• 한국농공학회:학술대회논문집
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• 한국농공학회 2000년도 학술발표회 발표논문집
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• pp.108-113
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• 2000

A field study was performed to investigate the effect of water saving irrigation method on water use efficiency and rice yield. The field plot was 40a (40 ${\times}$ 100m) in size and located at Buryangmyun, Kimjae city, Chonbuk province. Field measurements were made during the growing seasons, May to September of the year 1998 and 1990. Irrigation water volume, drainage water volume, rainfall and ponding depth were measured. Irrigation water management practice employed was such that to keep the ponding depth about 3 to 4cm by intermittent irrigation with drying the soil surface until hair cracks emerge before the next irrigation. The amounts of water volume irrigated and drained were measured by pipe flow meter and ponding depth was observed by using a partly buried 120mm diameter PVC pipe. The results showed that the irrigation water depths, the rainfalls, and the drainage depths were 379mm, 458mm, and 448mm in 1988, and 274mm, 819mm, and 736mm in 1990, respectively. The average yield was 590kg per 10a. The water saving irrigation method saved irrigation water by about 20% with higher yield compared with the traditional method.

• 한국농공학회지
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• 제40권2호
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• pp.81-91
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• 1998

Water level of irrigation reservoir during the flood season could be kept to a certain level, so called, flood control level by releasing the flood inflow in advance in order to reduce the peak discharge of next coming flood and the damage of inundation. Concept of restriction intensity of water supply was introduced to evaluate the influence of flood control volume on the irrigation water supply. Restriction intensity can be calculated by multiplying the ratio of restriction to the days of restriction which are obtained from the operation rule curve and daily water level of irrigation reservoir and it has the dimension of % day. The method of restriction intensity was applied to the Yedang irrigation reservoir with the observed data of 30 years to review whether the present flood control volume is reasonable or not, and suggest the optimal flood control volume, if possible.

• Current Research on Agriculture and Life Sciences
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• 제18권
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• pp.33-42
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• 2000

A field case study was performed to investigate the effect of shallow ponding in paddy field on irrigation water requirement of direct seeded rice. In addition, an economic analysis was made to see the effect of no-till direct seeded rice on cost reduction. A field study was performed at a 2.1ha paddy field in Kimjae city, Chonbuk province from 1991 to 1999. Various direct seeding methods such as dryland seeding, wetland seeding, and no-till wetland seeding were introduced. Then, cost reductions due to the direct seeding and no-till were calculated. In addition, to investigate the effect of shallow ponding on irrigation water requirement, field measurements such as irrigation water volume, drainage water volume, rainfall depth, and ponding depth, were made at a 40a plot within the same area in 1988 and 1990. The results of the shallow ponding study showed that the irrigation water depth, rainfall, and the drainage depth were 379mm, 458mm, and 448mm in 1988 growing season, and 274mm, 819mm, and 736mm in 1990, respectively. The shallow ponding irrigation method saved irrigation water by about 20% with higher yield compared with the traditional method. The economic analysis showed that won \640,000 per ha can be saved by direct seeding due to no nursery cost, and \1,220,000 per ha due to no-till and no nursery cost. The yields ranged 540 to 640 kg per 10a during the study period with an average of 590kg per 10a. If these cropping techniques with no-till direct seeding and shallow ponding depth for rice cropping prove to be advantageous with further study, they can be adopted for the most of the paddy fields in Korea.

• 한국농공학회지
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• 제45권5호
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• pp.67-76
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• 2003

The principal operation rule of irrigation reservoir is to accelerate the water use and supply water actively when water is sufficient, and to restrict water use and supply water deficiently in order not to stop the irrigation activity when water is scarce. In drought seasons. water should be saved in order to keep the reservoir not to be dried up during the irrigation season. It is important to know how much water should be saved, depending on the rice-growing season and water storage volume. For the drought control of irrigation reservoirs. the rotational irrigation scheduling in paddy with the operation rule curve developed in this study could be utilized as a software program to install TM/TC system for irrigation water supply by automation facilities.

• 생물환경조절학회지
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• 제27권1호
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• pp.1-6
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• 2018

수경재배에서는 근권내 양분의 집적 정도는 급액의 양과 밀접한 관계를 가지기 때문에 급액의 양(횟수)이 토마토의 생육과 수량에 미치는 영향이 크다. 따라서 본 시험에서는 코이어를 이용한 토마토 장기 수경재배에 급액량이 근권의 무기이온에 미치는 영향을 구명하고자 하였다. 적산일사량을 기준으로 급액량을 조절하였으며 생육시기별로 적산일사량 설정치를 변경하며 급액량을 4수준으로 처리하였다. 처리별 매일의 급액량과 배액량을 조사하였고 배액율을 계산하였다. 급액량이 많을수록 토마토의 수분 흡수량은 증가하는 경향이었다. 그러나 High 처리구는 2월과 3월에 Medium high 처리구에 비하여 수분 흡수가 감소하였다. 월별 평균 급액량과 배액율을 계산하여 배액율이 20-30%되는 급액 구간으로 1월은 $120-140J/cm^2$, 2월은 $100-120J/cm^2$, 3월은 $80-100J/cm^2$, 4월은 $70-90J/cm^2$, 5월은 $60-75J/cm^2$로 적정한 범위를 정할 수 있었다. 급액량이 많을수록 이온들의 농도가 낮아서 근권의 양분집적을 상당 부분 방지할 수 있었는데 양분을 흡착하는 코이어 배지의 특성 때문에 배액율이 20-30%인 경우 근권의 무기이온의 농도는 상당히 높았다. 그런데 P와 K는 처리에 관계없이 배액에서 급액농도 보다 낮아지는 경우가 발생하였으며, 급액량이 많은 처리에서도 Mg와 S가 가장 잘 집적되는 이온이었다. 일사량이 적은 시기에는 급액량에 따른 배액내 무기이온의 농도는 큰 차이를 나타내지 않았으나, 일사량이 많은 시기에는 급액량이 적을수록 배액의 무기이온의 농도가 높았다. 특히, 3월 이후에는 급액량 조정만으로는 배액의 이온농도 상승을 방지하기 어려워 우선적으로 급액 EC를 낮춰 근권에 양분이 집적되는 것을 막을 필요가 있었다.

• KSII Transactions on Internet and Information Systems (TIIS)
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• 제13권6호
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• pp.2925-2948
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• 2019

In order to improve the utilization of irrigation water resources of greenhouse tomatoes, a water-saving irrigation decision-making model based on genetic optimization T-S fuzzy neural network is proposed in this paper. The main work are as follows: Firstly, the traditional genetic algorithm is optimized by introducing the constraint operator and update operator of the Krill herd (KH) algorithm. Secondly, the weights and thresholds of T-S fuzzy neural network are optimized by using the improved genetic algorithm. Finally, on the basis of the real data set, the genetic optimization T-S fuzzy neural network is used to simulate and predict the irrigation volume for greenhouse tomatoes. The performance of the genetic algorithm improved T-S fuzzy neural network (GA-TSFNN), the traditional T-S fuzzy neural network algorithm (TSFNN), BP neural network algorithm(BPNN) and the genetic algorithm improved BP neural network algorithm (GA-BPNN) is compared by simulation. The simulation experiment results show that compared with the TSFNN, BPNN and the GA-BPNN, the error of the GA-TSFNN between the predicted value and the actual value of the irrigation volume is smaller, and the proposed method has a better prediction effect. This paper provides new ideas for the water-saving irrigation decision in greenhouse tomatoes.

• 한국농공학회지
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• 제25권4호
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• pp.29-37
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• 1983

This study was carried out not only to prepare available materials that can be utilized in basic planning of irrigation reservoirs, but also to contribute to the study on countermeasures for reasonable irrigation water development in Korea in the future, through the investigation for the structural characteristics of reservoirs and their change trend by an epoch. During this study 123 sites of sample reservoirs were analysed in their dimensions of physical constituent factors. The physical characteristics and their change trends revealed by this study are summarized as follows: 1. For the irrigation earth dam in Korea the correlation between dam volume (v) and dam height & length (H$^2$L) can be described as the formula of v=1. 434H2L~17, 300 (r=0. 933), from which embankment amount is assumed to be quickly estimated under determined dam height and length of the proposed reservoir. 2. The ratio of dam volume to dam height & length ranges approximately from 0.5 to 3 (1.7 in average), that of storage capacity to dam volume 2 to 10 (8.4 in average), that of irrigation area to full water surface area 5 to 20 (13 in average) and that of catchment area to irrigation area 2 to 5 (4 in average). Though correlation between dam volume and dam height & length is high, that between others is relatively low. 3. Average storage depth ranges approximately from 4m to l0m (6.6m in average), unit storage capacity 0. 4m to 0. 8m (0.54 in average) and shape factor of dam 5 to 20 (10.5 in average). 4. The more recently planned the reservoirs were, the less storage capacity, dam volume, full water surface and dam shape factor they have. 5. The more recently planned the reservoirs were, the larger storage depth and unit storage capacity they have.

• 생물환경조절학회지
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• 제28권4호
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• pp.366-375
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• 2019

본 실험은 토마토(Solanum lycopersicum L. 'Hoyong' 'Super Doterang') 암면재배에서 배지 전체의 정전용량을 측정할 수 있는 장치(Substrate capacitance measurement device, SCMD)를 기반으로 한 적정 급액 방법을 구명하기 위하여 누적일사량 제어구(Integrated solar radiation automated irrigation, ISR)와 물관수액흐름 제어구(sap flow automated irrigation, SF)를 대조구로 비교하면서 봄부터 여름철과 겨울철에 재배를 실시하였다. SCMD 제어구는 급액 개시 후 배지 한 개당 설정된 배액 목표량이 처음 발생하는 시점까지 10분간격으로 급액하였고 첫 배액이 배출되면 그 때의 배지의 정전용량(Capacitance)을 100%로 간주하고 그 기준치의 급액제어점(Capacitance threshold, CT)에 도달하면 급액 되었고 그 뒤 목표 배액량이 발생하면 급액이 멈추는 방식으로 제어되었다. 봄부터 여름재배에서 실험 처리를 위해 SCMD제어구의 일회 급액량 (Irrigation volume per event)을 50, 75, 또는 100mL로 설정하였고 겨울철 재배에서는 CT가 0.65, 0.75, 또는 0.90가 되면 급액 되도록 설정하였다. 봄부터 여름철 재배에서 일회 급액량을 50, 75, 100mL로 설정하였을 때 급액 횟수는 각각 39, 29, 19회였고 배액율은 각각 3.04, 9.25, 20.18%였다. 겨울철 재배에서 CT를 0.65, 0.75, 0.90로 설정하였을 때 급액횟수는 각각 5.67, 6.50, 14.67회였고 배액율은 9.91, 10.78, 35.3%였다. 봄부터 여름철 재배에서 일회 급액량 처리에 따른 물관수액흐름속도(SF) 변화는 1회 급액량과 배액량을 각각 50과 75mL로 제한한 경우 100mL로 제한한 경우와 비교하여SF 신호가 외부 광량 신호 (SI) 보다 늦어지는 경향(time lag)을 보였고 겨울철 재배에서 CT를 0.65로 설정한 경우는 물관수액흐름 속도나 함수율이 매우 낮아졌고 CT를 0.90로 설정한 경우는 함수율과 물관수액흐름 속도는 매우 높았으나 많은 배액이 배출되었다. 따라서 토마토 봄부터 여름철 재배에서 SCMD를 활용하여 CT를 0.9로, 배지 한 개당 배액 목표량을 100mL로 설정하였을 때 일회 급액량은 75~100mL 범위가 적합하고 겨울철 재배에서는 1회 급액량을 75mL로, 배액 목표량을 70mL로 설정하였을 때 CT는 0.75이상 0.9이하 범위가 적합할 것으로 판단되었다. 앞으로 정전용량 값과 배지 용적수분함량의 관계성을 구명하고 보정계수를 구하는 연구가 필요할 것으로 판단된다.

• 한국농공학회지
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• 제44권2호
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• pp.67-74
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• 2002

The purpose of this study was to investigate the effects of ponding depth treatment on water balance in paddy fields. Three ponding depth treatments, very shallow, shallow, and deep were used. The experimental plots were three 80m $\times$ 8m rectangular plots. Daily values of rainfall amount, ponding depth, irrigation water, drainage water, evapotranspiration, and infiltration were measured in the field. The ponding depth was continuously observed by water level logger during the growing season. The ET was measured by 1-m diameter PVC lysimeters. Irrigation water volume was measured by 75 mm pipe flowmeters and the drainage water volume by 75 mm pipe flowmeters and a recording Parshall flume. The results showed that irrigation water depths were 688.9 mm, 513.6 mm, and 624.4 mm in very shallow, shallow, and deep ponding, respectively. The effective rainfall amounts (effective ratio) were 243.7 mm(48.8%), 344.6 mm(68.9%), and 272.9 mm(54.6%) in very shallow, shallow, and deep ponding, respectively. The three treatments did not show any statistical difference in growth and yields. But the shallow depth treatment showed the largest yield.

• 한국관개배수논문집
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• 제17권2호
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• pp.57-70
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• 2010

This study was performed to analyze the affect of water supply capacity followed by allocating flood control volume in heightening reservoir, of which Baekgog reservoir was selected as a case study in here. Baekgog reservoir is located in Jincheon county, Chungbuk province, of which full water level will be heightened from EL. 100. 1m to EL. 102.1m, and total storage from 21.75M $m^3$ to 26.67M $m^3$. Flood inflow with 200year frequency was estimated to 997 $m^3$/s in peak flow and 22.54M $m^3$ in total volume. Reservoir flood routing was conducted to determine flood limited water levels, which was determined to have scenarios such as EL 97-98-99m in periods of 6.21.-7.20., 7.21.-8.20., and 8.21.-9.20., respectively, EL 97-97-97m, EL 98-98-98m in present reservoir, and EL 99-100-101m, EL 99-99-99m, and EL 100-100-100m in heightened reservoir. Reservoir inflow was simulated by DAWAST model. Annual paddy irrigation requirement was estimated to 33.19M $m^3$ to 2,975ha. Instream flow was allocated to 0.14mm/d from October to April. Operation rule curve was drawn using inflow, irrigation and instream flow requirements data. In case of withdrawal limit reservoir operation using operation rule curve, reduction rates of annual irrigation supply before and after flood control by reservoir were 2.0~4.3% in present size and 1.5~3.6% in heightened size. Reliability on water supply was decreased from 77.3% to 63.6~68.2% in present size and from 81.6% to 72.7~79.5% in heightened size. And reduction rates of water storage at the end of year before and after flood control by reservoir were 7.3~16.5% in present size and 7.7~16.9% in heightened size. But water supplies were done without any water deficiency through withdrawal limit reservoir operation in spite of low flood regulating water level.