Study: Thinning Forests for Bioenergy Can Worsen Climate
A new study out of the Geos Institute in Ashland, Oregon concludes that selectively logging or “thinning” forests for bioenergy can increase the amount of carbon dioxide in the atmosphere and exacerbate climate change.
The study, “Thinning Combined With Biomass Energy Production May Increase, Rather Than Reduce, Greenhouse Gas Emissions,” by D.A. DellaSala and M. Koopman, challenges bioenergy and timber industry assertions that logging forests will aid in the fight against climate change.
DellaSala and Koopman also refute assumptions that wildfires are bigger or more severe than in the past, citing multiple studies showing that the occurrence of wildfire has actually “changed little from historical (early European settlement) times.”
The Western Governor’s Association has stated that 10.6 million acres of western forests are available for “hazardous fuel reduction.” Yet, instead of instead of the build up of “fuel” (aka small trees and understory plants) being the main driver of large wildfire, the study authors blame climate, namely drought and high temperatures, explaining that, “during severe weather events, even thinned sites will burn.”
Instead of preventing large wildfires, the study argues that thinning can increase the chance of severe fire by opening the forest canopy which can dry out the forest, leaving flammable slash piles on the ground, and allowing winds to penetrate the previously sheltered stands, potentially spreading wildfire. Post-fire “salvage” logging is also thought to increase the risk of a re-burn.
Carbon emissions from wildfire have long been an argument to log forests, in an effort to harness energy from trees that may burn at some point anyway. Yet findings show that after a fire the majority of the carbon remains in dead trees, with severe fires that kill most trees in the area emitting 5-30% of stored carbon. Severe fires account for 12-14% of the area burned in large fires.
Even in the cases where thinning would be effective at stopping wildfire--typically small fires of limited threat to public safety--the study cites computer simulations estimating a 5-8% chance of a thinned parcel experiencing fire within the first twenty years, when fuels are lowest. The chance of encountering severe fire is 2%.
DellaSala and Koopman also urge an accurate carbon accounting of forest bioenergy, cautioning that the amount of carbon dioxide released from burning woody biomass is “often comparable to coal and much larger than that of oil and natural gas due to inefficiencies in burning wood for fuel compared to more energy- dense fossil fuels.”
In the rare cases in which a thinned forest is allowed to grow back without repeated logging, the several decades over which forests could reabsorb carbon “conflicts with current policy imperatives requiring drastic cuts in emissions over the near term.”
The study warns about “large-scale clearing of forests” at a time when natural forests are needed to buffer the planet against runaway climate change.
"Woody biomass," said DellaSalla in a December 17 phone interview, "almost never pencils out as an efficient renewable energy source."
Biomass Power Facilities Idle for Months
One of biomass energy’s main selling points is that it’s a baseload source of energy available 24/7, unlike solar and wind. Despite these promises--and hundreds of millions of dollars of taxpayer subsidies, grants and loans--several biomass power facilities across the U.S. have been sitting idle for months at a time, thanks to fires, equipment failure, and competition from cheaper energy sources.
Eagle Valley Clean Energy – Gypsum, Colorado
Eagle Valley Clean Energy, an 11.5-megawatt biomass power facility in Gypsum, Colorado began operations in December 2013, only to have its conveyor belt catch fire in December 2014.
Despite assurances from facility spokespeople that they’d resume operations within a few months, the facility is still offline as of November 2015.
While Eagle Valley’s attorney recently said they’d be up and running again by the end of the year, the Town of Gypsum might not let that happen, with town officials pointing out that the facility had been operating without a required certificate of occupancy, according to Vail Daily.
Eagle Valley has received $40 million in loan guarantees from the USDA, a portion of an annual $12.5 million matching payment for feedstock transportation from the Biomass Crop Assistance Program (part of the Farm Bill), and a $250,000 biomass utilization grant.
Gainesville Renewable Energy Center – Gainesville, Florida
The Gainesville Renewable Energy Center (GREC), a 100-megawatt biomass power facility in Gainesville, Florida, started burning wood chips for electricity on December 2013.
In August 2015, a lightning strike caused the facility to shut down temporarily, and when it became operational again, Gainesville Regional Utilities (GRU) decided not to bring it back online. Instead, GRU has relied on power from Deerhaven Generating Station, a coal plant that is “more economic than GREC’s facility,” according to Margaret Crawford, GRU Communications Director.
GRU pays about $39 per megawatt for electricity from GREC, while GRU’s other facilities generate electricity between $22 and $36 per megawatt, according to the Gainesville Sun.
On November 4, Deerhaven shut down due to a leak in a steam-generating tube, forcing GRU to bring GREC back online temporarily. GREC was taken offline again on November 11, according to David Warm, Marketing and Communications for GRU.
Nacogdoches Power – Nacogdoches Texas
Nacogdoches Power, a 100-megawatt biomass power facility owned by Southern Power Company in Nacogdoches, Texas, went online in June 2012, but was not operational for a total of 17 months, as of July 2015 (the most recent data by the Energy Information Administration).
Austin Energy purchases all of the power from the facility, which adds $2 a month to customers’ utility bills, according to the Statesman.
Austin Energy acknowledges the “disproportionate expense” of the facility, and doesn’t plan to extend the twenty year contract.
Aspen Biomass – Lufkin, Texas
Aspen Biomass, a 50-megawatt biomass power facility owned by NRG Energy Services in Lufkin, Texas came online in September 2011, sitting idle a total of 16 months over the next four years.
The facility shutdown was blamed on “market economics,” according to Biomass Magazine.
WE Energies – Rothschild, Wisconsin
WE Energies and Domtar Corp’s 50-megawatt biomass power facility opened in Rothschild, Wisconsin in November 2013.
After generating no electricity in October 2014, it was taken offline from December 2014 through May 2015 for repairs on the electrical generating steam turbine and leaks in the condenser tubes. During its first full year, it was operational only 16% of the time, according to the Milwaukee-Wisconsin Journal Sentinel. During this time, the facility used more energy than it generated.
“To run the plant would have been more costly than other options like running our natural gas plant or buying power on the market,” We Energies spokesman Brian Manthey said, according to Midwest Energy News.
The facility has reportedly been operational again since June 2015.
Biomass Energy Growing Pains
[[{"type":"media","view_mode":"media_large","fid":"516","attributes":{"alt":"","class":"media-image","height":"360","style":"width: 333px; height: 250px; margin: 3px 10px; float: left;","width":"480"}}]]Several biomass power facilities have come online over the last few years in Colorado, Texas, Wisconsin, Florida, and Hawaii, but not without difficulties, including fires, inefficient equipment, lawsuits, and competing with the low price of natural gas.
Gypsum, Colorado
Eagle Valley Clean Energy, an 11.5-megawatt biomass power facility in Gypsum, Colorado started operating in December 2013, only to have its conveyor belt catch fire in December 2014. Spokespersons said the facility would be back online shortly, yet as of October, it’s still offline. There have been no further media reports investigating why the facility still isn’t operating, and multiple calls and emails to the facility were not returned.
Another thorn in Eagle Valley’s claw is a lawsuit filed against the company in U.S. District Court in June 2015 by Wellons, Inc., an Oregon-based corporation that designed and built the biomass facility.
Wellons is suing Eagle Valley Clean Energy for $11,799,864 for breach of contract, accusing the company of “fraudulent transfers” and “civil conspiracy,” involving the transferring of $18.5 million of federal subsidies to “insider” parties in an alleged effort to hide the money. The money was issued to the facility from the federal government under Section of 1603 of the American Recovery and Reinvestment Act (ARRA), also known as the Stimulus, involving payments to reimburse companies building renewable energy facilities.
Wellons claims that, on top of the nearly twelve million dollars Eagle Valley must pay them, they are owed past due interest of $1,185,433.56, with debt accruing at $3254.90 per day.
Another bump in the road for Eagle Valley involves the Chapter 11 bankcruptcy of the logging contractor that provides them the trees to fuel the facility, West Range Reclamation. West Range has provided nearly all of the wood to the facility since it opened, mostly from beetle-killed lodgepole pine from the White River National Forest.
Nacogdoches, Texas
Southern Power’s Nacogdoches Generating Facility, a 100-megawatt biomass power facility in Nacogdoches, Texas, opened in 2012 only to sit idle much of the time due to an inability to compete with the low price of natural gas, according to Reuters.
Rothschild, Wisconsin
In November 2013, WE Energies and Domtar Corp’s 50-megawatt biomass power facility opened in Rothschild, Wisconsin. However, it was offline from December 2014 through May 2015 for repairs, and was operational only 16% of the time during its first full year, in part due to an inability to compete with the low price of natural gas, according to the Milwaukee-Wisconsin Journal Sentinel.
Gainesville, Florida
The Gainesville Renewable Energy Center (GREC), a 100-megawatt biomass power facility, came online in Gainesville, Florida in 2013, and soon ran into controversy with noise complaints from neighbors.
In October 2014, the Gainesville City Commission approved an audit to look into financial transactions between Gainesville Regional Utilities (GRU) and GREC, which increased costs for the utility and its customers.
In April 2015, Wood Resource Recovery, one of the main fuel suppliers for GREC, sued the facility for breach of contract for $5 million in damages. Part of the complaint has to do with GREC’s refusal to take yard waste and materials from agriculturally zoned properties.
In August, the facility shut down temporarily, and when it became operational again, Gainesville Regional Utilities decided not to bring it back online, with no “projected return to service at this current time,” according to Margaret Crawford, GRU Communications Director. Instead, GRU is relying on power that is “more economic than GREC’s facility.”
In September, the city audit report uncovered that Gainesville Regional Utilities was paying $56,826 more per month than it was supposed to, totaling $900,000 in over-payments.
Koloa, Hawaii
Green Energy Team’s 7.5-megawatt biomass power facility in Koloa, Hawaii, was scheduled to start up in April 2015, but the official opening has been pushed back to November because the efficiency level from burning wood chips was lower than it should be, according to The Garden Island. The turbine was dismantled and reassembled, and is currently undergoing more testing.
Water Abuse in the Fracking Process
- by Alex Lotorto, Energy Justice Network
[[{"type":"media","view_mode":"media_large","fid":"509","attributes":{"alt":"","class":"media-image","height":"384","style":"width: 263px; height: 384px; margin: 3px 10px; float: left;","width":"263"}}]]Water is used in shale gas development from cradle to grave, however, most people don't think about it beyond the issues of groundwater contamination.
In 2012, the Susquehanna River Basin Commission, comprised of governors' representatives from PA, MD, and New York, as well as the White House, approved a three million gallon per day water withdrawal in Jersey Shore, PA that required the removal and relocation of 32 mobile home resident families.
Drought conditions in Texas' Barnett Shale and California's Monterrey Shale regions force residential, commercial, and agricultural consumers to compete with the needs of fracking companies.
If well casings fail or fissures communicate with groundwater supplies, contamination of rural landowners' drinking water can occur. In 2009, 18 water supplies in Dimock, Pennsylvania were found by the Pennsylvania DEP to have been contaminated by drilling mud, fracking chemicals, and methane. Three remaining families are suing the driller, Cabot Oil & Gas, for damages and are going to federal jury trial this November with the support of Energy Justice Network.
Energy's Water Footprint
- by Mike Ewall, Energy Justice Network
[[{"type":"media","view_mode":"media_large","fid":"508","attributes":{"alt":"","class":"media-image","height":"451","style":"width: 333px; height: 334px; margin: 3px 10px; float: left;","width":"449"}}]]In 2005, thermoelectric power plants (nuclear, coal, oil, gas and trash/biomass incinerators) were responsible for 41% of all freshwater withdrawals and 49% of total water withdrawals (including oceans and brackish waters) in the U.S. Much of this water (mainly used for cooling) is returned to local water bodies, but at a higher temperature, which can be harmful to aquatic life. A large portion is also evaporated, so total water consumption is still quite significant.
These thermoelectric power plants consume an average of 800 gallons per megawatthour, ranging from 600 to 1,100 gal/MWh. This means that a 500 megawatt power plant running at 90% capacity would use 2.4 to 4.4 Billion gallons of water each year for cooling. About 85% of this is evaporated, draining rivers and aquifers. The balance is returned to the river as a heated solution containing concentrated pollutants like aluminum and phosphorus.
Some biomass incinerators have sought to use sewage effluent (the liquids that are separated out at a sewage treatment plant) as cooling water. Sewage effluent is a highly contaminated solution containing disinfection byproducts, metals and numerous classes of discarded and excreted biologically active chemicals such as active pharmaceutical ingredients and personal care products, endocrine disrupting compounds, mutagenic cytotoxins and others. These pollutants can contaminate the air when that water is evaporated. Whatever isn’t evaporated will concentrated in the wastewater that the biomass facilities release into local water bodies.
Air cooling is an alternative to water-based cooling, but is noisier and more expensive. Some state regulators have allowed water cooling based on company claims that air cooling is cost prohibitive.
Growing crop-based biomass also requires a lot of water. The biomass industry favors trees and wood waste it doesn’t have to grow, but of the available energy crops, quick-growing, high-yield plants like Miscanthus are preferred. Such crops are also quite demanding.
A review of the Miscanthus-burning biomass incinerator proposed for Jasper, Indianafound that Miscanthus is a thirsty crop, requiring irrigation in areas like Southern Indiana, where rainful is insufficient and global warming is worsening droughts. The research found that Miscanthus is not drought-tolerant, even for a single season, and that without irrigation, Miscanthus’ yields are variable/low. However, it is unlikely that irrigation of Miscanthus will be economically viable, since biomass production must be low cost and low input, and establishment of a Miscanthus crop requires expensive transplanting of plantlets.
Because Miscanthus has a deep, dense root mat, extending far deeper than corn roots, it sucks up more water and dries out soil more than corn or soy. European researchers have expressed concern that Miscanthus production may prevent ground water restoration and diminish groundwater.
Eviction of Mobile Home Park for Fracking Water
Riverdale Mobile Home Park was located on the Susquehanna River in Piatt Township, Jersey Shore, Pennsylvania. Residents were ordered to leave the park in March 2012 by Aqua PVR LLC, a project of Aqua America, a private water utility, and Penn Virginia Resources, a natural gas pipeline company.
VICTORY! DC Denies Exelon-Pepco Merger
DC's Public Service Commission just shot down the plan for the nation's largest nuclear utility, Exelon, to buy Pepco, the electric utility that services the Washington, DC area and a few neighboring states.
This is a huge victory for ratepayers and the environment, since Exelon wanted to have the extra millions of ratepayers to push the high cost of their aging nuclear reactors onto. They also have been hostile to renewable energy.
AUDIO: Energy's Water Footprint in the Western Drought
If You Build It, They Will Cut
[[{"type":"media","view_mode":"media_large","fid":"502","attributes":{"alt":"","class":"media-image","height":"360","style":"width: 333px; height: 250px; margin: 3px 10px; float: left;","title":"Photo: Logging for biomass energy in White River National Forest, Colorado","width":"480"}}]]Generating biomass energy doesn’t result in more logging, according to the biomass industry, whose spokespersons claim facilities only make use of “waste” wood already coming from existing logging operations.
Ron Kotrba, Senior Editor for Pellet Mill Magazine, wrote in the May/June 2015 issue that biomass is the “most unlikely of the forest products to drive the general practice of forestry in the U.S.”
Kotrba believes that the notion of biomass “driving forestry practices in the U.S. is a purposefully deceptive scare tactic used by some in an attempt to influence the perceptions of policy makers and the public.”
Chris Matera, director of Massachusetts Forest Watch, a grassroots forest advocacy group based in Northampton, has long warned that “wood fueled biomass energy will add tremendous pressure, and further degrade already stressed forests.”
“Existing wood-fueled biomass facilities already cut and burn enormous amounts of whole trees for fuel,” said Matera, “and any new facilities will only add more logging pressure.”
Clearly, opinions differ among the biomass industry and its critics, leaving the question: do biomass energy facilities increase logging?
Federal and state agency personnel, along with members of the biomass industry, have made statements demonstrating that the construction of a bioenergy facility is likely to result in a local increase in logging, including in National Forests, by opening an additional market for the sale of trees that might have otherwise been left in the forest to grow.
Brad Flatten, Stewardship and Timber Sales Specialist for the Okanogan-Wenatchee National Forest, was quoted in “Wood Supply Assessment for Commercial-Scale Biomass Power Cogeneration and Biomass Utilization Projects in Central Washington,” saying the establishment of biomass energy facilities in Washington state “may provide a market for small-diameter material typically generated from fuels treatment…and potentially increase the number of treatment acres.”
In other words, controversial “fuel reduction” logging projects, which many scientific studies suggest aren’t effective at reducing the likelihood of a large wildfire, may expand in scale if a biomass energy facility will purchase the trees.
Biomass energy, said Eric Lamfers of the Washington Department of Natural Resources in the “Wood Supply” document, “affords treatment of areas that normally could not be treated without market-based opportunities.” This statement also makes it evident that some Washington forests would be left unlogged without the existence of biomass energy facilities.
Wind River Biomass, a combined heat and power biomass energy facility proposed for Stevenson, Washington, plans to source trees from the nearby Gifford Pinchot National Forest.
A biomass gasification project in North Fork, California that would burn trees to create electricity, heat and biochar would also increase logging, including in the Sierra National Forest, according to a May 6, 2015 article in the Sierra Star.
Jim Branham, executive officer for the Sierra Nevada Conservancy, one of the entities behind the North Fork facility, was quoted as saying that biomass projects such as his are “key to increasing the pace and scale of forest restoration and protecting our forests and communities from large, damaging wildfires.” Once again, a biomass energy facility is acting as a driver for more “fuel reduction” logging projects.
While some biomass energy facilities spur logging in anticipation of the natural process of wildfire, other facilities trigger logging after a burn. For example, a new biomass facility in Kauai drove the cutting and burning of 15,000 tons of pine and eucalyptus trees in Kokee that wouldn’t have been logged otherwise, according to March 5, 2015 article in the Washington Times.
An April 4, 2015 article in Timberline reported that Watertown, New York-based wood chipping company, Pala Wood Service Company, “had all but stopped chipping [trees] due to a lack of a customer base for that product.” Yet, according to Pala Wood’s owner, Bruce Strough, the recent opening of ReEnergy Black River, a 60-megawatt biomass power facility in Fort Drum, “represented an opportunity to get back into the market.”
As more biomass energy facilities are built across the U.S., including ones in close proximity to National Forests, only time will tell whether we’ll see a resulting uptick in logging proposals, as biomass opponents warn. But, if statements by those working on the ground to advance bioenergy are accurate, more logging specifically to fuel these facilities is probable.