Characteristics analysis and model prediction of sea-salt water intrusion in lower reaches of the Weihe River, Shandong Province, China

WANG Ji-ning; MENG Yong-hui

Volume 4 Issue 2

Jun. 2016

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WANG Ji-ning, MENG Yong-hui. 2016: Characteristics analysis and model prediction of sea-salt water intrusion in lower reaches of the Weihe River, Shandong Province, China. Journal of Groundwater Science and Engineering, 4(2): 149-156.

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Characteristics analysis and model prediction of sea-salt water intrusion in lower reaches of the Weihe River, Shandong Province, China

1Geology and Environment Monitoring Station of Shandong Province, Jinan 20014, China.

Publish Date: 2016-06-28

Abstract

Abstract

Marine sedimentary strata are widely distributed in the coastal zone of the study area, and are rich in brine resources. The exploitation of underground water resources often first caused the intrusion of salt water in the marine strata. Based on the analysis of sea-salt water intrusion feature, the sea-salt water intrusion is divided into four stages: The occurrence and development stage (1976–1985), the rapid development stage (1986–1990), the slow development stage (1990–2000) and the stable development stage (2000–2015). Based on the comparative analysis of the relationship between seawater intrusion and influencing factors, this paper presents that the groundwater exploitation and the brine resources mining are the main control factors of sea-salt water intrusion. On this basis, we have established a numerical model of the sea-salt water intrusion. Using this model, we predicted the development trend of the sea-salt water intrusion. The results show that if the current development of groundwater and brine is maintained, the sea-salt water intrusion will gradually withdraw; once development of brine stops, sea-salt water will invade again. This provides the scientific basis for the rational exploitation of groundwater and the prevention of sea-salt water intrusion.
- Sea-salt water intrusion,
- Marine sedimentary strata,
- Brine resources,
- Numerical simulation,
- Influencing factors

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References(10)

References

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