Probable Effect of Heavy Metals in Waste Water of Non -Metallic Industries on Groundwater Quality: Using Statistical Methods in Yazd-Ardakan Plain.

Author

Environmental Engineering Department, Agriculture and Natural Resources College, Islamic Azad University Maybod Branch

Abstract

      In this investigation 10 samples from Tile and Ceramic industries and wells nearby to industries discharge sites were collected. Concentration of Cr, Cd, Fe, Pb and Zn were measured and statistical interpretation based on variance, T-test, correlation coefficient and factor analysis was carried out. The industries waste water reflected higher concentration compare to groundwater.  The Cd accumulation in well No 1 and Pb in all 5 wells exceeds acceptable limit which can affect groundwater quality. A good correlation coefficient exists among concentration of elements in groundwater, while it is not evident in waste water trace elements. The factor analysis depicted three main variance including Fe, Pb and Zn.
 

Keywords


رضائی. ر.، ملکی. ا.، صفری. م.، و قوامی. ع.، 1389، ارزیابی آلودگی شیمیایی منابع آب زیرزمینی مناطق پائین دست محل دفن زباله شهر سنندج، مجله علمی دانشگاه علوم پزشکی کردستان، دوره 15، ص 89-98.
زارعی محمودآبادی.، ه. میرحسینی.  ا.، و منوری. م.، 1390، بررسی و پیش­بینی نقش صنایع در آلودگی آبخوان­های زیرزمینی با استفاده از مدل مفهومی (مطالعه موردی: دشت یزد - اردکان)، مجله پژوهش آب ایران، شماره8، ص61-70.
شمس خرم آبادی. ق.، درویشی چشمه سلطانی. ر.، و جرفی. س.، 1389، جذب سطحی کادمیوم توسط لجن مازاد فرایند لجن فعال فاضلاب شهری، مجله علمی – پژوهشی آب و فاضلاب، ‌شماره 1 ، ص 62 -57.
شهبازی. ا.، و مهرجو. ف.، 1392،‌ منابع آلودگی زیرزمینی و روش های احیا،‌ فصلنامه انسان و محیط زیست،‌ شماره 25، ص 13-21.
محمدی. ه.، کلانتری. ن.، و پهلوانی زاده. س.، 1393، بررسی تأثیر ساخت سد جره بر کیفیت آب رودخانه زرد با استفاده از روش‌های آماری و هیدروشیمیایی، دومین همایش ملی بحران آب، دانشگاه شهرکرد.
وزارت نیرو.، 1382، طرح شبکه بهینه سنجش منابع آب کشور، گزارش حوزه آبریزسیاه کوه.
Aljaradin. M., Kenneth. M. P., 2012, Environmental impact of municipal solid waste landfills in semi-arid climates-case study –Jordan, Waste Management Journal, Vol: 5, p: 28-39.
Behbahaniania. A., Mirbaghari. S. A., Nouri. J., 2010, Effect of sludge from waste water treatment plants on heavy metals transport to soil and groundwater, Iranian Journal Environ Health Science Engineering, Vol: 7, p:401-406.
Brar. M. S., Malhi. S. S., Singh. A. P., Arora. C. L., 2015, Swage water irrigation effect on some potentially toxic trace element in soil in northwestern India,  Canada Journal Soil Sciences, Vol: 2, p: 189-142.
Bouma. J., 2003, Irrigation with reclaimed municipal wastewater-A guidance manual. Agricultural Water Management, Vol: 12, p:255-256.
Chi. M. L., Jiu . J., 2006, Heavy metal trace element distribution in groundwater in natural slopes and highly urbanized spaces in Mid-Level areas, Hong Kong  Water Research,  Vol: 40, p: 753-767.
 Divya. R. T., Sunil. B.,  Latha . C., 2011,  Physico-Chemical analysis of well water at Elloor industrial area- seasonal study  Current world Environment,  Vol: 6, p: 259-264.
Glenn. L., Sia. S., 2008, Assessing the effect of a dump site to groundwater quality in Payatas, Philippines, American Journal of Environmental Sciences 4 (4), p: 262-266.
Guler, C., Thyne, G, D., McCray,  J, E., Turner, A, K., 2002. Evaluation of graphical and multivariate statistical methods for classification of water chemistry data. Hydrogeology journal 10, p: 455-474.
 Kouping. C., Jiu. J. J., Jianmin., H., Runqiu. Huang.,  2007,   Multivariate statistical evaluation of trace elements in groundwater in coastal area in Shenzhen, China,  Environmental Pollution, Vol:  147, p: 771-780.
 Lueezkiewicz. A ., 2006, Soil and groundwater contamination as a result of sewage  sludge land application, Polish Journal of Environment, Vol: 15, No: 6, p: 869-876.
Shotyk. W., Krachler. M.,  Werner.  A. H., Hillier. S.,  Zheng . J.,  2010, Trace elements in recent groundwater of an artesian flow system  J. Environmental  Monitoring,  Vol: 12, p: 208-217.
 Simon. M., Diez. M., Gonzalez. V.,  2010, Use of liming in the remediation of soils polluted by sulphide  oxidation, Hazardous Material Journal, Vol: 180, p: 241-246.
Sukhdev. K., 2012, Application of statistical analysis in assessment of seasonal and temporal variations in groundwater quality, Bulletin of Environment, Pharmacology and Life Sciences, V: 1, p: 07-11.
Victor. N. B., Jagadeeswara. P. R., 2013, Impact of municipal solid waste on groundwater in environs of greater Visakhapatnam municipal corporation area, international journal of engineering science, Vol: 2, p: 28-32.
Vinod. J., Satish. D., Sapana. G., 2012, Physico-Chemical Parameters assessment of groundwater in different sites of Bhilai city Chhattisgarh. Rasayan Journal Chem, Vol: 5, p:506-509.
WHO, 2010, International Standards for Drinking Water, 3rd Ed. Geneva.