@ARTICLE {CWE / 814/2017，作者= {}，Journal = {当前世界环境}，Publisher = {}，Title = {地下水的地下水和地下水的物理化学污染，Rajasthan}，年={}，月= {}，卷= {30}，URL = {www.a-i-l-s-a.com/article/814/}，页面= {676-682}，摘要= {各个地方地下水的化学行为是其中一个本体世界上最动态的研究领域。在本研究中，来自四个工业区的地下水抽样。Matsya Nagar，Bhiwadi，Neemrana和Behror进行了旨在评估地下水化学，使用Hill-Piper和Wilcox图来解释“水类型”。通过检查主要阳离子，阴离子和其他参数，如钠吸附率，残留碳酸钠和钠百分比，评估化学品质。然后评估地下水化学，并确定影响该区域的因素。结果导致该地区的地下水质量受到工业和人类活动的影响，导致含水层系统的污染，数据支持该地区的污染水平。大多数样本以或多或少的方式表现出来。在平均1000mg / L的平均范围内发现TDS，总硬度范围为400mg / L的平均值。 Carbonate alkalinity was found in all the water samples and the average pH value were observed 8.60. In some locations, up to 337 mg/l nitrate indicates the nitrogenous contamination in the area. Fluoride was found within the prescribed limits as per BIS (Indian Drinking Water Standard, IS: 10500, 1991) norms, except one significant location at Majri Kalan in Neemrana industrial area has high fluoride as 13.0 mg/l. The interpretation of the ‘water type’ was made using Hill-Piper and Wilcox diagrams. The prominent type was Na/Mg-HCO3 and Na/Mg-Cl type of water. However, a slight variation was observed in the Na-HCO3 type of water. Sodium (alkali) hazard were observed from low (S1) to high (S3) and salinity hazard is high (C3) to very high (C4). }, number = {32}, doi = {10.12944/CWE.10.2.35} }