• Proceedings of the KIEE Conference
• /
• 2002.07b
• /
• pp.1373-1375
• /
• 2002

태양광발전 시스템을 설치하여 동작상태의 데이터를 하고, 시스템을 분석하기 위한 목적의 데이터 취득 장치가 널리 이용되고 있다. 본 논문에서는 컴퓨터 기반의 데이터취득시스템(Computer-Based Data Acquisition System)의 개발에 대해 서술하고 있다. 제안된 시스템은 시스템이 설치될 곳의 환경요소(일사량, 온도 등) 및 전기적 출력 요소를 측정하기 위한 센서들로 구성하였으며, 측정된 데이터를 컨디셔닝 (Conditioning)과 변환 과정을 거친 후 데이터 취득카드를 통해 컴퓨터에 인터페이스(Interrace)시켰다. 태양광 발전 시스템의 동작상태를 실시간으로 모니터링하고, 취득된 데이터를 저장 및 분석하기 위한 목적으로 본 논문에서는 랩뷰-소프트웨어(Labview-Software)를 적용시킨 모니터링 시스템을 제안하였다. 제안된 모니터링 시스템은 그래픽화된 데이터-프로세싱 알고리즘을 사용하여, 상대적으로 짧은 기간 내에 시스템을 구현할 수 있고 시스템의 측정요소가 설치초기에 예상한 것보다 많아지거나 시스템이 용량이 증대되는 경우에도 그 적용성이 용이한 장점이 있다. 제안된 본데이터 취득 시스템을 독립형 태양광 설비에 적용하여 동작상태를 실시간으로 관찰하였고 동작특성을 분석 및 평가하였다.

• Journal of the Korean Solar Energy Society
• /
• v.22 no.3
• /
• pp.67-76
• /
• 2002

Data-Acquisition systems are widely used in Photovoltaic(PV) system application in order to analyze and optimize the performance of PV systems. In this paper, the development of a computer-based data-acquisition system and its application are described. The proposed Computer-based data-acquisition System consists of a set of sensors for measuring both environmental and electrical parameters. The collected data are first conditioned and then interfaced to PC using a data-acquisition card. The Labview program was used to further process, display on the monitor at real time and store on the hard disk. We designed and installed two stand-alone PV systems to supply different loads, which in this case a Low Pressure Sodium(LPS) 55 [W] lamp and a electrodless 55 [W] lamp. When the proposed data acquisition system is applied on the designed PV systems, Optimized system operation methods are investigated to confirm a stable load availability and extend battery life time.

• 한국신재생에너지학회:학술대회논문집
• /
• 2005.06a
• /
• pp.427-432
• /
• 2005

This study treats the advantage of in situ line source method measuring the heat transfer capacity of a borehole, using mobile equipment, to determine the thermal properties of the entire borehole system such as thermal conductivity, diffusiveity. volumetric heat capacity, and borehole thermal resistance. The results from the response test include not only the thermal properties of the ground and the borehole, but also conditions that are difficult to estimate, e,g. natural convection in the boreholes, asymmetry in the construction, etc. In this study, 1) theoretical in situ methods for assessing working fluid temperature variation in V-type PE tube have been introduced, and 2) TRTE(Thermal Response Test Equipment) has been built based on these kinds of theoretical in situ methods. Basically TRTE consists of a pump, a heater and temperature sensors for measuring the inlet and outlet temperatures of the borehole. In order to make equipment easily transportable it is set up on a small trailer. Since the response test takes above two days to execute, the test was fully automatic in recording measured data using Labview DAS(Data acquisition system) program. The test was demonstrated in the course of intensive research in this field through the one site at Ulsan city in Korea. From this kind of thermal properties test of borehole systems in situ, the design of the borehole system can be optimized regarding the total geological, hydro-geological and technical conditions at the location.