• 한국버섯학회지
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• 제11권4호
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• pp.214-218
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• 2013

외부공기 유입방식에 따른 느타리버섯의 생육특성을 조사하기 위하여 3가지 처리구를 두어 실험한 결과 모든 처리구에서 재배기간 중 온도편차가 발생하였고, 처리구 모두 1, 2, 8월에 가장 높았으며, T2(열교환기)와 T3(기밀실)에서 T1(외부공기 직접유입) 보다 온도편차가 작은 경향이었다. 재배기간 중 냉방시간은 T1(외부공기 직접유입)은 1,090.3시간, T2(열교환기)는 661.1시간, T3(기밀실)은 865.0시간이었고, 평균 냉방절감율은 T1(외부공기 직접유입) 대비 T2(열교환기)는 21%, T3(기밀실)은 11%이었다. 재배기간 동안 난방기의 년중 가동시간은 T1(외부공기 직접유입)은 1,506.9시간, T2(열교환기)는 875.6시간, T3(기밀실)은 1,054.2시간으로 T2의 가동시간이 가장 작았고, 년중 평균 난방절감율은 T1(외부공기 직접유입) 대비 T2(열교환기)는 22%, T3(기밀실)은 16%이었다. 외부공기 유입방식에 따른 냉방정도(CD-H)는 T1(외부공기 직접유입)>T3(기밀실)>T2(열교환기)의 순이었고, 난방정도(HD-H)도 냉방정도(CD-H)의 경우와 동일하였다. 수량은 T2(열교환기)와 T3(기밀실)에서 T1(외부공기 직접유입) 보다 4, 9, 10월을 제외한 전 기간에서 높았다. 이와 같은 결과로 시설재배사에서 느타리버섯 병재배시 열교환기 또는 기밀실을 설치하여 재배할 경우 에너지를 절감할 수 있고, 수량 및 고품질의 느타리버섯을 수확할 수 있어 농가소득증대에 기여할 것으로 판단되었다.

• 신재생에너지
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• 제5권3호
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• pp.40-48
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• 2009

Recovered heat has been considered as a renewable energy in Europe since 2008 because its great effect on energy saving and carbon decreasing in plant process. Energy saving and decreasing green gas are critical issue today, so various technologies to save energy and decrease carbon dioxide in plant process have been applied to many industrial area. In this paper, the feasibility of condenser heat recovery by heat pump in power plant for district heating and fuel line preheating were reviewed by verifying energy (heat) balance and mass balance of power plant model. Some ways to compose proper system to recover heat of condenser are suggested and their possibilities are also reviewed. Limitations on heat recovery in power plant are also reviewed. The results are verified by calculating input/output energy based on actual performance test data of Taean Thermal Power Plant in Korea. There is noticeable improvement of plant performance in some cases which demand low temperature (<100 C) heat like distrcit heating, fuel line heating, and so forth.

• 대한기계학회논문집B
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• 제21권1호
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• pp.15-23
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• 1997

An experimental investigation of two-dimensional steady natural convection cooling in a vertical open top cavity with conducting side walls of finite thickness is presented. The various heat-generating discrete heaters are located on one vertical wall of the cavity. When each heater dissipates different amount of power, the purpose of the work is to obtain the optimal array condition of the heaters. The four cases of non-uniform heating conditions are considered. The temperature fields in the cavity were visualized by the interferometer and local temperatures of the vertical wall were measured by thermocouples. The heaters were arranged in two configurations: flush-mounted on a vertical wall or protruding from the wall about 4.5 mm. The vertical wall was constructed out of copper or epoxy-resin sheet. Experiments have been conducted for air with constant Prandtl number(Pr=0.7), the aspect ratio of 4.6, 7.5, 9.5, power input in the range of 0.9 W ~ 4.2 W. For the enhancement of the cooling effectiveness, the upper and lower of vertical wall would give the better position for the heaters of higher heat flux.

• 에너지공학
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• 제5권2호
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• pp.203-208
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• 1996

본 연구에서는 감손우라늄칩을 처리하기 전의 시험단계로서 감손우라늄칩의 산화처리시 발생되는 산화열에 의한 산화장치 내부의 온도상승 및 외부로의 열전달을 해석하기 위해 산화장치 내부에 히터를 설치하여 실험을 수행하였다. 히터의 발생열량을 달리하면서 시간에 따른 열전달 특성을 알아내기 위하여 열유속, Nusselt 수, Grashof수와 Rayleigh 수를 구하고, Nusselt 수와 Rayleigh 수의 관계를 구하였다.

• 한국생물환경조절학회:학술대회논문집
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• 한국생물환경조절학회 1999년도 정기총회 및 학술논문발표요지
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• pp.9-14
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• 1999

1. LPG 온풍기는 용량 16$\times$$10^4$ ㎉ 건타입가스버너, 연소부 및 열교환부, 6개의 50kgLPG탱크와 자동절체기, 가스메타, 배관으로 구성하였다. LPG 온풍기의 이론연소효율은 91%, $CO_2$ 배출량은 11.74%, CO배출량은 0ppm, 과잉공기비는 1.16, 배기가스온도는 253$^{\circ}C$, 온풍온도는 8$0^{\circ}C$로서 우수한 성능으로 나타났다. 2. LPG온풍기에서 배출되는 배기가스중의 $CO_2$ 를 온실로 공급하기 위하여 $CO_2$ 공급기를 제작하여 배출가스연도에 부착하였다. $CO_2$ 공급기는 흡입형 시로코팬(1200㎥/h)과 차단문으로 이루어졌다. 1-2W형 300평 온실내의 $CO_2$ 농도를 1000ppm으로 올리기 위해서는 $CO_2$ 공급기를 약 1시간 정도 운전시켜야 할 것으로 판단되었다. 3. LPG온풍기와 경유온풍기의 경제성 비교분석에 의하면 현 시점의 경유 가격 242원, LP가스 가격 435원을 기준으로 연간소요비용은 각각 5,392,430원, 5,299,917원으로 경유온풍기가 10만원 정도 경제적이지만 탄산가스 시용비용, 탄산가스 공급으로 인한 작물의 수량증대 및 고품질 생산물을 고려한다면 LPG온풍기 사용이 더 경제적이라 사료된다.

• 대한기계학회논문집A
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• 제21권3호
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• pp.519-527
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• 1997

AISI 316 steel has been used extensively for heater and boiler tube of the structural plants such as power, chemical and petroleum plants under severe operating conditions. Usually, material degradation due to microcrack or precipitation of carbides and segregation of impurity elements, is occured by damage accumulated for long-term service at high temperature in this material. In this study, the effect of aging time on fracture toughness was investigated to evaluate the measurement of material degradation. The elastic-plastic fracture toughness behaviour of AISI 316 steel pipe aged at $550^{\circ}C$for 1h-10000h (the aged material) was characterized using the single specimen J-R curve technique and eletric potential drop method at normal loading rate(load-line displacement speed of 0.2mm/min) in room temperature and air environment. The fracture toughness data from above experiments is compared with the $J_{in}$ obtained from predicted values of crack initiation point using potential drop method.

• 한국자동차공학회논문집
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• 제7권6호
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• pp.1-7
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• 1999

In this study, the prediction method of coolant flow rates has been developed and applied to an engine and vehicle cooling system. The flow rate passing through each component of the system is very important parameter to evaluate the heat transfer process form the combustion gas to the coolant and the heat rejection process form the radiator /heater to the ambient air. However, the present study reveals that the measurement using the flowmeter fails to give practical flow rates due to its additive resistance. In contrast, the present method which uses the parallel and serial relationship of flow resistance proved to be a good tool to predict the real flow rates. It can be also used to design the cooling system in the incipient stage of engine/vehicle development . The procedure was coded to the computer program so as to use it flexibly and, in the future, to expand it into an independent design tool of the whole cooling system including the heat release and rejection.

• 한국추진공학회:학술대회논문집
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• 한국추진공학회 2011년도 제37회 추계학술대회논문집
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• pp.584-587
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• 2011

마하 5 스크램젯 엔진에 대하여 연소 시험에 대한 예비 시험 성격으로서 연료 분사 없이 내부 유동 공력 시험을 수행하였다. 엔진은 흡입구 크기 $70mm{\times}200mm$, 전체 길이 1.7m의 시험용 모델을 대상으로 하였다. 설비는 한국항공우주연구원이 자체 설계 개발하여 보유한 불어내기식 극초음속 시험 설비를 사용하였다. 측정은 엔진 내부 유로를 따라 19개 지점에서 압력을 측정하였다. 시험 결과 본 엔진 모델을 사용하여 설비 시동이 가능하였으며 엔진 내부는 초음속 유동이 유지됨을 확인하였다.

• 한국태양에너지학회:학술대회논문집
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• 한국태양에너지학회 2008년도 추계학술발표대회 논문집
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• pp.214-219
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• 2008

This study is describes thermal performance of solar cooling and hot water for demonstration system with ETSC(Evacuated tubular solar collector) installed at Seo-gu culture center of Kwanju. Control condition for solar cooling and hot water system is changed by connection of auxiliary heater. Demonstration system was connected to central air conditioning system. Demonstration system was operated by two types. First type(A) was operated to cooling and hot water supply in that order. Second type(B) was operated to hot water supply and cooling in that order. As a result. it was indicated that the total solar energy consumption of (A) was 799 MJ and the solar energy consumption rate for the cooling and hot water supply was 70% and 30% respectively. Total solar energy consumption of (b) was 898 MJ and the solar energy consumption rate for the cooling and hot water supply was 31% and 69% respectively.

• Advances in Energy Research
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• 제4권1호
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• pp.29-45
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• 2016

There has been a growing interest in the recent time for the development of solar power tower plants, which are mainly used for utility scale power generation. Combined heat and power (CHP) is an efficient and clean approach to generate electric power and useful thermal energy from a single heat source. The waste heat from the topping Brayton cycle is utilized in the bottoming HRSG cycle for driving steam turbine and also to produce process steam so that efficiency of the cycle is increased. A thermal storage system is likely to add greater reliability to such plants, providing power even during non-peak sunshine hours. This paper presents a conceptual configuration of a solar power tower combined heat and power plant with a topping air Brayton cycle. A simple downstream Rankine cycle with a heat recovery steam generator (HRSG) and a process heater have been considered for integration with the solar Brayton cycle. The conventional GT combustion chamber is replaced with a solar receiver. The combined cycle has been analyzed using energy as well as exergy methods for a range of pressure ratio across the GT block. From the thermodynamic analysis, it is found that such an integrated system would give a maximum total power (2.37 MW) at a much lower pressure ratio (5) with an overall efficiency exceeding 27%. The solar receiver and heliostats are the main components responsible for exergy destruction. However, exergetic performance of the components is found to improve at higher pressure ratio of the GT block.