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한인규 ( I K Han ),김현욱 ( H U Kim ),육종융 ( C Y Yuk ),허환녕 ( H Y Huh ) 한국축산학회 1968 한국축산학회지 Vol.10 No.1
This experiment was conducted to develope a method of detection for adulteration of raw milk with spray-dried milk powder. Five ㎖. of milk to be tested was treated with 4 ㎖. of 15% ammonium moybdate solution (w/v). After being shaken, the tube was heated at 77.50℃ for 90 minutes. In order to estimate the intensity of color, the methods involved diluting the 3 ㎖. of the sample treated above to 15 ㎖. with distilled H₂O, precipitating with 10% TCA solution and filtering. The degree of blue color developed upon heating was measured by the coleman spectrophotometer at 490 mμ and hemoglobinometer. An attempt was made to explain the mechanism for which the blue color was developed. The results obtained are summarized as follows; I. Raw milk resulted a light color, whereas the milk which has been reconstituted with spray-dried milk powder gave a deep blue color. There was a highly positive correlation (r=0.94) between the amount of spray-dried milk added in raw milk and intensity of blue color developed. Results revealed that this method could be used to detect 4% of addition of reconstituted milk with spray-dried milk powder. 3. It was also found that there was a positive correlation (r=0.97) between adulteration and Hb-meter reading. Eight percentage or more of adding reconstituted milk could bed erected by Hb-meter reading. 3. It was also found a straight linear relationship (r=0.95) between intensity of blue color and reducing capacity of milk. The reducing capacity of spray-dried milk was much higher than that of raw milk. 4. The cause of developing blue color described in this method could be resulted from the occurrence of inorganic phosphate and reducing capacity of the milk and the difference in blue color was due to the difference in reducing capacity between raw and reconstituted milk.
DOE를 적용한 WC(Co 0.5%)의 최적 연삭가공조건 연구
김현욱(H. U. Kim),정상화(S. H. Jeong),차두환(D. H. Cha),안준형(J. H. Ahn),김상석(S. S. Kim),김혜정(H. J. Kim),김정호(J. H. Kim) 한국정밀공학회 2006 한국정밀공학회 학술발표대회 논문집 Vol.2006 No.5월
In recent years, the demands of the aspherical glass lenses increase since it is difficult to obtain the desirable performance in the plastic lens. Glass lens is manufactured by the forming with high precision mold core. This paper presents the analysis of optimal grinding condition of tungsten carbide(WC, Co0.5%) using design of experiments(DOE). The process parameters are turbin spindle, work spindle, feedrate and depth of cut. The experiments results are evaluated by MINITAB software.
표층수온도 변화에 따른 R717용 해양온도차발전 사이클의 성능 비교
김현욱(H.U.Kim),윤정인(J.I.Yoon),백승문(S.M.Baek),손창효(C.H.Son),김현주(H.J.Kim),이호생(H.S.Lee) 한국해양환경·에너지학회 2012 한국해양환경·에너지학회 학술대회논문집 Vol.2012 No.11
해양온도차발전 사이클 증발기에 유입되는 표층수 온도로 화력발전소에서 버려지는 35℃의 온배수를 이용하는 경우와 25℃의 해양 표층수를 이용하는 경우의 사이클 특성을 서로 비교한 후, 해양온도차 발전 사이클에 화력발전소에서 버려지는 온배수를 해양온도차발전 사이클에 적용 가능한 지를 확인한다. 주요 결과를 요약하면 다음과 같다. 화력발전소에 배출되는 35℃의 온배수를 표층수로 사용한 해양온도차발전 사이클의 효율이 25℃의 표층수를 적용한 해양온도차발전 사이클에 비해 89% 이상 높게 나타났다. 따라서 화력발전소의 온배수를 해양온도차발전 사이클에 적용할 수 있음을 확인할 수 있었다. This study was performed to find out the possibility that hot waste water from a thermoelectric power plant can be applied to OTEC power cycle by comparing the performance characteristics for use of the ocean surface water (25℃) and hot waste water (35℃). Main results of this study are summarized as follows : Overall efficiency of applying hot waste water (35℃) to OTEC is 89% higher than that of surface water (25℃). Thus it could be confirmed that hot waste water of the thermoelectric power plant can be applied to OTEC.
김현욱(H.U.Kim),윤정인(J.I.Yoon),최광환(K.H.Choi),손창효(C.H.Son),백승문(S.M.Baek),김현주(H.J.Kim),이호생(H.S.Lee) 한국태양에너지학회 2012 한국태양에너지학회 학술대회논문집 Vol.2012 No.11
In this paper, the performance analysis for condensation and evaporation capacity, total work and efficiency of 20kW ocean thermal energy conversion system using R744(CO2) is presented to offer the basic design data for the operating parameters of the system. The operating parameters considered in this study include evaporation and condensation temperature, pump and turbine efficiency. The main results were summarized as follows : when the condensation temperature is increased, the amount of heat of condensation and evaporation are increased. And when the condensation temperature is 15℃, total work and efficiency of system are reduced to 5% and 65% respectively, compared with the condensation temperature of 5℃. It is verified through this study that, in order to increase the efficiency of the system, condensation degree should be reduced and the degree of evaporation, increased.