Hydrogeochemical and Characteristics of Groundwater in Teluk Nilap Area, Rokan Hilir, Riau

Fitri Mairizki, Arief Yandra Putra, Widya Adiza Putri, Ferdyansyah
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Abstract

Groundwater plays important role as the main water resource for human needs. The vulnerability of groundwater to contaminants both naturally and by human activities can be not avoided as a trigger for groundwater quality degradation. Hydrogeochemical become important highlights in groundwater studies because groundwater conditions in quality and quantity influenced by the geological formation of rock minerals in aquifer. Naturally, the condition of the research area which consists of peat swamps can also affect the characteristics of groundwater. The aims of this research are to determine groundwater types and groundwater facies in study area with an analytical approach using stiff diagram and piper diagram. The method used was purposive sampling by collecting data from dug wells at the research site. 5 samples from dug wells were used as representatives in the groundwater facies analysis. The groundwater facies analysis was carried out by measuring the concentration of major ions such as Na, K, Ca, Mg, Cl, SO4, and HCO3. The highest groundwater level was in the northern part of study area (7,84 m) while the lowest groundwater level was in the southwest part of study area (2,05 m). The results showed three types of groundwater based on stiff diagram as sodium chloride (NaCl), sodium sulfate (NaSO4) and magnesium sulfate (MgSO4). The lithology conditions that composed the aquifer affected the facies or origin of groundwater. The alluvium layer in the research area which rich in sodium (Na+) minerals with chloride (Cl-) or sulfate (SO42-) anions forms chloride sulfate facies (Cl+SO4) which were located in the middle to the south of the study area and sodium (potassium) chloride (sulfate) facies (Na(K)Cl(SO4)) which were distributed in the northern part of study area.
廖内省罗干希尔省特鲁克尼拉普地区地下水水文地球化学特征
地下水作为满足人类需求的主要水资源,发挥着重要作用。地下水易受自然和人类活动的污染,这是引发地下水质量退化的一个不可避免的因素。由于含水层岩石矿物的地质构造影响着地下水的质量和数量,水文地球化学成为地下水研究的重要亮点。自然,研究区泥炭沼泽的条件也会影响地下水的特征。本研究的目的是利用刚性图和派珀图的分析方法确定研究区地下水类型和地下水相。所采用的方法是有目的的抽样,从研究地点的挖井中收集数据。以5个挖井样品为代表进行了地下水相分析。通过测定Na、K、Ca、Mg、Cl、SO4、HCO3等主要离子浓度进行地下水相分析。研究区北部地下水位最高(7.84 m),西南部地下水位最低(2.05 m),根据刚性图划分出3种地下水类型:氯化钠(NaCl)、硫酸钠(NaSO4)和硫酸镁(MgSO4)。构成含水层的岩性条件影响着地下水的相或来源。研究区冲积层富含含氯(Cl-)或硫酸盐(SO42-)阴离子的钠(Na+)矿物,形成位于研究区中南部的氯代硫酸盐相(Cl+SO4)和分布在研究区北部的氯化钠(钾)(硫酸盐)相(Na(K)Cl(SO4))。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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16 weeks
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