Pollutants of Painting Process in Automotive Industry "Case study: Paint Shop of Saipa Automotive Industry"
Subject Areas : environmental managementSeid Mostafa Khezri 1 , Azadeh Akhavan Bloorchian 2 * , Seid Masoud Monavari 3 , Farideh Attabi 4
1 - Assistant Professor, Faculty of Energy and Environment, Azad Islamic University, Tehran Science and
Research Campus
2 - MSc. Environmental Pollution, faculty of Energy and Environment, Azad Islamic University, Tehran Science
and research Campus
3 - Assistant Professor, Faculty of Energy and Environment, Azad Islamic University, Tehran Science and
Research Campus
4 - Assistant Professor, Faculty of Energy and Environment, Azad Islamic University, Tehran Science and
Research Campus
Keywords: Car industry, Paint sludge, Pollution, XRF, XRD,
Abstract :
Produced paint sludge of automotive Industry has heavy metals and because of this, has high pollutionpotential. Incorrect Disposal of paint sludge led to kinds of environmental pollution. The object of thisInvestigation was identification of main pollutants of paint sludge that can be database to presentingprofitable economic solution for recycling of that. For identifying elements and concentration of paintsludge, various tests have been carried out. These tests contains: XRF3, XRD4 and DTA5.Results proved existing heavy metal elements like copper (1.5 gr/lit), zinc (13.09 gr/lit), Aluminum(58.76 gr/lit), Magnesium (23.004 gr/lit), Titanium (32.68 gr/lit), Vanadium (0.9 gr/lit) and etc.Comparing with environmental Standards showed that most kind of these elements are out of standardranges and are noticeable pollutant elements. These results show the necessity of gaining solution forrecycling of paint sludge. Then, more research about this case for deleting or decreasing pollutions issuggested
- FUJI Heavy Industries (SUBARU), 2001-2007, "Environment and Social report", www.fhi.co.jp
- "Environmental Report", 2003, www.Toyotageorgetown.com
- Mitsubishi manufacturing, 2000, "Environmental report".
- Global Environment Center Foundation, "The reduction and recycling of waste from a painting process in automobile manufacturing", www.nett.gec.jp
- ذکایی، فرزین، جعفری، احد، حریرچیان، سمن. 1383، "امکانسنجی استفاده از محصول بازیافتی از لجن سالنهای رنگ به عنوان مکمل بتن و آسفالت".
- Amptek website, 2002" X-ray Fluorescence Spectroscopy" 14 De Angelo Drive, Bedford, MA 01730-2204, USA.
- Wcaslab website. http://www.wcaslab.com
- Bhadeshia Heiny, paul. A, 1996, "what is X-ray diffraction?, phisics,upenn.edu website. www.phisics,upenn.edu
- Bhadeshia H.K.D.H. 2004, “Thermal analyses techniques. Differential thermal analysis”. University of Cambridge, Material Science and Metallurgy.
- Agency for Toxic Substances and Disease Registry (ATSDR). 2004. Toxicological Profile for strontium. Atlanta, GA: U.S. Department of Health and Human Services, Public Health Service.
- Scottish Environment Protection Agency (SEPA), 2002,"State of the Environment Soil Quality Report".
- استاندارد میزان مجاز عناصر، سایت سازمان حفاظت محیط زیست،www.doe.com
- Singapore wastewater Effluent Standard, 2007. www.treatment .com.cn
- Occupational Safety & Health Administration (OSHA) website. www.OSHA.com
حبیبی کاسب، حسین، 1371، "مبانی خاکشناسی جنگل"، انتشارات دانشگاه تهران