Showing total 9 results

1. Research on a Layered Coupled Water Regulation Model Considering the Results of Lake Water Inflow.

Author

WANG Zhi-xiang, WANG Chao, LEI Xiao-hui, JIN Peng-yu, SUN Jia-hui, and CUI Peng

Subjects

IRRIGATION scheduling, WATER shortages, WATER supply, REGULATION of rivers, WATER diversion, WATER use, OPTIMIZATION algorithms

Abstract

The Yangtze River to Huai River Diversion Project spans two major river basins, the Yangtze River and the Huai River. It is a major cross basin water transfer project that alleviates local water resource shortages, improves project benefits, and supplies water to the Henan section. In the case of unknown water supply and demand sides in the Yangtze River to Huaihe River Diversion Project, the water volume at the head of the channel is reversely optimized by using the regulation and storage capacity of Caizi Lake, Chaohu Lake, and Wabu Lake, and the water intake process at the diversion outlet is forward optimized. A simulation model and a bidirectional optimization model are layered and coupled, and a medium and long-term water volume scheduling model for the Yangtze River to Huaihe River Diversion Project is constructed based on the principle of water balance. A typical annual scheduling scenario set is constructed based on the water inflow situation and water demand. Based on the water inflow forecast results of various lakes in different level years, the water demand process at the entrance and engineering constraints, a differential evolution algorithm with adaptive parameter correction mechanism and a stepwise optimization algorithm are used to solve the problem, in order to formulate the annual water volume scheduling plan for the Yangtze River to Huaihe River Diversion Project. This paper takes the 2030 planning level year of abundant water as an example to compare and analyze the layered coupling water scheduling model and the conventional optimization scheduling model. Due to the layered coupling water scheduling model optimizing the lake regulation and storage process and constraining the lake water level, the model has better effects in terms of river diversion water volume, water shortage in water receiving areas, and lake utilization. The results show that on the basis of meeting the water use plan of the diversion gate, the model reduces the lake' s abandoned water volume, and the deviation value of the lake' s end water level is small. The daily water level variation is guaranteed to be within 0.1 m, and the lake is in a high water level operation state. The annual water volume scheduling plan obtained from this model can effectively utilize local water resources, improve water resource utilization efficiency, and provide technical support for the operation scheduling and scheduling plan preparation of the Yangtze River Diversion to Huaihe River Project . [ABSTRACT FROM AUTHOR]

Published

2023

2. Measurement of Green Water Resource Utilization Efficiency for Carbon Neutrality: A Multiple Water Use Sectoral Perspective Considering Carbon Emission.

Author

Zhao, Chenguang, Zuo, Qiting, Ma, Junxia, Zang, Chao, and Wu, Qingsong

Subjects

WATER use, SUSTAINABLE development, WATER supply, CARBON emissions, CITIES & towns, CARBON offsetting

Abstract

Green and high-efficiency water resource utilization patterns hold paramount importance in promoting sustainable economic and social development, as well as in attaining the goal of carbon neutrality. Most research on water utilization efficiency have taken a general perspective to quantify it, neglecting independent relationships and green effects among water use sectors. This study proposed an integrated measurement model of green water resource utilization efficiency (GWRUE), combined with the carbon dioxide emission equivalent analysis method of water resource behaviors, and constructed an input–output indicator system of GWRUE from four dimensions: domestic, industrial, agricultural, and ecological water. The aim is to achieve the measurement of GWRUE towards carbon neutrality. In this paper, 18 cities in Henan Province were used as instances to carry out the study. The results show that (1) The CO2 emission equivalent from multiple water use sectors in Henan Province showed a tendency of fluctuating reduction during the study period, from a peak of 21,090,100 tons in 2012 to a low of 12,351,900 tons in 2021, with large spatial variations, and the CO2 emission effect existed in most cities, with Zhengzhou being the highest. (2) The GWRUE of domestic, industrial, and agricultural water in Henan Province and 18 cities exhibited an overall upward trend, while that of ecological water presented a downward trend and was at the lowest level among the four sectors. (3) Consolidated GWRUE in Henan Province tended to decrease and then increase; its value was 0.512 in 2011, 0.448 in 2017, and 0.586 in 2021, and most of its cities were at a Medium level. The findings of this study can serve as a theoretical and practical basis for improving the level of green and efficient utilization of water resources, as well as offer references for relevant water use sectors to formulate CO2 emission reduction policies. [ABSTRACT FROM AUTHOR]

Published

2023

3. 基于机会成本法和生态系统服务价值核算的 水资源生态补偿标准研究 --以黄河流域为例

Author

张伊华

Subjects

WATER supply, WATER use, EVALUATION methodology, ACQUISITION of data, OPPORTUNITY costs, WATERSHEDS

Abstract

Copyright of Journal of Irrigation & Drainage is the property of Journal of Irrigation & Drainage Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

4. Study on Spatiotemporal Evolution Characteristics of Regional Annual Precipitation.

Author

Xianqi Zhang, Zhiwen Zheng, and Rulin Ouyang

Subjects

WAVELETS (Mathematics), TREND analysis, WATER use, WATER supply

Abstract

The study of the temporal and spatial evolution of precipitation is of great importance for the efficient use of water resources. This paper examines the long series of precipitation in Henan province from 1959-2018. Innovative Trend Analysis (ITA) method and Mann-Kendall (MK) test were used to analyze the characteristics of precipitation trend changes. Mann-Kendall (MK) mutation test and the sliding T method were used to study the jump features of precipitation. Wavelet analysis of the cyclical characteristics of precipitation. The results show that the spatial distribution of precipitation in Henan Province is uneven, with a gradual increase from north to south. The precipitation of northern, central and southern regions showed a downward trend, while that of western regions showed an upward trend. Both the northern and southern regions experienced jump features in precipitation around 1975 and 2008, while the western region experienced jump features around 1962 and 1980, and the central region experienced jump features around 1980; There are 3.5 different scales of “abundance and depletion” in the northern, western and southern regions, with a first principal cycle of 28a, and 5.5 different scales of “abundance and depletion” in the central region, with a first principal cycle of 17a. [ABSTRACT FROM AUTHOR]

Published

2021

5. Distribution characteristics and influencing factors of water resources in Henan Province.

Author

Yishuang Zhou, Xiaoxia Tong, Rong Gan, Panfeng Liu, Lin Guo, and Shanshan Zhao

Subjects

*WATER supply, *WATER use, *WATER distribution, *LAND resource, *GEOGRAPHIC information systems

Abstract

A clear understanding of the spatial and temporal distribution characteristics of water resources is essential for the optimal allocation and sustainable utilization of water resources. In this paper, the spatial and temporal distribution characteristics of water resources in Henan Province were studied based on GIS, combining the Mann-Kendall (M-K) nonparametric test and rescaled range (R/S) analysis. In addition, SPSS software was used to analyze the influence of climate and land use type on water resources. The results indicated that (1) the hot spots of water resources were concentrated in the southwest, while the low values were concentrated in the northeast, and the distribution of water resources decreased from southwest to northeast. (2) In the past 21 years, spatiotemporal mutations in the water resource sequence occurred between 2010 and 2014. The Z-values of the M-K trend test were all less than 0, the H-values of groundwater resources (GWRs) were mostly greater than 0.5, and the h-values of surface water resources (SWRs) and total water resources (TWRs) were less than 0.5, showing an overall declining trend. However, this trend may change in the future. (3) From the correlation analysis, climate change had a greater impact on water resources than land use changes did. [ABSTRACT FROM AUTHOR]

Published

2023

6. Structural optimization of sectoral exports from the perspective of water footprint: A study from Henan Province, China.

Author

Faguang Wen, Khanal, Ribesh, Xue Fang, and Ang Shan

Subjects

STRUCTURAL optimization, WATER consumption, WATER supply, WATER transfer, FOOD industrial waste, WATER conservation, WATER use

Abstract

Water used for production is the primary consumer of regional water. Water footprint reflects the actual water consumption of each product, which can reflect the intensity of water consumption of each production sector and the flow of water resources implied in the product trade. In this paper, the water footprint of each sector in Henan Province in 2017 was calculated using non-competitive input-output techniques. Furthermore, a dual-objective planning model that minimizes water resource export and maximizes labor compensation was established, based on which the export structure of the sector in the province was optimized. Research findings show that agriculture is the primary consuming sector of water resources from the direct water use perspective. In comparison, the food processing industry is the major consuming sector of water resources from the water footprint perspective. The difference in water resources consumed by sectors from the perspective of water footprint is smaller than that from the perspective of direct water use. Second, most water-intensive sectors have a relatively large water footprint of out-of-province use, which results in 52.75% of Henan Province's produced water being consumed outside the province. Third, the current export structure adjustment of sectors in Henan Province can achieve a Pareto improvement of water conservation and economic development. It is expected to save 14.65% of the province's export water resources and increase Henan Province's total exports by 170.61 billion (170.61 - 109) yuan and increase labor compensation by 39.76 billion yuan. This study can be used to optimize water allocation and improve sustainable water use in water-scarce regions. [ABSTRACT FROM AUTHOR]

Published

2023

7. Assessment of agricultural water resources carrying capacity and analysis of its spatio-temporal variation in Henan Province, China.

Author

Zhang, Youming, Gao, Yun, Zhang, Yan, Liang, Zhijie, Zhang, Zulin, Zhao, Yulong, and Li, Ping

Subjects

*SPATIO-temporal variation, *AGRICULTURAL resources, *WATER supply, *ANALYTIC hierarchy process, *WATER use, *WATER consumption, *WATER shortages

Abstract

With the rapid development of global economy and society, water shortage has become a crucial limitation to the growth of many cities. The agricultural water resources carrying capacity (AWRCC) is a key indicator to judge the sustainable development of agriculture. It is necessary to quantificationally evaluate AWRCC to ensure safety of regional economic development and human being's living demand. To reasonably quantify AWRCC, this paper constructs an agricultural water resources evaluation system. CRITIC (CRiteria Importance Through Intercriteria Correlation) is introduced, and its combination with analytic hierarchy process (AHP) solves the subjectivity and randomness of weight determination. Based on the definition of AWRCC and fuzzy comprehensive evaluation (FCE), we construct support index (CCS), pressure index (CCP) and carrying capacity index (CCI) to describe the spatio-temporal variation of AWRCC in Henan Province. Applying sensitivity and correlation analyses into the AWRCC evaluation demonstrates practicality and rationality of results. It eventually provides corresponding suggestions to each city group with diverse carrying capacities. Main conclusions are as follow: (1) The per capita water consumption and agricultural water utilization rate in Henan trended to decrease yearly. The irrigation rate of cropland and the proportion of water-saving irrigation of cropland increased to a varying extent. Water resources utilization rate, cropland irrigation rate, proportion of water-saving irrigation in cropland, grain yield per unit cropland, and wetland proportion were relatively sensitive indicators and they were higher correlated with AWRCC. (2) During 2010–2020, although the agricultural water resources have been overloaded in Henan, AWRCC exhibited a slight enhancement on the temporal scale. On spatial scale, the central region had a stronger AWRCC than the surrounding cities, while the southwest region was relatively weaker, and the AWRCC of the eastern region continued to enhance. (3) According to the tertiary characteristics and spatio-temporal variation of AWRCC, cities of Henan can be roughly divided into four groups and some proposals were proposed individually to enhance the carrying capacity. The conclusion of this paper is helpful to understand the current situation of agricultural water resources in Henan and can provide a reference for the sustainable development of AWRCC. [Display omitted] • CRITIC combined with AHP solves the subjectivity of weight determination. • Spatio-temporal variation characteristics of AWRCC in Henan were analyzed. • Sensitivity and correlation analysis are used to detect AWRCC sensitive indicators. • Proposals were suggested respectively for cities with diverse AWRCC. [ABSTRACT FROM AUTHOR]

Published

2023

8. Study on the Optimization of Multi-Objective Water Resources Allocation in the Henan Yellow River Water Supply Zone.

Author

Li, Yanbin, Sun, Ke, Men, Ruyi, Wang, Fei, Li, Daoxi, Han, Yuhang, and Qu, Yanping

Subjects

WATER rights, WATER supply, WATER shortages, WATER use, WATER distribution, WATER efficiency

Abstract

With the continuous growth in the global population, rapid socioeconomic development, and the impacts of factors like climate change, we are facing increasingly severe challenges regarding water scarcity. The scientific and rational allocation of water resources has become a key factor in ensuring sustainable development. The Henan Yellow River water supply zone occupies a crucial position in the socioeconomic development of Henan Province. Currently, there is a shortage of water resources with relatively low utilization rates. To alleviate the contradiction between water supply and demand, a study on the optimization of water resources (with p = 90%) for the years 2025 and 2030 was conducted. In this study, we constructed a multi-objective optimization model with the objectives of maximizing economic benefits, minimizing total water shortage, and maximizing water use efficiency. The second-generation non-dominated sorting genetic algorithm (NSGA-II) was utilized to solve this model. The results indicate that by 2025, the optimized allocation of water resources will correspond to 17.663 billion m3, reducing the average water shortage rate in the research area to 9.69%. By 2030, the optimized allocation of water resources will further increase to 18.363 billion m3, bringing down the average water shortage rate to 8.34%. Concurrently, the supply structure of the research area will significantly improve after optimization. This is manifested through an increase in the proportion of surface water supply and a substantial rise in the proportion of supply from other water sources, while the proportion of groundwater supply noticeably decreases. These research findings can serve as a reference for the rational utilization and distribution of water resources in the future and can also offer insights for optimizing water resource allocation in other regions. [ABSTRACT FROM AUTHOR]

Published

2023

9. Comprehensive evaluation of security, equity, and efficiency on regional water resources coordination using a hybrid multi-criteria decision-making method with different hesitant fuzzy linguistic term sets.

Author

Tu, Yan, Wang, Huayi, Zhou, Xiaoyang, Shen, Wenjing, and Lev, Benjamin

Subjects

*WATER supply, *WATER efficiency, *WATER use, *DECISION making, *EVALUATION methodology

Abstract

Regional water resources coordination (RWRC) plays a prominent role in long-term sustainability. In order to achieve harmonious utilization of regional water resources, it is suggested that local governments should focus on balancing three goals - security, equity, and efficiency, resulting in both ecological and socio-economic benefits in a region. Therefore, this paper aims to develop a comprehensive evaluation methodology for assessing the degree of RWRC. First, a security-equity-efficiency (SEE) evaluation indicator system is established. A novel multi-criteria decision-making (MCDM) approach that integrates decision-making trial and evaluation laboratory (DEMATEL) method and VlseKriterijumska Optimizacija I Kompromisno Resenje (in Serbian, known as VIKOR) method considering two different hesitant fuzzy linguistic term sets (HFLTSs) is then proposed. With this approach, a final ranking is obtained for six alternatives for the RWRC of the relevant regions (i.e., Shandong Province, Henan Province, Hebei Province, Anhui Province, Tian City, Jiangsu Province) in North China Plain, and the six relevant regions receive coordination performance ranking of II, III, V, I, VI, IV. Moreover, comparison analysis and sensitivity analysis are conducted to verify the effectiveness and reliability of the proposed method and dig deep into the RWRC conditions in the studied regions. Finally, some managerial suggestions are provided for strengthening the coordination levels in these regions. • A SEE indicator system is established for RWRC evaluation. • A hybrid MCDM method integrating different HFLTSs is proposed. • A maximum consensus and minimum hesitant degree model of HFLTSs is constructed. • Interval HFLTSs are introduced into DEMATEL method for indicators' weights. • A case study is presented to verify the effectiveness of the evaluation method. [ABSTRACT FROM AUTHOR]

Published

2021