본고는 澹軒 河禹善(1894~1975)의 생애와 시세계를 고찰할 목적으로 작성되었다. 담헌은 19세기 말에 태어나 일제 강점기와 근대화의 시대를 거쳐 20세기 후반에 세상을 마쳤다. 한문학이 막을 내린 이후의 시대를 살았던 인물이다. 樂窩 河弘達 이후 남명학을 계승해온 하동군 옥종면 안계마을이 그의 고향이다. 담헌은 젊은 시절 일제의 단발령에 저항하며 경남의 각지를 떠돌아다녔으며, 이후로도 혼란한 시대에 ‘敬義’로 표상되는 남명정신을 근간으로 선비의 본분을 잃지 않으려 평생 노력하였다. 때문에 그의 시에는 심성 수양, 남명에 대한 존숭과 유교지식으로서의 처세, 강점기 시대의 세태에 대한 개탄 등이 들어있으며, 근대화 시기의 서울 풍경도 담겨있다. 요컨대 담헌의 삶과 문학에서 혼란한 시대를 살아간 마지막 남명학 계승자의 모습을 발견할 수 있다.

컨테이너 터미널에서 한정된 공간에서 공 컨테이너를 선사별, 컨테이너 종류별로 구분하지 않고 혼적하여 보관하면 장치공간은 효 율적으로 활용할 수 있지만 재취급이 증가하는 문제가 발생한다. 본 연구에서는 여러 가지 보관 전략에 따른 장치장에 공 컨테이너가 섞여 있는 상태와 반출 작업에 사용하는 야드 장비에 따라 재취급의 기대 횟수를 추정하는 수식을 유도하고 수치실험을 통하여 비교하였다. 인출비율과 수리비율 변화에 따른 기대 재취급 횟수 변화도 분석하였다. 그리고 장치 규모 변화에 따른 기대 재취급 횟수를 비교하고, 복수 선박의 컨테이너가 혼재된 상태에서 장치비율 및 인출비율 변화에 따른 기대 재취급 횟수를 분석하였다. 공 컨테이너 대상 기대 재취급 횟수를 고려한 효율적인 운영전략에 대한 연구가 필요하다.

The purpose of this study is to characterize the synoptic climatic patterns of extreme humansensible temperature (HST) events in Jeju Island, Korea under a subtropical climate condition as well as to examine their teleconnections with the large-scale climate systems. According to the extreme case analysis of the recent 30 years (1988-2017) data sets, the maximum daily average HST in the coastal areas of Jeju Island can rise up to about 40°C in mid-summer and even up to about 48°C during mid-daytime. These extreme HST events occur when the expansion of subtropical Pacific high pressure toward East Asia as well as the poleward shift of the Changma front provides hot and humid conditions over Jeju Island surrounded by seas, particularly in La Niña years with a positive (+) Arctic Oscillation mode. In contrast, the intensified western high and eastern low dipole pressure pattern in mid-winter, which accompanies the downward shear of upper tropospheric cold air toward the southern region of the Korean Peninsula under a negative (-) Arctic Oscillation mode, provides favorable conditions for frequent low HST extreme events. These conditions can lower daily average HST as much as -10°C in the coastal region of Jeju Island, and lower nighttime HST by -25°C on the peak areas of Mt. Halla due to wind chill effects. These findings will be used as a base for establishing prediction and warming systems of extreme HST events on Jeju Island, which is needed to mitigate the damage to the lives of Jeju residents and tourists under climate change.

방사선 치료 시 환자는 부득이하게 산란선과 누설선에 의한 2차 방사선 피폭을 받게 된다. 진단용 방사선의 경우 진단참조준위로 환자의 피폭을 줄이기 위한 가이드라인을 제시하고 있지만 치료용 방사선의 경우 2차 방사선에 의한 피폭선량이 상당함에도 불구하고 상한치 설정 시 치료 효과의 저감을 이유로 선량을 제한하지 않고 있다. 이에 본 연구는 선형가속기를 이용한 방사선 치료 시 원거리 조직에서 환자가 받을 수 있는 2차 방사선을 형광유리선량계로 측정하였으며 형광유리선량계의 빌드업 특성에 따른 형광량의 포화도를 측정하였다. 연구 결과 조사야 경계로부터 거리가 멀어질수록 피폭선량은 급격히 줄어들었으며, 두부 1 Gy 조사 시 경부 18.45 mGy, 경부 1 Gy 조사 시 두부 15.55 mGy, 흉부 1 Gy 조사 시 경부 14.26 mGy, 골반 1 Gy 조사 시 흉부 1.14 mGy로 피폭되었다. 형광량의 포화도는 판독시점에 따라 1.8 ~ 4.8% 정도 과대평가 될 수 있음을 확인하였다.

의료수준의 향상과 더불어 환자들의 첨단의료장비에 대한 기대수준이 증가하고 있으며 특히 자기공명영상(Magnetic Resonance Image : MRI)은 현재 모든 임상 분야에서 가장 핵심적인 영상진단 도구로서 사용되고 있다. 그러나 검사 중에 발생하는 심각한 소음으로 많은 환자가 심리적인 불안을 경험한다고 한다. 이에 본 연구에서는 자기공명영상검사실의 기존 헤드셋 흡음재에서 차음재를 추가한 헤드셋의 소음저감평가와 차음재별 영상 아티팩트(artifact) 유무를 알아보고자 하였다. 3D 프린팅한 헤드셋 내부에 흡음재(스펀지)와 차음재(아크릴판, 구리판, 3D copper plate)를 교차 배열하여 MRI 검사소음을 녹음하여 스피커로 같은 dB 값의 소음을 발생시키며 3D 프린팅 된 두부모형의 내부에 소음측정기로 dB 값을 측정하여 정량분석을 하며 자체 제작한 헤드셋을 물팬텀에 밀착시킨 후 MRI영상 아티팩트 유무를 검사한다. 드셋의 정량평가를 한 결과, 헤드셋 평균 dB 값은 81.8 dB 로 나타났으며, 차음재를 추가한 헤드셋에서 가장 방음효과가 뛰어난 재료조합(구리, 아크릴판, 스펀지, 스펀지) 헤드셋의 평균 dB 값은 70.4 dB 값이 측정되었지만 MRI 시뮬레이션 결과 구리가 반자성체이기 때문에 아티팩트가 나타나 배제하였고 두 번째로 방음효과가 뛰어난 (스펀지, 아크릴판, e-copper plate, 스펀지) 헤드셋의 평균 dB 값은 70.6 dB 값이 측정되었고 MRI 시뮬레이션 결과 인공물 나타나지 않았다. 구리분말이 약 40%가 포함된 e-copper PLA로 출력한 재료를 동일하게 시뮬레이션을 한 결과 인공물 나타나지 않았으므로 3D 프린팅 재료의 사용이 적합하였고 구리보다 경제성이 우수하며 가공이 용이하므로 적합한 재료로 선정하였다. MRI관련 연구에 있어 3D 프린팅을 이용한 상호발전이 매우 기대된다.

Background : This study was carried out to investigate the differences of growth characteristics, photosynthetic rate and ginsenoside content of Panax ginseng C. A. Meyer according to the covering materials during house cultivation. Also the results of this study will be used as basic data for the standardization of ginseng house cultivation. Methods and Results : This experiment site was conducted from March to October, 2017 in the house located in Jinan - gun, Jeollabuk-do. The ginseng cultivar used in the experiment was a violet stem variant of 4-years-old. There are three kinds of covering materials used in the experiments: polyethylene (PE) film, scattering film, and blue-white film. PE film and the scattering film were first coated with 85% of light shielding net after the first installation, and then secondly coated with 75% and 30% of the light shielding net respectively in the middle of May when the house temperature reached 25℃. The blue-white film was cultivated after the initial installation without further treatment. The light transmittance of each covering materials were in the order of scattering film (14.5 ± 1.5%), blue-white film (10.0 ± 1.0%) and PE film (6.7 ± 1.0%). The average photosynthetic rate of each treatment was in the order of scattering film (2.94 μmol CO2/㎡/s), blue film (2.71 μmol CO2/㎡/s) and PE film (2.34 μmol CO2/㎡/s). Aboveground growth characteristics of ginseng were good in a scattering film and blue-white film. Root weights were found in the order of scattering film (47.1 g/plant) > blue-green film (41.3 g/plant) > PE film (37.6 g/plant). Conclusion : In order to select proper covering materials for ginseng house cultivation, the growth and photosynthetic characteristics of each treatment were compared with each other in order of scattering film, blue-white film and PE film. The photosynthetic rate of each treatment was measured according to the growing season. PE film was relatively low during the entire growth period. In the case of scattering film and blue-white film, the rate of photosynthesis was higher in the scattering film with high light transmittance until May, but showed a similar tendency after July. As a result, the difference in the growth characteristics of ginseng is thought to be due to differences in photosynthesis and assimilation according to the coating materials.

Background : Cynanchum wilfordii is a perennial species of climbing vine belonging to the family Asclepiadaceae. Cynanchum wilfordii native to Korea has been cultivated and used for medicine with tuber root. Prevalent furrow size is 20 ㎝ in height for Cynanchum wilfordii cultivation in Korea. This experiment was carried out to find out yield and commercial characteristics according to furrow height in cultivation of Cynanchum wilfordii. Methods and Results : There were 4 furrow height of 10 ㎝, 20 ㎝, 30 ㎝, and 40 ㎝. Seedling transplanting was performed in early May with 40-day seedlings grown in pot from late March. Seedling establishment rates were similar as 96.7% - 99.7% in all treatments. Vine length, branch number, node number, stem diameter, leaf length, and leaf width were higher in furrow of 40 ㎝ and chlorophyll content was not significantly different according to furrow height. Main root number was more as 5.2 ea/plant in 20 ㎝ furrow and first lateral root number was more as 4.5 ea/plant but not significantly different in 20 ㎝ and 30 ㎝ furrow. Main root length was longer as 39.2 ㎝ and 37.0 ㎝ in 40 ㎝ and 30 ㎝ furrow height respectively. First lateral root length was longest as 25.0 ㎝ in 30 ㎝ furrow. Main root diameter was thicker as 24.9 ㎜ in 40cm furrow and thinner as 18.7 ㎜ in 10 ㎝ furrow. First lateral root diameter was thicker as 14.4 ㎜ in 20 ㎝ furrow and thinner as 11.2 ㎜ in 10 ㎝ furrow. Total yield and commercial yield in 40 ㎝ furrow were highest as 1,173 ㎏/10 a and 919 ㎏/10 a, 78.6% of total yield. Conclusion : It was considered that higher total yield and commercial yield in 40 ㎝ furrow was resulted from better aerial part growth including vine length, branch number, node number, stem diameter, leaf length, and leaf width and bigger main tuber root size.

Background : Liriope platyphylla Wang et Tang are very sensitive to the excess moisture condition and dry crops. This is why the tuberous root is big and as many as the quantity for adequate water is needed. Study of proper bed width and hight to maintain optimal moisture for the high quality and yield. Methods and Results : So this study was designed in order to find out proper bed Width and hight. Bed width were 80 ㎝, 100 ㎝, 120 ㎝ and hight were 10 ㎝, 15 ㎝, 20 ㎝. The result of an experiment, when cultivation with bed width 100 ㎝, hight 20 ㎝, In situation of growth and development, plant length and root length were long and number was plants was many than bed width 120 ㎝, hight 10 ㎝. In addition, in quantity characteristics, tuberous root number was 27 to 58 more than 31 and tuberous root length and tuberous root thickness was long and thicker. When these growth and development situation and the quantity characteristics, yield was 66 ㎏ to 252 ㎏ more than 186 ㎏ per 10 a. Conclusion : In cultivation of Liriope platyphylla Wang et Tang, when to maintain optimal moisture with bed width 100 ㎝, hight 20 ㎝ have been higher quality and yield than cultivation with bed width 120 ㎝, hight 10 ㎝.

Background : This study was carried out to secure technology for stable production of ginseng by developing technology to reduce the high temperature in response to climate change. Methods and Results : Polyethylene film (PE film), scattering film and blue-white double-sided film (85% shading rate) were tested for ginseng rain-shielding materials. The shading materials used were a black shading net (90% shading rate) in the first, and an aluminum screen (40% shading rate) in the second. The first shading materials were installed on April 10 with PE film + black light shielding net, and scattering film + black light shielding net. As the treatment for high temperature injury relief, an aluminum screen was installed under a scattering film + black light shielding net and a blue-white double-sided film at a high temperature. The amount of transmitted light was 12.9% at scattered film, 14.5% at double sided film, and 12.5% at PE film when the primary rain-shielding material was covered. In secondary shading, scattering film + aluminum screen and blue-white double-sided film + aluminum showed 8.6% and 7.6% of light transmitting, respectively. In the case of temperature, the average temperature was lower than the outside temperature at the scattering film + aluminum screen, clear double sided film + aluminum screen and PE film recovery. The differences among the cultivars were significant in plant height, stem height, stem diameter, leaf length, leaf width and leaf area. There were significant differences in the plant height, stem height, leaf length, and leaf width between treatments, but there was no interaction effect between varieties and treatments. The interactions between treatments were found only in the number of brach root. Conclusion : High temperature damage was influenced by the amount of irradiation in the facility rather than the temperature, which was presumed to be due to the accelerated aging of the ginseng leaf as the light transmittance increased.

Background : This study was conducted to investigate the effect of inorganic compounds (germanium etc) on the characteristics of growth and ginsenoside contents in Korean ginseng (Panax ginseng C. A. Meyer) cultivated in plastic houses. Methods and Results : The experiments were performed in the Jinan (elevation: 300 meters above sea level). Seedlings (n = 72 per 3.3㎡) of Korean ginseng cultivar were planted on March 23, 2015. Shading material of plastic house was blue-white vinyl. From May to September of each year, 500 and 1,000 times diluted solution of germanium and silicate and these mixed solutions were drenched once a month. The chemical properties of the soil are as follows : pH, EC, organic content, and P2O5 of the soil were within the proper range, and the Mg content of the Ex-cations was lower than the standard value in 3 treatments, including 500 times solution of silicate. The rate of photosynthesis in Korean ginseng leaves were 2.2 - 2.5 μmole CO2/㎡/s in germanium and silicate treatment than in the non-treatment (1.5 μmole CO2/㎡/s). In the mixed treatment of silicate and germanium, the growth characteristics of the aerial parts (leaf and stem) of the Korean ginseng plants tended to be higher and longer than the other treatments. In a mixed germanium and silicate treatment, the root length was 33.3 ㎝, diameter was 23.5 ㎜, and the weight was the best at 53.8 g. The ginsenoside content was 16.8 ㎎/g in germanium treatment, 16.3 ㎎/g in germanium + silicate treatment. These were 37% and 33% higher than the control, respectively. The incidence of disease such as Alternaria panax was less in the inorganic treatment than in the non-treatment, and the incidence of disease was significantly decreased in the treatment with germanium + silicate. Conclusion : By soil drench of inorganic ingredients in Korean ginseng plastic house cultivation, the growth of the aerial and root parts in ginseng were more improved than non-treatment and ginsenoside content was increased and decreased the incidence of disease.

Background : The purpose of this study was to establish the optimum organic compost composition and fertilizer application for nutrient management during the cultivation of Korean ginseng (Panax ginseng C. A. Meyer) in the greenhouse. Methods and Results : Wood chips, popped rice hulls, and mixed expeller cake were mixed with certain contents, fermented microorganisms were added, and fermented for about 100 days to produce organic composts. Organic compost was applied to the greenhouse soils at a rate of 1,500 – 3,000 ㎏/10 a, and the Korean ginseng seedlings were planted (2015) and cultivated. The growth and quality characteristics of 4-years-old Korean ginseng were investigated as follows. In all treatments, the emergence date were April 17, and the emergence rate were 70 - 74%. Soil chemical properties such as pH (6.7 - 6.8) and trace element Ca (7.9 - 9.2 cmol+/㎏) were higher than the standard values, and EC, P2O5 and OM were appropriate. Disease incidence rate were less than 0.2% in the control (treatments of livestock manure compost 1,500 ㎏/10 a) and treatment 3 (wood chips 60% + popped rice hulls 40%), but there were no disease in other treatments. Plant growth such as plant height, leaf length, and stem diameter were superior to treatment 1 (wood chips 20% + popped rice hulls 80%), and growth of underground part such as root length were excellent in treatment 1 as a whole. In particular, in the application of 1,500 - 2,000 ㎏ of treatment 1, root weight (39.9 g, 42.3 g/plant, respectively) were superior to the other treatments. In general, as woodchip content and usage amount increase, root weight tended to decrease. Conclusion : It is considered appropriate to apply 1,500 - 2,000 ㎏/10 a of fermented compost of organic material which is mixed with wood chips (20%) and popped rice hulls (80%) with mixed expeller cake when growing Korean ginseng in the plastic house covered with blue-white vinyl.

본 연구에서는 체질량 지수에 따라 각기 다른 관전압을 적용하여 비뇨기계 CT 검사 시 체질량 지수 적용의 유용성을 평가하고자 하였다. A그룹(n=38)은 체질량 지수가 25 이하이며 관전압 100 kVp로 검사하였고 B그룹(n=45)은 체질량 지수가 25 이상이며 관전압 120kVp로 검사하였다. C그룹(n=37)은 체질량 지수가 25 이하이며 관전압 120kVp로 검사하였다. 체질량 지수가 25 이하로 낮은 A그룹(100 kVp)과 C그룹(120kVp)의 두 그룹간 평균 선량의 차이는 214.8 mGy·cm의 차이를 나타내었으나 정성적 평가에서는 큰 차이가 없음을 확인할 수 있었으며 체질량 지수가 25이상인 환자군과 비교하여서는 오히려 좋은 결과를 확인할 수 있었다. 따라서 체질량 지수가 25 이하로 낮은 환자는 관전압을 100 kVp 로 낮추어 촬영하여도 영상의 질에는 부정적인 영향을 주지 않음을 알 수 있다.

국내 남성에게서 많이 발생하는 전립선암을 대상으로, 근접치료 시 나노입자 사용에 따른 선량을 평가하여 기초자료를 제시하고자 하였다. 선량평가는 몬테카를로 시뮬레이션 기법인 MCNPX 프로그램을 이용하였다. 선원은 국내 HDR장비에 다용하는 192Ir으로 선정하고 나노입자는 금, 가돌리늄, 산화철, 요오드를 사용하였다. 그 결과 표적장기인 전립선은 나노입자를 사용 시, 사용하지 않은 경우에 비해 모두 흡수선량이 높게 나타났다. 특히 금 나노입자가 3.13E-03 J/kg·e의 값으로 가장 높았다. 주변장기 및 주변인에 대한 선량은 나노입자 사용에 따른 차이가 크지 않은 것으로 나타났다. 나노입자 사용은 치료가능비를 상승시켜 치료효율을 증가시킬 수 있을 것으로 판단된다.

This study was carried out on the upgrading of the noise barrier top device developed by 400km/h high speed railway infra research. By modifying the inner shape of the top device installed on noise barrier top, the performance of the first-stage top device was improved, and the weight was greatly reduced as compared with the first stage top device. In addition, the upper part was completed without an installation fixture by the integral method, and the construction was greatly improved. Finally, the upgraded top device was installed on the HONAM high speed railway site and its performance was verified.

The 'Housing Act (‘14.04), which permits the remodeling of old apartment buildings, has been implemented. In particular, vertical remodeling is generally implemented by adding 2~3 floors above the top floor of existing apartments. Technically, it is necessary to reinforce the existing pile due to the increase of vertical, horizontal, seismic load, etc. However, the existing piles are loaded simultaneously and so each pile was constructed at limited base space for application of reinforcement method. The bearing capacity of existing piles decreases due to vertical expansion so the bearing capacity of the piles must be confirmed by the indirect method(laboratory test etc.) in the first safety diagnosis and by the direct method(field test etc.) in the second safety diagnosis.

This paper presents the influence factors of heat transfer in a voided slab under fire situation. The effects of a void in a slab on heat transfer are presented and the results are quantitatively analyzed for each influence factor. For this purpose, the finite element analysis method was used to evaluate the influence of the heat transfer factors on the thermal characteristics in a voided slab. Based on these results, the influence factors which have significant difference in the temperature spectrum were derived.

Blast-resistant doors are installed to protect human life, precious equipments and materials in the plant and other similar industrial facilities, national important SOC, evacuation facilities and military shelter. In this study structural type and design consideration for blast-resistant doors are reviewed to design a bullet- and blastproof structures including doors.

Recently, because of the increased needs for isolation device structure, a lot of buildings equipped with isolation systems are designed. In this paper, we provide the information about the seismic isolation effects due to the stiffness variation of isolation devices due to the manufacturing errors for middle layer seismic isolation.

In order to complement the defects of a ballasted track requiring continuous maintenance and a concrete track where the initial construction cost is expensive, research on an asphalt concrete track that is easy to maintain, economical and environmentally friendly is underway. In order to investigate the safety and the applicability of the asphalt concrete track, the test construction was carried out on the Kyeongbuk line. In this study, when the Mugunghwa train runs on the asphalt concrete track, the wheel load and lateral wheel load measured through the sensors installed at the rails were analyzed. As a result of the analysis, it was confirmed that the track performance test standard was satisfied.

In the case of the port mooring facility, jetties with piles are mainly applied in soft ground conditions. In the three-dimensional modeling for the structural analysis of jetties with piles, the boundary conditions between the pile and the ground are universally applied to the Approximate depth of pile supported method and Elastic subgrade reaction spring method. In this study, p-y curve data for the pile ground condition was generated using the LPILE program, and then the nonlinear spring considering the p-y curve as the pile and ground boundary condition was input and analyzed in the 3D modeling of jetties with piles using the MIDAS civil And the necessity of applying the Nonlinear subgrade reaction spring method by comparison with the result and the analysis result according to the existing analysis method is suggested.