Agricultural Water Optimal Allocation Using Minimum Cross-Entropy and Entropy-Weight-Based TOPSIS Method in Hetao Irrigation District, Northwest China

Zhang, Yunquan; Yang, Peiling

doi:10.3390/agriculture12060853

Cited by 6 publications

(5 citation statements)

References 44 publications

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“…Only the relative error of the simulation in 2014 was slightly greater than 15%, the rest were within 10%, and the RMSE for three years was smaller than 0.2. The simulation accuracy was high [51,52]. The comparison of the measured and simulated groundwater mineralization in the Urat irrigation area from 2014 to 2016 is shown in Table 7 and Figure 6e.…”

Section: Precision Analysis Of the Salt Control Modelmentioning

confidence: 90%

A Simulation-Based Optimization Model for Control of Soil Salinization in the Hetao Irrigation District, Northwest China

Zhang

Yang

2023

Sustainability

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The average annual water diversion of the Hetao Irrigation District (HID) from the Yellow River is 4.5 billion cubic meters, mainly used for surface irrigation. Because the groundwater depth is shallow, strong evaporation conditions and unmatched irrigation conditions lead to serious soil salinization in the area; thus, the irrigation area’s ecological environment is fragile. Based on the current situation of the Yellow River irrigation project in the area, an interval two-stage robust stochastic optimization model is proposed to address the problem. In 2015, the Shuguang Experimental Station in the middle of the HID, Inner Mongolia, discussed the impact of different degrees of water–salt coordinated regulation on water consumption, yield and price of wheat, maize and sunflower under drip irrigation conditions. The obtained results provide the water shortage and water distribution targets of multiple water sources and multiple water levels in five irrigation areas of the HID. Those water distribution targets were used as the main input parameter and entered into the SALTMOD model based on the principle of water and salt balance. The output included data on groundwater mineralization and groundwater depth. It was observed that (1) integrated interval two-stage robust stochastic programming and the SALTMOD Model to couple optimization model under uncertainty can simulate a model together; (2) systemic risk issues were considered; and (3) the proposed method can be applied to the HID in northwest China to solve the soil salinization control problem. This approach is applicable to arid and semiarid regions that face similar problems.

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Section: Precision Analysis Of the Salt Control Modelmentioning

confidence: 90%

A Simulation-Based Optimization Model for Control of Soil Salinization in the Hetao Irrigation District, Northwest China

Zhang

Yang

2023

Sustainability

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“…The combination of the entropy method and TOPSIS is common. Zhang et al, proposed a model for evaluating agricultural water resource allocation schemes based on the entropy method [36]. TOPSIS established an index system containing three dimensions: economic, social, and environmental, which deeply analyzed the dynamic changes in water resource carrying capacity in the river-loop irrigation area.…”

Section: Feasibilitymentioning

confidence: 99%

Research on the Evaluation of Green Technology Renovation Measurement for Multi-Storey Houses in Severe Cold Regions Based on Entropy-Weight-TOPSIS

Wang

2023

Sustainability

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In the context of global warming and the energy crisis, a large amount of energy consumed by the construction industry has a negative impact on climate change. Green retrofitting for older multi-story houses can significantly reduce energy consumption and pollutant gas emissions. However, a comprehensive evaluation method is needed to select suitable retrofitting methods. This paper established a green renovation evaluation system, including five dimensions from the green concept, and 16 evaluation indexes. Making an old multi-story house in Shenyang the research object, 16 transformation plans were generated through orthogonal experiments. The total weights of each index were derived through entropy weighting and expert scoring, and then the best retrofit solution was selected using the improved TOPSIS method. The best retrofit solution was evaluated to reduce energy consumption by 3016.4 kWh/m2 and pollutant gas emissions by 3934.3 tons over the remaining 35 years of its life cycle while generating an economic benefit of approximately 1.58 million yuan. These study results show that the retrofitting of external walls significantly affects the building’s energy consumption; exterior windows present the most negligible impact. The photovoltaic facilities provide significant energy savings.

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“…There are two sections in the west and southwest bordering Myanmar, and the border is 80.563 km long. The county seat is located in Menglangba, 1054 m above sea level, 588 km away from the provincial capital Kunming, and 173 km away from the seat of Simao Municipal Government [10].…”

Section: Overview Of the Studying Areamentioning

confidence: 99%

“…It is an important support for the comprehensive, strategic, coordinated, basic, and binding aspects of the municipal overall planning under the implementation of Xi Jinping's ecological civilization thought and overall national security concept [5,6]. There are many domestic and foreign studies on the improvement of water resources carrying capacity in uncertain and complex environments [6][7][8][9][10]. For example, Ren et al combine the characteristics of water resources, social economy and other aspects of the study area, select the corresponding indicators, establish the water resources carrying capacity evaluation index system based on the regional water resources metabolism theory, then evaluate and analyze the water resources carrying capacity of the study area.…”

Section: Introductionmentioning

confidence: 99%

Agricultural Productive Carrying Capacity Improve and Water Optimal Allocation under Uncertainty Based on Remote Sensing Data in Lancang County, Southwest China

Zhang

Yang

2022

Water

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Through the reasonable calculation of water resources, evaluating the irrigation carrying capacity of farmland under the constraints of water resources is crucial for optimizing the spatial distribution of agricultural production and ecology and rationally adjusting the scale of agricultural production. This paper proposes an optimization framework based on Type 2 fuzzy chance-constrained programming (T2FCCP) to solve the problem of regional water resources optimal allocation and evaluation of farmland irrigation carrying capacity under uncertain conditions. To illustrate the applicability of the proposed framework, this paper conducts a case study on Lancang County, Puer City, Yunnan Province. Methods, such as watershed harmony evaluation method, remote sensing data, and shared socioeconomic pathways (SSPs), are applied and integrated into the proposed optimization framework to systematically deal with uncertainties in water resource systems and agricultural systems. The results include the costs and benefits of regional water and soil resources systems, water resources optimal allocation, and crop planting structure results under different SSPs in Lancang County, Puer City. The results also show that the total cost under T2FCCP is about 5% lower than that under fuzzy chance-constrained programming (FCCP) and about 17% lower than that under chance-constrained programming (CCP). By 2025, the water resources carrying capacity of different tributaries in Lancang County, Puer City will increase, and based on the evaluation results of agricultural production irrigation carrying capacity, suggestions are given to ensure agricultural production carrying capacity.

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Agricultural Water Optimal Allocation Using Minimum Cross-Entropy and Entropy-Weight-Based TOPSIS Method in Hetao Irrigation District, Northwest China

Cited by 6 publications

References 44 publications

A Simulation-Based Optimization Model for Control of Soil Salinization in the Hetao Irrigation District, Northwest China

A Simulation-Based Optimization Model for Control of Soil Salinization in the Hetao Irrigation District, Northwest China

Research on the Evaluation of Green Technology Renovation Measurement for Multi-Storey Houses in Severe Cold Regions Based on Entropy-Weight-TOPSIS

Agricultural Productive Carrying Capacity Improve and Water Optimal Allocation under Uncertainty Based on Remote Sensing Data in Lancang County, Southwest China

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