• 신재생에너지
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• 제18권4호
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• pp.70-78
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• 2022

To respond to global warming, there is an increasing interest in eco-friendly alternative energy sources. Therefore, unused forest biomass that has been neglected due to a lack of marketability is attracting attention. With the introduction of the "unused forest biomass certification system" in 2019, ways of determining quantity of unused forest biomass have steadily increased. However, there have been reported cases whereby unused forest biomass weighed more than the amount of harvested trees. It was found that it was possible that forest resources that can be used as round wood were mixed with unused forest biomass. In this context, this study aimed to estimate the amount of mixed round wood in the unused forest biomass supply. The relative expression of growing stock/ha versus the amount of final clearing/ha collected was modeled (y=1.490x-94.341, R²=0.861). As a result, it was found that round wood was mixed into the unused forest biomass, contributing to the disparity observed between the weighted forest biomass and the amount of trees harvested. In conclusion, proper declaration and certification procedures should be carried out for the use of forest resources and promoting unused forest biomass usage.

• 농업과학연구
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• 제49권2호
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• pp.317-330
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• 2022

Recently, the policy regarding climate change in Korea and overseas has been to promote the utilization of forest biomass to achieve net zero emissions. In addition, with the implementation of the unused forest biomass system in 2018, the size of the Korean market for manufacturing wood pellets and wood chips using unused forest biomass is rapidly expanding. Therefore, it is necessary to estimate the total amount of unused forest biomass that can be used as an energy source and to identify the capacity that can be continuously produced annually. In this study, we estimated the actual forest area that can be produced of logging residue and the potential amount of unused forest biomass resources based on GT (green ton). Using a forest functions classification map (1 : 25,000), 5th digital forest type map (1 : 25,000), and digital elevation model (DEM), the forest area with a slope of 30° or less and mountain ridges of 70% or less was estimated based on production forest and IV age class or more. The total forest area where unused forest biomass can be produced was estimated to be 1,453,047 ha. Based on GT, the total amount of unused forest biomass potential resources in Korea was estimated to be 117,741,436 tons. By forest type, coniferous forests were estimated to be 48,513,580 tons (41.2%), broad-leaved forests 27,419,391 tons (23.3%), and mixed forests 41,808,465 tons (35.5%). Data from this research analysis can be used as basic data to estimate commercial use of unused forest biomass.

• 한국유기농업학회지
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• 제20권4호
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• pp.447-458
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• 2012

This study was carried out to evaluation of biomass generation mechanisms and to propose the estimation method of biomass generation. Agricultural by-product biomass is generated during crops cultivation and after harvest. However these are not uniformly generated yearly and these depending on the seasons. For planning of biomass utilization, accurate information of the biomass resources is needed, especially characteristic and productivity of biomass are necessary. Agricultural by-product biomass are generated in a wide area being scattered and it is one of the major reason why agricultural biomass utilization is not activated compared with other waste biomass. In this study, estimation and evaluation biomass generation is achieved in specific spatial and temporal boundary, A-city in Gyeongi-do and september to November respectively. Quantity and quality of by-product biomass show big difference depending on the crop species and cultivation periods and these difference bring up that accurate biomass estimation should be considered during planning of biomass utilization and technology selecting for biomass converting to energy and other forms.

• 한국응용과학기술학회지
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• 제35권1호
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• pp.247-253
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• 2018

본 연구에서는 수입되는 바이오매스를 대체하고 증가하는 국내 RPS의무비율을 보다 효과적으로 대응하기 위해 우드펠릿으로 사용가능한 국내 산림바이오매스 부존자원을 파악하기 위하여 선행연구 방법과 매년 추가로 성장하는 임목생장률을 기준으로 미이용 산림바이오매스의 양을 산정하였다. 그 결과, 임목가공 중 발생하는 부산물 중 20%를 우드펠릿 원료로 사용한다고 가정했을 경우 두 가지 추정 방법으로 도출된 평균값을 기준으로 우드펠릿 생산 가능량을 예측 하였다. 그 결과 미이용 부산물은 2016년 199만 톤, 2020년 228만 톤, 2030년 308만 톤이 발생되고 원목가공 과정에서 발생되는 임목부산물(피죽, 톱밥 등) 중 20%가 우드펠릿 원료로 활용될 경우 2016년 258만 톤/년, 2020년 295만 톤/년 2030년 398만 톤/년의 원재료가 추가되어 미이용 부산물과 원목가공 과정 중 발생되는 부산물로 생산 가능한 우드펠릿 양은 2016년에 274만 톤/년, 2020년 314만 톤/년 2030년 423만 톤/년의 우드펠릿이 생산 가능하다는 결과를 도출 하였다.

• Journal of Forest and Environmental Science
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• 제25권2호
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• pp.131-138
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• 2009

Recently, various efforts for the extended utilization of woody biomass has been attempted due to the fact that global warming, energy and environmental problems are urgent ones to be solved. Development of new energy sources at our national security level is desperately needed as we depend on almost all of energies supplied from other countries, let alone the economic crisis caused by oil price hike. Woody biomass can be converted to energy by means of thermochemical, biological, or direct combustion processes. Many processes are available for producing bioenergy, such as bioethanol, wood pellet, wood chip, combined heat, and power system. Political support and R&D investment should be provided that can boost the utilization of the wood biomass, the eco-environment, and recyclable and alternative energy resources for national power security. In addition, a long-term strategy that can utilize unused and low efficient woody biomass resources, and systematically collect and manage them in a national level should be set up. Even though the possibility in total exchange of fossil oil with woody biomass is quite low, technology developments of woody biomass for the solution to global warming and environmental problem through its commercialization are expected to grow steadily.

• 한국농공학회논문집
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• 제59권5호
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• pp.17-23
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• 2017

In South Korea, 25 % of annual agricultural residues (11.64 million tons) are unused. The hydrophilicity, low lower heating value (LHV), and low energy density of agricultural residues can be obstacles for efficient usage. Torrefaction, a low temperature pyrolysis process, can be a solution to overcome these disadvantage of agricultural residues. In this study, agricultural residues such as bean stem, pepper stem, perilla stem, sorghum stem, acorn shell, and ginkgo shell are torrefied at 200, 230, and $250^{\circ}C$ and evaluated energy properties, respectively. The torrefaction can increase the LHV and energy density rate of agricultural residues from 3,331~4,444 kcal/kg to 4,166~5,830 kcal/kg and 20~30 %, respectively.

• 청정기술
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• 제27권4호
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• pp.325-331
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• 2021

본 연구에서는 미이용 바이오매스인 3급 목재펠렛 및 커피박을 이용하여 바이오카본을 생산하고 이를 통하여 저분자 극성 휘발성 유기화합물인 포름알데하이드 및 아세트알데하이드 제거 성능 실험을 수행하였다. 바이오카본 생산 실험은 이산화탄소를 활성화제로 사용하여 고정층 반응기에서 수행하였다. 활성화 실험 시 반응온도 900 ℃ 및 이산화탄소 1 L min^-1으로 반응조건을 고정하여 진행하였다. 활성화 실험 결과 1급 목재펠렛으로부터 생산한 바이오카본의 BET 비표면적이 약 788 m² g^-1으로 가장 높음을 알 수 있었고 커피박으로부터 생산한 바이오카본이 약 544 m² g^-1으로 가장 낮게 나타났다. 본 실험을 통해 생산된 바이오카본은 대부분 마이크로 기공을 가진 것으로 나타났다. 바이오매스 원료 내 회분의 함량이 낮을수록 바이오카본의 비표면적이 높아지는 것으로 나타났다. 포름알데하이드 및 아세트알데하이드 제거 실험 결과 1급 및 3급 목재펠렛으로 부터 생산한 바이오카본에 비해 커피박으로부터 생산한 바이오카본이 더욱 우수한 흡착 성능을 보여주었다. 추가적으로 상용 첨착 활성탄과 커피박으로부터 생산한 바이오카본의 비교 실험을 진행하였다. 포름알데하이드 제거 성능은 상용 첨착 활성탄이 우수한 반면 아세트알데하이드 제거에는 커피박으로부터 생산한 바이오카본이 우수한 것으로 나타났다.

• 신재생에너지
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• 제18권3호
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• pp.1-9
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• 2022

This study analyzed the anticipated supply-and-demand of forest biomass energy (through wood pellets) until 2050, in South Korea. Comparing the utilization rates of forest resources of five countries (United Kingdom, Germany, Finland, Japan, and S. Korea), it was found that S. Korea does not nearly utilize its forest resources for energy purposes. The total demand for wood pellets in S. Korea (based on a power generation efficiency of 38%) was predicted to be 3,629 and 4,371 thousand tons in 2034 and 2050, respectively. The anticipated total wood pellet power generation ratio to target power consumption is 1.13% (5,745 GWh), 1.17% (6,336 GWh), and 1.25% (7,631 GWh) in 2020, 2030, and 2050, respectively. Low value-added forest residues left unattended in forests are called "Unused Forest Biomass" in S. Korea. From the analysis, the total annual potential amount of raw material, sustainably collectible amount, and available amount of wood pellet in 2050 were estimated to be 6,877, 4,814, and 3,370 thousand tons, respectively. The rate of contribution to Nationally Determined Contributions was up to 0.64%. Through this study, the authors found that forest biomass energy will contribute to a carbon neutral society in the near future at the national level.

• 한국농공학회논문집
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• 제61권3호
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• pp.89-99
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• 2019

The project to utilize kenaf as thermal power plant fuel has a positive effect on the unused energy utilization, greenhouse gas reduction, and farm income. However, it is analyzed that it is difficult to secure economical efficiency because the fuel cost of kenaf is higher than that of power by thermal power plant and Renewable Energy Certification (REC). The project of power generation using kenaf is meet the government's major policies, while government support is essential for securing economical efficiency. As a result of the sensitivity analysis on the ratio of the government subsidies, to secure economical efficiency, the power generation prices using kenaf through the direct financial support of the government indicate that 47% and 76% of kenaf fuel cost are supported by government in case of the Saemangeum reclamation and Gangneung-si, respectively. In the case of the government indirect policy support, if kenaf is included as a renewable energy source of Renewable Energy Portfolio Standard and REC is granted, the economic efficiency of Saemangeum reclamation and Gangneung-si is obtained when REC secured at 1.05 or more and 2.43 or more, respectively. The results of this study are meaningful in that the direct and indirect effects of the government on the development of the herbaceous energy crop, kenaf, were evaluated economically. These results are to suggest the need for demonstration study, but economics analyze and evaluate are necessary based on operational data through the demonstration phase in the future.

• Korean Chemical Engineering Research
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• 제57권6호
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• pp.874-882
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• 2019

본 연구에서는, Lab-scale 기포 유동층 가스화기(직경 : 0.11 m, 높이 : 0.42 m)에서 미이용 산림 바이오매스 4종과 폐목재 1종의 가스화 특성을 살펴보았다. 실험은 온도와 연료 주입량을 각각 $800^{\circ}C$, 1 kg/h로 고정하고, ER 0.15-0.3, 가스 유속 $2.5-5U_0/U_{mf}$으로 변화시키면서 진행했다. 층 물질로는 silica sand와 olivine을 사용하였다. 생성 가스의 조성은 NDIR 분석기와 GC를 통해 분석하였으며, 분석 결과 평균적으로 $H_2$ 3~4 vol%, CO 15~16 vol%, $CH_4$ 4 vol%, $CO_2$ 18~19 vol.%으로 미이용 산림바이오매스와 폐목재 모두 비슷한 조성을 보였으며, 생성 가스의 평균 저위발열량은 $1193{\sim}1301kcal/Nm^3$을, 고위발열량은 $1262{\sim}1377kcal/Nm^3$을 나타내었다. 또한, 타르 저감 효과를 알아보고자 층 물질로 olivine을 사용 시 silica sand에 비해 생성 가스 내 C2 이상 성분이 대부분 감소하였고, $H_2$ 함량이 증가하여 타르의 cracking 반응이 생겼음을 확인하였다. 비응축성 타르는 72% ($1.24{\rightarrow}0.35g/Nm^3$), 응축성 타르는 27% ($4.4{\rightarrow}3.2g/Nm^3$) 가량 감소하는 효과를 확인하였다.