money saver and friend to the environment, failed to live up to its hype operationally, and the U.S. Department of Energy is reportedly trying to renegotiate its deal with the company that performed this and other projects at ORNL under a $90 million Energy Savings Performance Contract.

Johnny Moore, DOE’s site manager at the laboratory, confirmed that operations at the Biomass Steam Plant were shut down last fall after system checks revealed that walls were thinning in some of the key vessels and transfer lines. An analysis determined the walls were eroding because of the presence of “weak organic acids” generated by wood-burning operations that fueled the system, and there were safety concerns, he said.