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Schiller의 美學思想에 對한 考察 : 獨逸觀念主義 哲學의 傳統위에서
林太默 慶北工業專門大學 1971 論文集 Vol.8 No.-
Hegel은 藝術美를 올바로 理解하기 爲해서는 必然과 自由, 特殊와 普遍, 感覺的민 것과 理性飽인 것을 統一해야만 한다는 立場에서 Kant嶺學의 缺點을 고처 나가는데서 비롯해야 한다고 그의"美學'에서 말하고 나서 繼續해서 다음과 같이 Schiller의 功績 對해서 言及하고 있다. "그러므로 深遠한 精神-이것은 藝術錡인 同時에 哲擧的이었는데-의 藝術感은, 그것이 專門飾 哲學의 諒定을 딴기 前에도. 金繼와 調和의 原則을 要求했고 또 宣言했다. 그렇게함으로서 그것은Kant의 油象締연 鳳唯의 無限性. 그의 義務를 爲한 義務, 그의 空虛한悟性-이것은 自然과蠶在, 感覺과 感情을 다만 限界로서, 그 自身에 絶對論으로 敵對約인 그러므로 反對되는 어떤 것으로서 說明한다-과 對立된다. Kant의 主觀性과 抽象的인 恩考를 깨뜨리고 統一과 和解를 眞理라고 賢明하게 理解함으로서, 그리고 藝術의 템에 依하여 그 練一과 和解를 現責的인 것으로 만들므로서 果戰히 그것을 超克할려고 試圖한 것은 Schiller의 翁續이다‥‥‥‥ 그런데 Schiller가 藝緖의 原理와 本質이라고 科學的으로 把握했고 藝術과 美時文化에 依하여 不斷히 吏命化할려고 努力했던 이 普遍파 特殊, 自由와 必然, 精神的인 것파 自然飾인 것의 統一은 뒤에 그 自身 理念으로서, 卽 唯一한 眞理와 現實로서 認定된 理念으로서 短識파 存在의 原理로 確立되었다. 學閣이Schelling에게서 그絶對的민 經據를 얻게 된 것은 이것을 認定함으로서었다. "(Hegel, Aesthetik.I.s.78-80)
임태묵(Tae Mook Lim),김종찬(Jong Chan Kim) 대한공업교육학회 2000 대한공업교육학회지 Vol.25 No.2
As the circumstance for using the internet becomes common, the quantity of the educational web documents -- the WBI(Web Based Instruction) documents aiming the teacher or others who related to education -- has been increased. However, it is true that the developing and providing the courseware for the vocational highschool is not enough. So the development of the WBI material on metal and material test is helpful for the students who have to be trained with short or rare devices and in labs. And they can study with real pictures or animated pictures without obstruction to time and place through Internet. The material can also be used as the way for the individual self-training. By using this teaching material, we can attain sharing the information, and through the information sharing, we can save the time and money for preparing the material and can also add or complement the contents. This courseware for WBI consists of the concept, structures and the names for the parts, animations illustrating the principles, the standards for the test piece, processing the data and evaluation. It also provides the chance for students to participate in and the various materials considering individual ability to achieve the educational purpose. Especially, the animation authoring tools to explain the principles will motivate the students` interest, so they will have an active and self-oriented learning activity.
원전용 게이트 밸브의 성능특성 분석을 위한 유동해석 모델링 연구
김재형(Jaehyung Kim),임태묵(Taemook Lim),이정희(Jung Hee Lee) 한국전산유체공학회 2020 한국전산유체공학회지 Vol.25 No.4
The 3D flow analysis model on gate valve in nuclear power plant is made and validated by known experimental equation, which is the requirement of ASME QME-1 standard. The major loss on valve is calculated and compared to Swamee-Jain equation, where the error of pipe friction coefficient is within 7% error bound. The minor loss on valve is calculated but cannot be compared because of no experimental equation. So the orifice is inserted on pipe instead of valve and the differential pressure and flow rate is used to calculate the discharge coefficient (Cd value) with various size of flow passage. With the validated mesh and model, the flow analysis of gate valve was performed with changing stoke and reynolds number. The minor loss in valve is dominant when the valve is operated and the force on disk is larger with increasing reynolds number. Valve factor, which accounts the loss effect by differential pressure force, is calculated with the flow analysis result. The valve factor can be used in calculation of valve force in design and functional qualification.
원전 유압구동 균형 글로브 밸브의 정적진단시험 분석을 활용한 동적특성 모델링 및 성능평가 연구
김재형(Jaehyung Kim),박태국(Taekook Park),이상혁(Sang Hyuk Lee),류호근(Ho-Geun Ryu),임태묵(Taemook Lim),이정희(Jung Hee Lee) 한국전산유체공학회 2020 한국전산유체공학회지 Vol.25 No.3
The 1D dynamic analysis model is made and validated by static diagnosis experiment result, which is the requirement of ASME QME-1 standard. The operation of valve assembly is qualified near the closing point and that qualification result also can be used on the evaluation of operation throughout whole lift with the test based 1D dynamic analysis model. The functional qualification in partially maintained differential pressure can be used to the qualification in wholly maintained differential pressure, in which the maximum differential pressure is maintained throughout whole lifting. The flow coefficient by CFD is used in the calculation of pressure on the valve assembly. And the upper pressure in pipe is used in the calculation of the various forces on the valve body. The packing force by the effect of the fluid pressure is calculated, where the strength of packing rings and two friction coefficients between stem and bonnet and between stem and packing are used. The static diagnosis in no flow condition can be extended to the dynamic diagnosis in flow condition using the test based 1D dynamic analysis model.