Study landfill development in Rasht And latex management in order to reduce pollution Anzali Lagoon

Document Type : Research Article

Authors

1 Assistant Professor, Faculty of New Sciences and Technologies, University of Tehran, Tehran, Iran

2 MSc, Faculty of New Sciences and Technologies, University of Tehran, Tehran, Iran

Abstract

Anzali lagoon is the most important aquatic ecosystems of northern Iran. This lagoon is very important in terms of environmental and economic. Deforestation in the Anzali lagoon is the most important environmental concerns of researchers. One of the polluting factors Anzali lagoon , river pollution is the entrance to the lagoon. By examining the landfill in Rasht , how to manage latex was investigated. As well as improving the existing landfill the amount of methane produced by the new landfill is studied. Latex  from the landfill by creating new output will increase from 1.5 % to 20 %. In the case of groundwater pollution will be prevented. Due to the high amount of rainfall in the city of Rasht latex discharge 120 cubic meters per day will be. Methane produced from landfill can be used to produce energy. In 2015, the amount of methane produced more than 10
5
cubic meters per year. Assuming a constant amount of waste entering the landfill, methane production by 2050 is 1.4 * 10
5
. The amount of wastewater produced by the anaerobic digester is 210,000 cubic meters per day.

Keywords

Main Subjects

References

]1[      عبدلی، محمدعلی؛ ریاحی بختیاری، علیرضا؛ محمدی، صمد، 1384، امکان‌سنجی تولید بیوکمپوست از زباله‌های شهری بابل, محیط‌شناسی شمارۀ 38: 22-19.
]2[      شهبازی، افسانه؛ مهرجو، فرزاد، 2013، منابع آلودگی آب‌های زیرزمینی و روش‌های احیا، انسان و محیط زیست، شمارۀ 11: 21-13.
]3[      پارک علم و فناوری، 1389، گیلان, طرح جامع مدیریت پسماند، حوزۀ مرکزی گیلان، سازمان مدیریت پسماند شهرداری رشت.
]4[      کرباسی، عبدالرضا؛ صابری، مجید؛ کاظمی، زیبا، 2006، مدیریت محیط زیست رودخانۀ سیاهرود و بررسی اقتصادی تصفیۀ پساب‌های ورودی به رودخانه، محیط‌شناسی شمارۀ 26.
]5[      رحمت‏، زرکامی. 1380، بررسی و مقایسۀ وضعیت عناصر غذایی در 4 رودخانۀ منتهی به تالاب انزلی, پژوهش و سازندگی، 45-41.
]6[        منوری، مسعود‎‎ٌْ عمرانی، قاسمعلی، قنبری. فاطمه‏، 1389، بررسی آلودگی ناشی از شیرابه در محل دفن پسماندهای شهر رشت، انسان و محیط زیست شمارۀ 8: 34-29.
 
]7[        ذوقی، محمدجواد؛ قویدل، آریامن، 1389، کاربرد مدل HELP در تخمین میزان شیرابۀ تولیدی در دفنگاه زباله، مطالعۀ موردی: محل دفن سمنان, سلامت و محیط شمارۀ 4.1: 76-65.
[8]      Foltz, R. C. (2001). Environmental initiatives in contemporary Iran. Central Asian Survey20(2), 155-165..
[9]        De Grave, S., & Ghane, A. (2006). The establishment of the oriental river prawn, Macrobrachium nipponense (de Haan, 1849) in Anzali Lagoon, Iran.Aquatic Invasions1(4), 204-208. De Grave, Sammy ،Ghane, Ahmad, The establishment of the Oriental River Prawn, Macrobrachium nipponense (de Haan, 1849) in Anzali Lagoon, Iran, Aquat. Invasions. 1 : 204–208. doi:10.3391/ai.2006.1.4.2.
 
[10]      Abedinzadeh, F., & MONAVARI, S. (2007). Study of solid waste management in industrial estate of rasht. 151–174. doi:10.1016/j.jconhyd.2010.08.009. Abedinzadeh, Farimah, Manavari, Masoud, Study of solid waste management in industrial Estate of RASHT, Environ. Sci. : 151–174. doi:10.1016/j.jconhyd.2010.08.009.
 
[11]   Valencia, R., Van der Zon, W., Woelders, H., Lubberding, H. J., & Gijzen, H. J. (2009). Achieving “Final Storage Quality” of municipal solid waste in pilot scale bioreactor landfills. Waste management29(1), 78-85. Valencia, Roberto, et al. "Achieving “Final Storage Quality” of municipal solid waste in pilot scale bioreactor landfills." Waste management 29.1: 78-85.
[12]    El-Fadel, M., Bou-Zeid, E., Chahine, W., & Alayli, B. (2002). Temporal variation of leachate quality from pre-sorted and baled municipal solid waste with high organic and moisture content. Waste management22(3), 269-282. M. El-Fadel, E. Bou-Zeid, W. Chahine, B. Alayli, Temporal variation of leachate quality from pre-sorted and baled municipal solid waste with high organic and moisture content, Waste Manag. 22 : 269–282. doi:10.1016/S0956-053X(01)00040-X.
[13]      Simon, F. G., & Müller, W. W. (2004). Standard and alternative landfill capping design in Germany. Environmental Science & Policy7(4), 277-290. Simon, Franz Georg, Müller, Werner W., Standard and alternative landfill capping design in Germany, Environ. Sci. Policy. 7 : 277–290. doi:10.1016/j.envsci.2004.04.002.
 
[14]      Brunner, D. R., & Keller, D. J. (1972). Sanitary landfill design and operation: US Environmental Protection Agency. Solid Waste Management series SW-65ts. Brunner, DR, Keller, DJ, Sanitary landfill design and operation: US Environmental Protection Agency.
 
[15]      Alexander, A., Burklin, C. E., & Singleton, A. (2005). Landfill gas emissions model (LandGEM) version 3.02 user's guide. US Environmental Protection Agency, Office of Research and Development. Alexander, Amy, Burklin, Clint, Singleton, Amanda, Landfill Gas Emissions Model (LandGEM) Version 3.02 User’s Guide : 1–56.

Files

History

  • Receive Date: 05 April 2015
  • Revise Date: 19 August 2015
  • Accept Date: 18 June 2015
  • First Publish Date: 18 June 2015
  • Publish Date: 21 March 2015

Share

How to cite

Statistics