بررسی واحدهای عملکردی و روش ساخت تصفیه خانه های آب
محورهای موضوعی :
مدیریت منابع آب
فریبرز یوسفوند
1
,
رامین بیات
2
1 - گروه مهندسی آب، دانشکده فنی و مهندسی، واحد کرمانشاه، دانشگاه آزاد اسلامی، کرمانشاه، ایران
2 - آموزشکده فنی و حرفه ای سما، دانشگاه آزاد اسلامی، واحد کرمانشاه، کرمانشاه، ایران
تاریخ دریافت : 1398/08/18
تاریخ پذیرش : 1398/11/21
تاریخ انتشار : 1401/04/01
کلید واژه:
آلاینده,
مخزن,
فیلتر شنی,
تصفیه خانه آب,
روش ساخت,
چکیده مقاله :
زمینه و هدف: آب تصفیه شده یکی از ارکان بسیار مهم در سلامت جوامع انسانی می باشد، لذا سعی در تصفیه آب از طریق تصفیه خانه های آب حتی با هزینه های بالا امری قابل توجیه می باشد. آب های سطحی غالبا دارای تنوع بیشتری از آلاینده ها نسبت به آب های زیرزمینی هستند و به همین دلیل فرآیندهای تصفیه ممکن است برای این قبیل آب ها پیچیده تر باشد. در تصفیه خانه های آب، پروسه تصفیه از طریق لوله ورودی به تصفیه خانه شروع و با عبور از سازه های آشغال گیر، هوادهی، میکرواسترینر، اختلاط سریع، سوپرپولساتور، فیلتر شنی و مخزن وارد جریان آب شهری می گردد و در این بین سازه های همچون تغلیظ کننده ، تانک بازیافت و آب گیری مکانیکی آلوده را به دو بخش قابل تصفیه و غیر قابل تصفیه تقسیم کرده و مواد جامد غیرقابل تجزیه را به خارج از مخزن هدایت می نمایند.
روش بررسی: این مقاله با بررسی پایگاه های معتبر علمی و تجربیات نویسندگان به بررسی روش ساخت و عملکرد بخش های مختلف تصفیه خانه های آب به صورت اجرایی و علمی پرداخته است.
یافته ها: عملکرد بخش های مختلف تصفیه خانه و روش ساخت آن ها مورد تجزیه و تحلیل قرار گرفته و اهمیت و جایگاه هر یک از بخش ها مورد بحث و بررسی قرار گرفته است.
بحث و نتیجه گیری: فرآیند تصفیه آب از زمان ورود به تصفیه خانه تا خروج از آن به صورت جز به جز به انضمام روش ساخت مورد بررسی قرار گرفت که اطلاعات سودمندی جهت برنامه ریزان و طراحان و فعالان در این زمینه قرار می دهد.
چکیده انگلیسی:
Background and purpose: Purified water is one of the most important elements in the health of human societies, so trying to purify water through water treatment plants is justifiable even with high costs. Surface waters often have a greater variety of pollutants than underground waters, and for this reason, treatment processes may be more complicated for such waters. In water treatment plants, the purification process starts through the inlet pipe to the treatment plant and enters the urban water stream by passing through garbage collection structures, aeration, microstrainer, rapid mixing, superpulsator, sand filter and tank. Like the concentrator, the recycling tank and the contaminated mechanical dewatering are divided into two parts that can be treated and cannot be treated, and the non-degradable solids are directed out of the tank.
Research method: This article has investigated the construction method and performance of different parts of water treatment plants in an executive and scientific way by reviewing reliable scientific databases and the experiences of the authors.
Findings: The performance of different parts of the treatment plant and their construction methods have been analyzed and the importance and position of each part has been discussed.
Discussion and conclusion: The process of water purification from the time of entering the water treatment plant to the time of its exit was investigated in detail, including the construction method, which provides useful information for planners, designers and activists in this field
منابع و مأخذ:
1- Yaqoubi Rikandei, Abbas, 2015, the performance of the wastewater treatment plant of Sari industrial town and the comparison of the effluent with the Iranian standard, International Conference on Architectural Engineering and Urban Planning, Tehran (In Persian)
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10- Petroleum, 2010. Petroleum Refining Water/Wastewater use and Management. IPIECA Operation Best Practice Series, IPIECA,London, UK.
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1- Yaqoubi Rikandei, Abbas, 2015, the performance of the wastewater treatment plant of Sari industrial town and the comparison of the effluent with the Iranian standard, International Conference on Architectural Engineering and Urban Planning, Tehran (In Persian)
2- Heydarzadeh Darzi, Hamid; Davoud Cherghani and Mahmoud Farrokhi, 2016, Biological removal of phenol from industrial wastewater using activated sludge, the third national conference of modern technologies in chemistry, petrochemical and nano Iran, Tehran (In Persian)
3- Zarei, Amnieh; Mohsen Nosrati and Mehrdad Rogigian, 2015, a review of activated sludge systems in treatment plants, National Conference on New Researches in Technical and Engineering Sciences, Ardabil(In Persian)
4- Hamzapour, Asia; Afshin Takdestan and Reza Jalilzadeh, 2015, investigation of the effectiveness of slow sand filter in removing organic matter (BOD, COD) and microbial index from the water of Karkhe River, 8th National Conference and Specialized Exhibition of Environmental Engineering, Tehran (In Persian)
5- Sai, Farshid; Sahar Rezaiyan and Razieh Rahimi, 2016, Evaluation of Wastewater Treatment Plant Efficiency: A Case Study of Yazd City, 8th National Conference and Specialized Exhibition of Environmental Engineering, Tehran (In Persian)
6- Annor, F.O., van de Giesen, N., Liebe, J., van de Zaag, P., Tilmant, A., Odai, S.N., 2014. Delineation of small reservoirs using radar imagery in a semi-arid environment: a case study in the upper east region of Ghana. Phys. Chem. Earth 34 (4–5), 309–315
7- Gill, A.C., McPherson, A.K., Moreland, R.S., 2015. Water Quality and Simulated Effects of Urban Land-use Change in J.B. Converse Lake Watershed,. Geological Survey,
8- Wright, K.C., Kim, H.S., Cho, D.J., Rabinovich, A., Fridman, A., Cho,Y.I., 2014. New fouling prevention method using a plasma gliding arc for produced water treatment. Desalination 345,64–71.
9- Banat, S.A.-A.F., Qtaishat, M., 2010. Treatment of waters colored with methylene blue dye by vacuum membrane distillation. Desalination 174, 87–96.
10- Petroleum, 2010. Petroleum Refining Water/Wastewater use and Management. IPIECA Operation Best Practice Series, IPIECA,London, UK.
