http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
임종옥,정수영,임종수,장진,김경미,이유미,이봉우,Lim, Jongok,Jung, Su-Young,Lim, Jong-Su,Jang, Jin,Kim, Kyung-Mi,Lee, You-Mi,Lee, Bong-Woo Korean Society of Applied Entomology 2014 한국응용곤충학회지 Vol.53 No.2
직접적인 기주식물 조사와 기존 문헌자료의 기록을 재검토하여, 한국산 하늘소과(딱정벌레목: 잎벌레상과) 6아과 103속 181종의 기주식물 목록을 작성하였다. 유리알락하늘소의 새로운 기주식물로 산겨릅나무가 확인된 것을 포함하여 총 14종의 하늘소와 기주식물 관계를 구명하였다. 기주식물로 44과 107속 170종 이상이 정리되었다. 이 중, 네 과(느릅나무과, 소나무과, 참나무과, 자작나무과)가 주요 기주식물 과(하늘소 기록 종수의 23% 이상 차지)인 것으로 확인되었다. 기존 문헌들에서 기주식물과 하늘소류의 무효한 학명과 국명들은 현재 통용하고 있는 유효한 학명과 국명으로 수정하였다. A revised checklist of host plants for 181 species belonging to 103 genera in six subfamilies of Cerambycidae (Coleoptera: Chrysomeloidea) in Korea is provided on the basis of the results of field surveys and literature review. A total of 14 new cerambycid-host associations are confirmed and the Manchurian striped maple, Acer tegmentosum Maxim. (Aceraceae), is listed as a new host of the Asian longhorn beetle, Anoplophora glabripennis (Motschulsky). The names of more than 170 host plants species belonging to 107 genera in 44 families are compiled. Among them, four families (Ulmaceae, Pinaceae, Fagaceae and Betulaceae) are confirmed as the main host families (more than 23%) of most of the cerambycid species. All invalid scientific names and Korean names of plants and cerambycids in the previous literature are corrected in the present paper.
미생물 농도에 따르는 Air-Cathode MFC의 전력발생과 유기물질제거 특성
김도영 ( Do Young Kim ),임종수 ( Bong Su Lim ),최찬수 ( Chan Soo Choi ),김대현 ( Dae Hyun Kim ) 한국물환경학회 2012 한국물환경학회지 Vol.28 No.6
In order to improve applicability of a microbial fuel cell the laboratory-scale study has been performed by adopting an air-cathode MFC system with high concentrated anaerobic slugies in this study. The concentrations of microbes are grouped into three types, Type A (TS 1.7%), Type B (TS 1.1%) and Type C (TS 0.51%). The open circuit voltage (Voc) characteristics showed that the medium microbes concentration of 1.10% (Type B) kept a constant voltage of 1.0 V for 150 hours, which showed the longest time among three types (Type A and Type C). The discharge charge curves for a closed circuit with 500 Ω also showed that Type B generated a stable discharge voltage of 0.8 V for a longer time as in the open circuit voltage case. This could be explained by the relatively large amount of the attached microbes. Under the Voc condition the COD removal efficiency of Type B was found to be low for a long time, but those of Type A and C were found to be high for a short period of time. Therefore, the suspended microbes could decrease the coulombic efficiency. It was concluded that the high Voc was caused by low COD and the Voc became low after the COD removal. The COD reduction resulted in an unstable and low working voltage. From the polarization characteristics Type A was found to show the highest power density of 193 mW/m2 with a fill factor of 0.127 due to the relatively high remaining COD even after the MFC reaction.