Cooperative Extension San Joaquin County
University of California
Cooperative Extension San Joaquin County

Posts Tagged: Brandon Collins

Generating energy from forest products

Thinning a forest of woody materials has multiple objectives. It can increase the resiliency of the remaining trees from the effects of fire, drought, pest and disease; it can improve habitat quality for wildlife including watersheds; and it can make it easier for firefighters to protect human lives and livelihoods when a fire is burning. There are several ways thinning is carried out:  cable logging, feller bunching, conventional tractor skidding, hand-thinning and piling, and mastication. One of the issues with thinning is the disposal of biomass that is non-merchantable (e.g., branches, tree tops, small diameter trees). Typically this material goes into large slash piles. For the most part, these piles are left in the forest to break down naturally under winter rain and snows, and are later burned. Because of strict air quality rules, forest managers have very small windows of opportunity to burn these piles, so they are often left on the landscape for many years, sometimes becoming a fire hazard themselves.

Forested communities are searching for ways to deal with this residual biomass that will improve the health of the forest ecosystem; improve and protect critical watersheds and wildlife habitat; reduce the amount of air pollution by removing the piles instead of burning them; and reduce the critical fire danger to their communities. The Placer County Biomass Program is taking up this challenge by chipping the slash piles and trucking the chips to a biomass facility to be converted into electricity.

Outside of Foresthill, Calif., the Tahoe National Forest American River Ranger District and the Sierra Nevada Adaptive Management Project (SNAMP) have been collaborating on a study of forest fuels reduction treatments carried out on national forests. The eight-year ‘Last Chance’ study involves independent third party research by University of California scientists of the integrated effects of forest thinning on fire hazard, forest health, wildlife, water quality and quantity, and public participation. The Placer County Biomass Program, in conjunction with the Tahoe National Forest, the Sierra Nevada Conservancy (SNC) and the Placer County Air Pollution Control District, proposes to remove some of the biomass waste from the Last Chance project to provide an alternative to open burning of the piles. Local contractors are hired to grind the material on-site, load the material into chip vans, and bring the material to market within 60 miles of the Last Chance site to create green, renewable electricity. Placer County estimates that roughly 3,000 Bone Dry Tons (BDTs) of biomass can be removed. According to UC researchers, one BDT burned in a typical commercial boiler fuel will produce 10,000 pounds of steam and 10,000 pounds of steam will produce about 1,000 horsepower or generate 1 megawatt hour (MWH) of electricity.

The economics of this project will be used as part of the assessment of locating a biomass energy facility in the Foresthill area. The removal of these biomass piles will greatly reduce the possibility of catastrophic fire to the local communities on the Foresthill Divide. The improved forest and watershed health will be noticed by the local community and the surrounding county which derives recreation and watershed benefits from the American River area. In addition, several tons of air pollutants will be avoided by removing the pile burns from this area which is currently a federal non-attainment basin that carries both business and health risks to the local population.

Though this project is of benefit to the Foresthill community, other communities in the wild-land urban interface aren’t as lucky. According to Brandon Collins, research scientist at the Pacific Southwest Research Station and UC Berkeley, the lack of funding to chip and remove slash piles and the lack of infrastructure or facilities to take the chips to, makes it impossible at this time to remove that biomass at a larger scale.

“There is so much woody material on the landscape as a result of fire exclusion, it could take decades to really get a handle on it," Collins said. "However, any effort to remove thinning residues from the forest and to also get a benefit from it, such as energy, is great and should be supported.”

Slash pile in Tahoe National Forest, Last Chance project.
Slash pile in Tahoe National Forest, Last Chance project.

Slash pile under a controlled burn.
Slash pile under a controlled burn.

Workers bunch slash.
Workers bunch slash.

Slash piles are chipped and trucked to biomass facility.
Slash piles are chipped and trucked to biomass facility.

Posted on Friday, November 8, 2013 at 8:21 AM

U.S. Forest Service and UC study ways to reduce wildfire severity

The University of California Cooperative Extension (UCCE) recently co-hosted a field trip with the U.S. Forest Service to view the implementation of a forest fuels reduction project on the Tahoe National Forest.

Over 45 stakeholders, including representatives of state, federal, and local government, industry and environmental groups and local residents attended to see the project, known as the "Last Chance Project," which involves thinning the forest by removing small and medium-sized trees, masticating or mowing down brush, and burning dead material through prescribed fire. The work, being done by Sierra Pacific Industries, under contract to the U.S. Forest Service, should be completed by fall 2012.


University of California scientists and UCCE have teamed up with the U.S. Forest Service to provide independent third-party research on the project to determine its effects on forest health, fire behavior, wildlife, water quality and the public through the Sierra Nevada Adaptive Management Project (SNAMP).

The forest research team including Brandon M. Collins, now employed by the U.S. Forest Service Pacific Southwest Research Station as a research fire ecologist, collected data before the Last Chance project began to determine its likely effectiveness at improving the health of trees and reducing the potential for destructive high intensity wildfire. Collins led the effort to use computer models to determine how the Last Chance project, as proposed, will affect fire behavior across the surrounding landscape up to 30 years after completion. Additionally, other hypothetical treatments limiting the diameter of trees removed to different sizes were modeled to assess how effective the project will be at reducing fire severity.

The team sampled 199 forest plots and collected data, such as tree species, vigor, and diameter at breast height (dbh). Tree core samples were collected so the growth of tree rings can be determined to characterize tree productivity at each plot. Downed material, including branches, twigs, pine needles and decomposed organic material, were measured along with woody shrubs. Fuel loads were calculated using standard protocols.

This data was then entered into the Forest Vegetation Simulator (FVS) with the Fire and Fuels Extension to model the planned treatments and grow forest stands within the study area for several decades. Using a command line version of FlamMap, called Randig, and weather information from the Duncan Peak Remote Automated Weather Station, scientists simulated 5,000 randomly placed fire ignitions to model conditional burn probabilities, which are the chance occurrences of a pixel burning given an ignition within the study area under modeled weather conditions.

Simulated, conditional burn probabilities across the Last Chance landscape (By Brandon M. Collins)

Results from that modeling show that fuels treatments as planned for the Last Chance project will be effective at reducing fire behavior not only within treated areas, but also in adjacent areas. Differences in modeled fire behavior, when different limits on the diameter of trees removed were modeled, were slight. This suggests that the key to effective reductions in the probability of more hazardous fire occurrence at the landscape scale is treating surface fuels and thinning ladder fuels, and that the diameter of the trees removed is less important.

Changes in design of fuels treatments project often occur during implementation when unexpected conditions occur. Therefore, post-treatment forest plot data will be collected again beginning in Fall 2012 to better characterize the treatment as implemented, and to re-examine the effectiveness of the modeling results.

Information for this article comes from: Collins, Brandon M., Scott L. Stephens, Gary B. Roller and John J. Battles. 2010. Simulating Fire and Forest Dynamics for a Landscape Fuel Treatment Project in the Sierra Nevada. Forest Science 57(2) 2011.

Photos by Shufei Lei, SNAMP

Photos by Shufei Lei, SNAMP
Photos by Shufei Lei, SNAMP

Posted on Wednesday, September 28, 2011 at 12:22 PM
 
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