본 연구에서는 일사량에 기초한 증발량 산정방법의 적용성을 검토하기 위해 기존에 연구자들에 의해서 제안된 식들을 3가지 형태의 model group (Model groups A, B, and C)으로 분류하고, 이를 우리나라 6개 지역(서울, 대전, 전주, 부산, 목포, 제주)에 적용하였다. 증발접시 증발량 자료를 이용하여 이들 model group들의 매개변수를 추정하고, 검증하였다. 또한 Penman (1948) 조합식을 적용하여 이들 model group들과 비교하였다. 연구결과에 의하면 모든 지역에서 Nash-Sutcliffe (N-S) 효율지수가 0.663 이상을 보여서 만족스러운 증발량 산정결과를 보였다. 모 형 검증과정에서 산정된 N-S 효율지수는 모든 연구지역에서 0.526이상을 보여서 역시 만족스러운 결과를 보였으나, 부산지역에서 적용된 Model groups B와 C를 제외하고는 모두 Penman (1948) 조합식보다 작은 N-S 효율지수를 보였다. 따라서 주요 기상자료 일부(풍속, 상대습도)가 부족 하거나 측정되지 않는 경우에 증발량 산정을 위해서 Penman (1948) 조합식을 대체하여 일사량자료에 기초한 증발량 산정 방법이 적용될 수 있을 것으로 사료된다.

LFG, generated by the decomposition of wastes, is very humid and has high temperature. When it cools during its transfer in the piping system, condensate forms, blocking the flow of LFG. Typical condensate removal devices, which works on the principle of trap usually used in the sewer pipe and utilizes water to prevent the intrusion of outer gas and to drain condensate, have limitation for their uses in landfill by the evaporation of water when it comes to dry condition in the landfill. In this study we investigated the temperature distribution in the waste layer and the possibility of the evaporation of water in the trap. LFG could be cooled down or heated by the temperature of waste layers where the transfer pipe locates. Evaporation rates, estimated by the use of temperature distribution in the landfill, were high enough to cause malfunctions when the difference of temperature between LFG and waste layer is high.

The drying and fuel technologies for sewage sludge have been developed due to the prohibition of ocean dumping and new renewable portfolio standard. This study was performed to enhance the quality of sludge derived fuel and compare drying characteristics for thickened and digested sewage sludge at different temperature, pressure and mixing oil conditions in oil vacuum evaporation system. In addition to investigate calorific value and characteristic analysis of dried sludge. The thickened and digested sludge used in this study were taken from municipal sewage treatment plant and coagulated using polymer (C-310P) in laboratory. The drying rate was increased with temperature and degree of vacuum and it was 25 mL/kg-sludge·min at 110oC and –450 mmHg. The moisture content of dried sludge products showed very low within 1% in the range of 0.4 ~ 0.8%. The evaporation rate of thickened sludge was lower than digested sludge and the constant evaporation period was also shorter. Compared the effect of waste cooking oil and refined waste petroleum oil on drying efficiency, the waste cooking oil showed more effective than refined oil in evaporation rate and drying time. The carbon and hydrogen contents of dried sludge with refined oil were higher than waste cooking oil. The low heating value of thickened dried sludge was higher than digested dried sludge about 400 kcal/kg and both of dried sludge showed high calorific value more than 4,000 kcal/kg.

We compared equilibrium evaporation(Eequili) eddy-covariance(Eequili) with soil moisture data(ESMseries) which were measured with a 2 hours sampling interval at three points for a humid forest hillslope from May 5th to May 31th in 2009. Accumulations of Eeddy, Eequili for the study period were estimated as 2.52, 3.28 mm and those of ESMseries were ranged from 1.91 to 2.88 mm. It suggested that the eddy-covariance method considering the spatial heterogeneity of soil evaporation is useful to evaluate the soil evaporation. Method A, B and C were proposed using mean meterological data and daily moisture variation and the computations were compared to eddy-covariance method and equilibrium evaporation. The methods using soil moisture data can describe the variations of soil evaporation from eddy-covariance through simple moving average analysis. Method B showed a good matched with eddy-covariance method. This indicated that Dry Surface Layer (DSL) at 14:00 which was used for method B is important variable for the evaluation of soil evaporation. The total equilibrium evaporation was not significantly different to those of the others. However, equilibrium evaporation showed a problem in estimating soil evaporation because the temporal tendency of Eequili was not related with the those of the other methods. The improved understanding of the soil evaporation presented in this study will contribute to the understandings of water cycles in a forest hillslope.

산림사면에서 수문학적 과정을 이해하는데, 증발산 중 토양증발을 구분하여 규명하고 정량화하는 것은 도전적이지만 중요한 연구 주제이다. 본 연구에서는 2009년 5월 22일부터 31일까지 총 10일 동안에 습윤한 산림사면에서 세 지점에서 깊이별 토양수분을 집중 측정하고, 분석하여 토양증발과 관련 기작에 대해 연구하였다. 토양증발을 평가하는 방법은 토양수분자료의 물질수지(ESM), Penman식(1948) 그리고 수정된 Penman식(Staple (1974), Konukcu (2007), 평형증발(Eequili))이다. ESM을 계산하기 위해서는 지표면의 에너지 균형식을 이용하여 토양내의 증발깊이(DSL, dry surface layer)를 평가하였다. 그 결과, 각 지점(A, B, C)의 2시간별 10일 동안의 누적 증발량(ESM)은 약 2.09, 1.80 그리고 2.88mm으로 평가되었다. Penman식(1948), Staple (1974), Konukcu (2007), 평형증발(Eequili)의 누적 증발값은 각각 4.91, 8.80, 8.63 그리고 3.28mm으로 ESM보다 높은 값들을 보여주고 있다. 산림 내 토양증발은 직접적인 복사량과 바람의 영향보다는 낙엽층과 DSL으로인해 토양 내의온도상승과 대기와의 상호작용을 통해서 일어난다. 이는 ESM는 복사량의 변화보다 2∼4시간 정도의 시간적 지체(time lag)가 보이기 때문이다. DSL과 지표저항(rs)은 토양수분이 감소함에 따라 선형적으로 증가하였다. 관측된 장력 및 토양수분의 수직적 분포를 분석함으로써 확보되는 DSL 값은 에너지 방정식에 의해서 추정된 값과 유사하게 나타났다.

전지구적 기온상승으로 인해 증발량이 증가할 것으로 예견되었으나, 다양한 지역에서 관측된 팬증발량은 지난 수십 년간 뚜렷한 감소추세를 나타내고 있다. 본 연구에서는 1960년부터 2007년까지 관측된 국내 18개 기상관측소의 팬증발량과, 증발에 관련된 강수량, 온도, 상대습도, 풍속, 일조시간, 일조율에 대한 변화를 분석하였다. 분석결과 팬증발량은 뚜렷한 감소현상을 나타내었으며, 강수량과 온도는 증가추세를, 상대습도, 풍속, 일조시간, 일조율은 감소추세를

본 논문에서는 본 연구논제(2007)에서 개발된 COMBINE-GRNNM-GA(Type-1)으로부터 최적형태의 구조를 가진 모형을 구성하고, 입력층노드의 기상인자를 제거하기 위하여 불확실성 분석을 실시하였다. 훈련과정중에 가장 최소의 평활인자를 가진 입력층변수는 COMBINE-GRNNM-GA(Type-1)에서 제거되었으며, 변형된 COMBINE-GRNNM-GA(Type-1)은 기상학적 변수의 새로운 최소 평활인자를 구하기 위하여 재훈련된다. 최소 평활인

본 연구의 목적은 결측 혹은 미계측 증발접시 증발량과 우리나라에서 계측되고 있지 않은 알팔파 기준증발산량의 산정을 위하여 유전자 알고리즘이 내재된 일반화된 회귀신경망모형을 개발하고 적용하는데 있다. 우리나라에서는 장기간동안 증발산계를 이용하여 알팔파 기준증발산량의 관측이 시행되지 않고 있으므로, 본 연구에서는 Penman-Monteith(PM) 공식을 이용하여 산정된 값을 계측된 알팔파 기준증발산량으로 가정하였다. 본 연구를 통하여 최적 증발접시 증발량

A new method is developed to estimate the evaporation of water from a surface with high accuracy and resolution. The principle of new method is to detect a weight change of buoyant weight according to a change in water level of Class A Pan measured by the use of a strain-gauge load cell. Field test of evaporation recording new instrument was carried out at Suwon for 10 days of July 1999. It is possible in field observation to measure hourly evaporation amount by newly developed evaporation recording instrument in Class A Pan against strong solar radiation. Present study provide a possibility of domestic high accuracy instrument development below than 0.1mm water level measurement accuracy. If there is low humidity and high wind speed conditions which is possible to evaporate from water surface during night time. And it needs continuos study to understand between meteorological elements and latent heat effect at ground level by field observation study using high accuracy evaporation recording instrument.

In order to discuss the differences among the SMAP(Surface Moisture Availability Parameter), by previous researchers on the basis of their own theoretical and empirical background, we assessed the SMAP according to the soil types and volumetric soil water contents. The results are as follows. There are differences among all the five SMAPs. There`s a tendency that the larger grain size, the higher value of parameters. And they divided into two groups for their value: one group has parameters with exponential function and the other with cosine and linear function. The maximum difference between the two groups appears when the volumetric soil water contents are 0.07㎥m^-3 for sand, 0.11㎥m^-3 for loam, 0.12 for clay, and 0.13㎥m^-3 for silt loam. So, these differences must be considered when we estimate the surface evaporation rate. From field data, the paddy field soil around Junam reservoir is classified as a silt, has high wetness, 0.56. So, the parameter obtained from the field measurement is much higher than that of Clapp and Hornberger(1978)`s Table. This study treated the SMAP for a certain point of time in winter season. But if we measured the soil water contents continuously, we could obtain better time-dependent parameter.