Redirigiendo al acceso original de articulo en 24 segundos...
ARTÍCULO
TITULO

Research into the Optimal Regulation of the Groundwater Table and Quality in the Southern Plain of Beijing Using Geographic Information Systems Data and Machine Learning Algorithms

Chen Li    
Baohui Men    
Shiyang Yin    
Teng Zhang and Ling Wei    

Resumen

The purpose of this paper is to provide new ideas and methods for the sustainable use of groundwater in areas with serious groundwater overexploitation and serious groundwater pollution. Geographic information systems (GIS) were combined with machine learning algorithms, water resources optimization technology, and groundwater numerical simulation to optimize the regulation of the groundwater table and quality beneath the Daxing District in the southern plain of Beijing. By collecting local consumption and supply data and observations of the groundwater table and quality in the connected aquifer beneath Daxing for the years 2006?2020, the corresponding water demands and groundwater impact were extrapolated for the years 2021?2025 based on the basis of the existing development model. Through the combination of GIS and machine learning algorithms, the NO3-N concentration of local groundwater monitoring points in wet years, normal years, and dry years were predicted. With respect to NO3-N pollution, three new groundwater exploitation regimes were devised, which we numbered 1 to 3. The optimal allocation of water resources was then calculated for wet year, typical year, and dry year scenarios for the year 2025. By comparing the water shortage, groundwater utilization rate, and NO3-N pollution under the new groundwater exploitation regimes, the optimal groundwater exploitation mode for the three different types of hydrological year was determined. The results indicate that NO3-N pollution was greatly reduced after the adoption of the optimal regimes and that the groundwater table demonstrated rapid recovery. These results can be of great help in realizing the management, supervision, and regulation of groundwater by combining GIS with machine learning algorithms.

 Artículos similares

       
 
Marianna Kalogeraki and Fani Antoniou    
In the Architecture, Engineering and Construction (AEC) industry claims arise frequently, often resulting in disputes. Claim management should be efficient to prevent claims from escalating into disputes, and if disputes are still unavoidable, they shoul... ver más
Revista: Buildings

 
John T. Van Stan II and Juan Pinos    
Plant canopies divert a portion of precipitation to the base of their stems through ?stemflow?, a phenomenon that influences the canopy water balance, soil microbial ecology, and intrasystem nutrient cycling. However, a comprehensive integration of stemf... ver más
Revista: Water

 
Sichu Xing, Songhang Du, Yingyue Huang, Xingqi Qi and Minghao Sui    
Nanofiltration membranes (NF) have been widely used in the field of water treatment because of their advantages of high separation precision, easy operation, and no phase change. Conventional NF membranes, ensnared by the ?trade-off? effect, grapple with... ver más
Revista: Water

 
Peiyue Li and Jianhua Wu    
This editorial introduces the Special Issue titled ?Water Resources and Sustainable Development,? underscoring the critical need for sustainable management of water resources in light of increasing demand, climate change impacts, and pollution. The issue... ver más
Revista: Water

 
Qian Zhang, Chang Liu, Wenhui Zhu and Shiqi Mei    
Given the challenges of innovation and adaptation to change, Construction 4.0 (C4.0) is triggering a revolution within construction and industry firms from automation to a greater level of digitalization. Despite the plethora of advantages and growing re... ver más
Revista: Buildings