• Journal of the Korean Wood Science and Technology
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• 제2권2호
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• pp.22-24
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• 1974

1. 연구의 목적 및 중요성. 우리나라 합판 공업은 우수한 제조 기술을 개발하므로서 합판 수출액은 매년 증가하여 드디어 세계 제1위의 합판수출국으로 등장하게 되었으나, 합판 이외의 각종 목재가공품의 수출은 극히 부진한 실정에 있음은 주로 목재가공기술 부족에 기인하는 것으로 분석되고 있다. 따라서 본 연주에 있어서는 수출용 목재 제품의 품질을 개선하므로서 수출 증대 촉진하기 위하여 목재 가공상 가장 기초적 부문에 속하는 목재 건조법을 규명한 것이다. 2. 연구의 내용 및 범위 습재(wet wood)를 사용하면 가공후 건조 수축하여 변형하고 또는 절삭(切削), 접착 및 도장(塗裝) 등에 있어서 각종의 피해를 유발하므로 이들의 피해를 방지하기 위하여 습재를 사용전에 반드시 건조하여야 한다. 따라서 수출용재로 그 사용량이 많은 감나무, 참나무, 라왕 및 라민등에 대한 건조법 및 그 건조결함을 규명하는 동시에, 우리나라의 목재건조공업 실태도 아울러 조사하였다. 3. 연구 결과 및 활용에 대한 건의 3.1 연구 결과 3.1.1 $100^{\circ}C$ ovendry에 있어시 목구활열형성 및 함수율 5%까지 건조하는데 소요되는 시간은 표 1과 같다. 3.1.2 두께 30mm 공시목을 표 2의 건조스케줄을 적용하여 건조한 결과는 표 3과 같다. 3.1.3 감나무 건조 스케줄은, 건조 특성이 정상인 공시목에 대하여는 표4 스케줄이 적합하고 활열성이 강한 것은 상온 아래 그 관계습도를 85% 이상으로 유지하면서 서서히 기건하여 그 함수율을 25%까지 감소한 후 인공건조하는 것이 안전하다. 3.1.4 각 수종에 대하여 규면된 건조 스케줄은 다음과 같다. 라만 건조 스케줄 표 5 및 표 6 라왕(메란티) 표 7 참나무 표 8. 3.2 활용에 대한 검의 본 연구 결과는 목재가공 관계업체에 널리 보급하여, 목재건조기술 개선 특히 건조결함 방지와 건조 시간 단축에 활용되기를 바란다.

• 한국대기환경학회지
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• 제30권4호
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• pp.319-326
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• 2014

Exhaust gas emitted as a result of the incomplete combustion of biomass in charcoal kilns includes odor compounds as well as other air pollutants such as particulate matters, sulfur and nitrogen oxides, and carbon monoxide. A number of offensive odor compounds affect quality of life. In this study, odor emissions were investigated from biomass burning in a pilot-scale charcoal kiln and a commercial-scale kiln. Complex odor from emission source reached up to 10,000 dilutions to threshold during the study period. Combustion fume was found to contain reduced sulfur compounds, aldehydes, and volatile organic compounds. Hydrogen sulfide and methyl mercaptan were the major odorants which highly contributed to the offensive odor.

• 임산에너지
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• 제21권2호
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• pp.17-24
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• 2002

소나무 수피로 부터 수증기 활성화 의하여 활성탄을 제조하였으며, 제조된 활성탄은 세공 구조 및 표면적에 대한 검토를 행하였다. 활성화를 위하여 3종류의 서로 다른 형태의 로(정치식 수직, 수평로 및 회전식 수평로)가 본 실험에 사용되었다. 정치식 수직 및 수평로를 이용하여 수피를 탄화시키고 이를 수증기 활성화시키면, 1,000 ㎡／g이상의 높은 비표면적을 얻기는 어려웠다. 분말상태의 시료를 사용하면 비표면적이 약간 향상되었지만, 여전히 정치식 로의 경우 높은 비표면적의 결과를 얻기는 어려웠다. 로타리식 수평로에서 수피를 수증기 활성화시키면, 시판 1급 활성탄과 유사한 1,000 ㎡／g 이상의 비표면적을 나타내는 활성탄을 제조할 수 있었다. 로타리식 수평로에서 제조된 활성탄은 미세공에서 중세공까지 다양한 공극 분포를 나타내었다.

• Safety and Health at Work
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• 제8권3호
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• pp.250-257
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• 2017

Background: Tasks involved in traditional charcoal production expose workers to various levels of charcoal dust and wood smoke. This study aimed to identify specific tasks influencing lung function and respiratory symptoms. Methods: Interviews, direct observation, and task/symptom checklists were used to collect data from 50 charcoal-production workers on 3 nonwork days followed by 11 workdays. The peak expiratory flow rate (PEFR) was measured four times per day. Results: The PEFR was reduced and the prevalence of respiratory symptoms increased over the first 6-7 workdays. The PEFR increased until evening on nonwork days but not on workdays. Loading the kiln and collecting charcoal from within the kiln markedly reduced the PEFR and increased the odds of respiratory symptoms. Conclusion: Tasks involving entry into the kiln were strongly associated with a short-term drop in the PEFR and the occurrence of respiratory symptoms, suggesting a need for the use of protective equipment and/or the operation of an effective kiln ventilation system.

• 한국대기환경학회지
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• 제29권2호
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• pp.152-162
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• 2013

The physico-chemical characteristics and nanostructure of the aerosol samples from a coal-fired power plant, a charcoal kiln and diesel vehicles were investigated with focusing on black carbon (BC). Aerosols from the coal-fired power plant were mostly comprised of mineral ash spheres which are heterogeneously mixed. The main components of the aerosols from coal-fired power plant were calcium compounds, iron oxide, alumino-silicate without BC. The typical combustion-generated BC which shows the shape of bunch of grapes with 20~50 nm particles which were detected in aerosol particles from diesel vehicles. The nanostructure of each BC particle shows the shape of concentric circles which is comprised of closely-packed graphene layers. Aerosols from charcoal kiln were likely condensed organic carbon generated from the low-temperature combustion process.

• Journal of the Korean Wood Science and Technology
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• 제15권2호
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• pp.113-119
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• 1987

A study was conducted to determine the kiln drying schedule for hydrid aspen, This kiln drying schedule was found by oven drying method and developed by pilot testing of 2.0cm, 2.5cm, 3.0cm-thick green lumber. The results of this study were as follows: 1. Kiln drying schedule developed by oven-drying method was $T_{12}-E_5$ for 2.5cm-thick green lumber. 2. Drying times for 2.0cm-thick green lumber(127.0 percent moisture content) to 7.3 percent moisture content, for 2.5cm-thick green lumber(95.0 percent moisture content) to 9.7 percent moisture content, and for 3.0cm-thick green lumber(118.5 percent moisture content) to 10.0 percent moisture content were 45 hours, 45 hours, and 54 hours, respectively. 3. Drying rate from 90 to 10 percent moisture content of 2.5cm-thick lumber was about 0.7 times faster than that of 2.0cm-thick lumber and about 1.1 times faster than that of 3.0em-thick lumber. 4. End checks for 2.0cm-, 2.5cm-, and 3.0cm-thick green lumber occurred 95, 74 and 100 percent moisture content, respectively and reached maximum amount in 53, 41, and 60 percent moisture content, respectively. 5. No surface check and no honeycomb occurred. 6. Cupping and collapse slightly occurred and the quality of dry lumber was first.

• 한국연소학회지
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• 제19권3호
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• pp.18-25
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• 2014

Bottom ash from a coal-fired power plant is usually landfilled to a nearby site, which causes a growing environmental concern and increased operating costs. One way of recycling the bottom ash is to produce light-weight aggregate (LWA) using a rotary kiln. This study investigated the temperature profiles of raw LWA particles in a rotary kiln to identify the range of operating conditions appropriate for ideal bloating. For this purpose, a new simulation method was developed to integrate a 1-dimensional model for the bed of LWA particles and the computational fluid dynamics (CFD) for the fuel combustion and gas flow. The temperature of LWA particles was found very sensitive to the changes in the air preheating temperature and excess air ratio. Therefore, an accurate control of the operation parameters was essential to achieve the bloating of LWA particles without excessive sintering or melting.

• 동의생리병리학회지
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• 제21권5호
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• pp.1250-1259
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• 2007

Bambusae Caulis in Liquamen(BCL) has been commonly prescribed for stroke patients in the traditional Oriental medicine. So this study is aims to investigate the anti-apoptotic and neuroprotective effects of Bambusae Caulis in Liquamen(BCL) manufactured by different production process on the focal ischemia induced by intraluminal filament insertion in rats. The focal ischemia was induced by intraluminal filament insertion into middle cerebral artery. The animals were divided into four groups (n=15 in each group). The ischemia induced and not treated group : Control group, the ischemia induced and oral medication of the three kinds of BCL : BCL-A group, BCL-B group, BCL-C group. BCL-A was produced by heating at a low temperature$(250^{\circ} C)$ in electric kiln and filtering. BCL-B was produced by heating at a high temperature$(900^{\circ} C{\sim}1,000^{\circ}C)$ in yellow earth kiln and refining and filtering. BCL-C was produced by heating at a low temperature$(400^{\circ} C)$ yellow earth kiln and no refining and filtering. The anti-apoptotic and neuroprotective effects of the oral medication of BCL were observed by Bax, BCL-2, cytochrome c, mGluR5, cresyl violet and ChAT-stain. Our study suggests that BCl-A(was produced by heating at a low temperature in electric kiln and filtering) and BCL-C(was produced by heating at a low temperature in yellow earth kiln and no refining and filtering) show anti-apoptotic and neuroprotective effects on the focal ischemia induced by intraluminal filament insertion in rats and BCL-C is more effective than BCL-A.

• Asian Journal of Atmospheric Environment
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• 제8권1호
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• pp.15-24
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• 2014

The capital city of Himalayan Country Nepal, Kathmandu Valley is surrounded by consecutive high mountains, which limits the air distribution and mixing effects significantly. It in turn generates steady air flow pattern over a year except in monsoon season. The air shed in the Valley is easily trapped by the surrounded mountains and the inversion layer formulated as the cap. The $PM_{10}$ concentration was noticeably higher than the standard level (120 ${\mu}g/m^3$) in urban and suburban area of Kathmandu valley for all seasons except monsoon period. The Valley area experiences similar wind patterns (W, WWS, and S) for a year but the Easterly wind prevails only during the monsoon period. There was low and calm wind blows during the winter season. Because of this air flow structure, the air emission from various sources is accumulated within the valley air, high level of air pollution is frequently recorded with other air polluted cities over the world. In this Valley area, brick kilns are recognized as the major air pollution source followed by vehicles. Mostly Bull Trench Kiln (BKT), Hoffman Kiln and Vertical Shaft Brick Kiln (VSBK) are in operation for brick firing in Kathmandu valley where the fuels such as crushed coal, saw dust, and natural gas are used for processing bricks in this study. Tool for the Reduction and Assessment of Chemical and Other Environmental Impacts (TRACI) was used for screening and quantifying the potential impacts of air emission from firing fuels. The total Environmental Performance Score (EPS) was estimated and the EPS of coal was approximately 2.5 times higher than those of natural gas and saw dust. It is concluded that the crushed coal has more negative impact to the environment and human health than other fuel sources. Concerning the human health and environment point of view, alternative environment friendly firing fuel need to be used for brick industry in the kiln and the air pollution control devices also need to be applied for minimizing the air emissions from the kilns.

• Journal of the Korean Wood Science and Technology
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• 제43권6호
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• pp.784-791
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• 2015

소나무 원판에 polyethylen glycol (PEG)를 주입시키면 건조 중 횡단면할렬을 막을 수 있다. 본 연구에서는 건조온도와 아세틸화처리가 PEG처리 목재에 미치는 효과를 조사하고자 다양한 온도에서 건조한 소나무 원판의 PEG잔류율(PPR)을 아세톤추출과 조습처리를 통해 측정하였다. 아세톤추출법으로 구한 PPR은 열기건조시편이 천연건조시편보다 최하 4배 높았으며, 열기건조시편은 변재의 잔류PEG율이 심재보다 2배 정도 높았다. 이러한 결과는 조습처리실험을 통해 검증되었다. 아세틸화처리에 의한 열기건조시편의 중량변화율(WPC)은 천연건조시편 보다 훨씬 적게 증가하거나 오히려 감소하였다. 무수초산이 잔류 PEG를 용출시켰기 때문으로 밝혀졌다. 따라서 PPR을 높이려면 열기건조하는 것이 천연건조보다 유리하나 아세틸화처리는 대부분의 PEG를 용출시켜 천연건조와 차이를 나타내지 않는다.