Abstract
Forest biomass has recently been highlighted as a renewable energy source in South Korea. As the Renewable Energy Certificate weight has been revised to encourage the use of forest biomass for energy production, forest operations have focused on the development of new technologies and harvesting methods for the extraction and utilization of forest biomass. This study examined the application of a drum chipper to forest biomass and analyzed the effects of screen size (40, 50, 65, and 80 mm) on productivity, cost, and particle size distribution. When the screen size was 40 mm to 65 mm, the chipping productivity improved by up to 3.6 times, the fuel consumption decreased by up to 29.7%, and the chipping cost was reduced by up to 31.9%. The fines content tended to decrease with an increase in screen size. The size of woodchips was less than 100 mm in length and ranged from 10 to 63 mm. The 65 mm screen was the most effective (e.g., producing optimal wood chip size at an acceptable production rate) for the chipping operation. Harvesting methods and drying time are also important factors that determine the utilization efficiency of forest biomass. Therefore, further research should be focused on the effect of moisture content on chipping productivity, power required, and fine particle size in forest biomass productions.
Highlights
Due to the successful forest rehabilitation project and continuous afforestation in South Korea, forests with mature stands occupy 72.1% of the entire forest area
The Renewable Energy Certificate (REC) weight revision is changing the flow of the forestry market for the extraction and utilization of unused forest biomass
This study inferred the effect of screen size (40, 50, 65, and 80 mm) on the chipping operation productivity and cost, fuel consumption, number of feedings per hour, weight per turn, and wood chip particle size distribution for forest biomass
Summary
Due to the successful forest rehabilitation project and continuous afforestation in South Korea, forests with mature stands occupy 72.1% of the entire forest area. As the mature stands become dominant, forest operations such as clear cutting and thinning operations tend to gradually increase [1]. Demand for wood has increased, most of the richer countries’ policies have been to mainly export wood products. The Korea Forest Service (KFS) is going to increase the self-sufficiency ratio of timber from 16.3% (2017) to 25.0% (2035). The production and use of wood are expected to increase [1]. The demand for forest biomass (such as wood chips and pellets) is on the rise and is diversified into
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