Your search keyword '"Manav Demir, Neslihan"' showing total 19 results

1. Assessment of biochemical methane potential of dairy wastewater with different co-substrates and evaluation of different kinetic models

Author

Unal, Elif and Manav-Demir, Neslihan

Published

2024

2. Model-based fractionation of biomass in a biological nutrient removal system and its effect on the removal efficiencies

Author

Manav-Demir, Neslihan

Published

2023

3. Effluent parameters prediction of a biological nutrient removal (BNR) process using different machine learning methods: A case study

Author

Manav-Demir, Neslihan, Gelgor, Huseyin Baran, Oz, Ersoy, Ilhan, Fatih, Ulucan-Altuntas, Kubra, Tiwary, Abhishek, and Debik, Eyup

Published

2024

4. Assessment of biochemical methane potential of dairy wastewater with different co-substrates and evaluation of different kinetic models

Author

Unal, Elif, primary and Manav-Demir, Neslihan, additional

Published

2023

5. Model-Based investigation of the effects of reactors' hydraulic retention times on phosphorus removal efficiency in an AO process.

Author

YAŞAR, Sümeyye, MANAV DEMİR, Neslihan, ATÇI, Elif Burcu, and DEMİR, Selami

Subjects

*RF values (Chromatography), *TOTAL suspended solids, *PHOSPHORUS, *CHEMICAL oxygen demand, *NUCLEAR reactors

Abstract

This study presents the results of a simulation work performed using an activated sludge model to investigate the effects of reactors' hydraulic retention times (HRT) on phosphorus removal in a hypothetical anaerobic-oxic (AO) process. The simulations were performed for low, medium, and high influent phosphorus loads corresponding to influent C/P ratios of 100/1.0, 100/1.5, 100/2.0. For each of influent phosphorus loads, various anaerobic volume fractions (AVF) between 0.125 and 0.625 were used to test the response of the process that was investigated as a result of the change in hydraulic retention times. Additionally, removal efficiencies for chemical oxygen demand (COD), total nitrogen (TN), total phosphorus (TP), and total suspended solids (TSS) were also calculated. As a result of the study, maximum COD removal efficiencies for 100/2.0, 100/1.5 and 100/1.0 influent C/P ratios were determined as 91.8% for 0.250 AVF (for 100/2.0 and 100/1.5), and 91.7% for both 0.125 and 0.250 AVF, respectively. In all influent C/P ratios, the maximum TN removal efficiency was determined as 56.3% at 0.625 AVF, and the maximum TSS removal efficiency was determined as 93.3% at 0.125 AVF. Maximum TP removal efficiencies were determined as 92.8%, 90.8% and 86.2% for 100/2, 100/1.5 and 100/1 input C/P ratios at 0.375 AVF, respectively. Results showed that total phosphorus (TP) removal efficiency is determined by both influent C/P ratio and AVF in AO process. Of these, the effect of AVF is more prominent. For efficient removal of phosphorus, AVF ratios of 0.25 to 0.375 should be employed. [ABSTRACT FROM AUTHOR]

Published

2023

6. Model-based fractionation of biomass in a biological nutrient removal system and its effect on the removal efficiencies

Author

Manav-Demir, Neslihan, primary

Published

2022

7. Biodegradation of Emerging Pharmaceuticals from Domestic Wastewater by Membrane Bioreactor: The Effect of Solid Retention Time

Author

ALOBAIDI, Raghad Asad Kadhim, primary, ULUCAN-ALTUNTAS, Kubra, additional, MHEMID, Rasha Khalid Sabri, additional, MANAV-DEMIR, Neslihan, additional, and CINAR, Ozer, additional

Published

2021

8. MODEL-BASED ANALYSIS OF THE EFFECTS OF RECYCLE RATIOS ON THE PERFORMANCE OF AN A²O PROCESS

Author

MANAV DEMİR, Neslihan and DEMİR, Selami

Subjects

Fen, Science, A²O process,internal recycle,return activated sludge,activated sludge modeling

Abstract

This study presents findings of a modeling work in which the effects of internal recycle (IR) and return activated sludge (RAS) ratios on the treatment performance of an A²O process were investigated. Simulations were performed using activated sludge model no.3 extended with biological phosphorus removal processes at an influent wastewater temperature of 20°C. The results showed that not only IR ratio but also RAS ratio affects both nitrogen and phosphorus removal processes. The removal efficiencies for total nitrogen (TN) and total phosphorus (TP) changed between 71%–83% and 53%–80%, respectively, at different IR and RAS ratios. On the other hand, chemical oxygen demand (COD), total Kjeldahl Nitrogen (TKN), and total suspended solids (TSS) removal efficiencies stayed relatively constant at around 90%, 96%, and 93%, respectively, with varying IR and RAS ratios. Results indicated that an optimum set of IR and RAS ratios can be found out by activated sludge modeling. For A²O process, an IR ratio of 2.5 to 3.5 at a RAS ratio of 0.75 to 0.90 offer the best performance in terms of both TN and TP removal efficiencies.

Published

2020

9. IMPLEMENTATION OF AN MS EXCEL TOOL FOR BACKPROPAGATION NEURAL NETWORK ALGORITHM IN ENVIRONMENTAL ENGINEERING EDUCATION

Author

DEMİR, Selami, MANAV DEMİR, Neslihan, KARADENİZ, Aykut, and CİVELEK YÖRÜKLÜ, Hülya

Subjects

Engineering, Mühendislik, Environmental modeling,education,neural networks,visual basic for applications

Abstract

This paper presents the implementation of an MS Excel tool for backpropagation neural networks in environmental engineering education. A number of test cases, Darcy friction factor and oxygen solubility, were also provided to test the performance of the tool. Relative mean square errors and coefficients of determination for Darcy friction factor were calculated as 1.53*10-3±0.59*10-3 and 0.9983±0.0003 while they were calculated as 4.78*10-4±2.33*10-4 and 0.9998±0.0000 for oxygen solubility. Results suggested that the tool’s performance is satisfactory. The tool produces satisfactorily fast and reliable results and can be used for environmental education in undergraduate/graduate level.

Published

2017

10. AN MS EXCEL TOOL FOR PARAMETER ESTIMATION BY MULTIVARIATE NONLINEAR REGRESSION IN ENVIRONMENTAL ENGINEERING EDUCATION

Author

DEMİR, Selami, KARADENİZ, Aykut, CİVELEK YÖRÜKLÜ, Hülya, and MANAV DEMİR, Neslihan

Subjects

Fen, Environmental modeling,optimization,multivariate nonlinear regression,MS Excel, Science

Abstract

This paper presents the implementation of an MS Excel tool for parameter optimization in environmental engineering education. Visual Basic for Applications v7.0 were used for implementation of the program. A number of test cases were also provided to test the performance of the tool including the fields of air pollution control, water treatment, and anaerobic treatment. For each test case, calculated coefficients of determination were 0.98 and above. Results suggested that the MS Excel tool produces satisfactorily fast and reliable results, and can be used confidently for optimization works in environmental studies.

Published

2017

11. EFFECTS OF VARYING INLET IRON AND MANGANESE CONCENTRATIONS ON SLOW SAND FILTER PERFORMANCE

Author

MANAV DEMİR, Neslihan, ATCI, Elif Burcu, and DEMİR, Selami

Subjects

Engineering, Mühendislik, Slow sand filter,iron-manganese removal,microbial community,schmutzdecke

Abstract

In this study a laboratory-scale slow sand filter (SSF) is used for removal of iron and manganese and the effects of various inlet concentrations on removal efficiency were investigated. SSF was operated at a filtration rate of 0.2 m.h-1 with two different synthetic inlet waters (Run1 and Run2). Iron and manganese concentrations in two runs were 1.09±0.13mg.L-1–1.06±0.10 mg.L-1 for Run1 and 2.02±0.15 mg.L-1–2.10±0.14 mg.L-1 for Run2. In Run1, the removal efficiencies of 96.3±2.48%, 92.3±6.1%, 92.6±5.7%, and 55.3±8.3% were obtained for turbidity, iron, manganese and total organic carbon (TOC), respectively. In Run2, on the other hand, the removal efficiencies were obtained as 97.9±1.3%, 93.1±8.1%, 94.4±5.8%, and 55.5±6.8%, respectively. Results suggested that the SSF was the most efficient in turbidity removal at a filtration rate of 0.2 m.h-1. Sequence analyses of DGGE bands from Run1 and Run2 were also performed and results indicated that a range of bacteria were present, with 16S rRNA gene sequences similar to groups such as Gallionella, Leptothrix, Crenothrix, and an uncharacterized environmental clone.

Published

2016

12. BİYOLOJİK ATIKSU ARITMA TESİSLERİNDE KARBON VE AZOT GİDERİM VERİMLERİNİN TAHMİNİ AMACIYLA YAPAY SİNİR AĞLARININ KULLANIMI

Author

MANAV DEMİR, Neslihan, primary

Published

2017

13. Comparison of microbial community structure in a biological nutrient removal process at various stages of operation

Author

Manav Demir, Neslihan, primary, Debik, Eyup, additional, Ozkaya, Bestami, additional, and Coskun, Tamer, additional

Published

2016

14. Treatment of domestic wastewaters by two different pilot scale treatment processes

Author

MANAV DEMİR, Neslihan, YILDIRIM, Asuman, BALÇIK, Çiğdem, COŞKUN, Tamer, and DEBİK, Eyüp

Subjects

Domestic wastewater,modified 5- stage Bardenpho,cascade feeding,nutrient removal, Biyoteknoloji, Biotechnology

Abstract

This paper presents the results of a study in which a pilot scale five-stage biological nutrient removal system with an active volume of 8.6 m3 was operated with two different processes to remove carbon and nutrients from domestic wastewaters. During the application of both processes, hydraulic retention time was 16.08 hours, MLSS concentration was between 4500 and 5500 mg/L, and sludge age was about 15 days. The sludge volume index (SVI) ranged from 50 to 150 mL/g. Both processes were evaluated in the aspect of their performances for COD, TKN, NH4-N, TP, PO4-P, SS, and VSS removal efficiencies. The removal efficiencies for the first process, which is a new process (A – Modified Five-Stage Bardenpho process), were 86.5%, 85.5%, 92.7%, 88.9%, 88.1%, 93.7%, and 93.5%, respectively for COD, TKN, NH4-N, TP, PO4-P, SS, and VSS, while the removal efficiencies were 86.7%, 84.0%, 92.5%, 89.5%, 87.5%, 94.8%, and 95.0%, respectively, for the second process (B – Two- Stage, Cascade Biological Nutrient Removal process). The results suggested that both processes are suitable for carbon and nutrient removal from domestic wastewaters and they can be employed in full-scale treatment plants.

Published

2013

15. İleri biyolojik arıtma proseslerinde nütrient giderimi ve mikroorganizma türlerinin incelenmesi

Author

Manav Demir, Neslihan, Debik, Eyüp, and Çevre Mühendisliği Anabilim Dalı

Subjects

Environmental Engineering, Çevre Mühendisliği, Waste water treatment, Biological treatment

Abstract

Dünya nüfusunun günden güne artmasına bağlı olarak oluşan atıksu miktarı da artış göstermekte ve bu durum atıksuların arıtılması maksadıyla daha ekonomik ve çevre dostu sistemlerin geliştirilmesi ihtiyacını ortaya çıkarmaktadır.Bu çalışmada evsel atıksuların arıtılması maksadıyla İSKİ Ataköy İleri Biyolojik Atıksu Arıtma Tesisi'nde bulunan 8,6 m3 hacimli 10 m3/gün kapasiteli pilot ölçekli biyolojik atıksu arıtma prosesi kullanılmış olup, çalışmada yeni geliştirilen Modifiye Beş Kademeli Bardenpho Prosesi ve İki Kademeli Kaskat Beslemeli Biyolojik Nütrient Giderim Prosesi olmak üzere iki farklı prosesin arıtma performansı ve işletme sürecinde sistemlerdekimikroorganizma tipleri ortaya konmuştur.Bu maksatla çalışmada ilk aşamada KOİ, TKN, NH4-N, NO2-N, NO3-N, TP, PO4-P ve AKM konsantrasyonları sırasıyla 645±115 mg/L; 79±13 mg/L; 52±9 mg/L; 0,04±0,03 mg/L; 0,11±0,10 mg/L; 7,9±0,8 mg/L; 3,4±0,7 mg/L ve 321±156 mg/L olan gerçek evsel atıksukullanılmış ve geri devir oranı %80 olan yeni geliştirilen Modifiye Beş Kademeli Bardenpho Prosesi kullanılarak biyolojik olarak arıtımı incelenmiştir. Çalışma sonucunda yeni geliştirilen Modifiye Beş Kademeli Bardenpho Prosesi'nde tüm işletme süresince elde edilen ortalama KOİ, TKN, NH4-N, TP, PO4-P ve AKM giderim verimleri sırasıyla %76; %63; %68; %80; %72 ve %80 olarak belirlenmiştir. Ancak çalışmada sekizinci haftadan sonra kararlı duruma ulaşılmış ve bu haftadan sonra elde edilenanaliz neticelerine göre giderim verimleri değerlendirilmiştir. Bu durumda kararlı hal durumunda KOİ, TKN, NH4-N, TP, PO4-P ve AKM için ortalama giderim verimleri sırasıyla%87; %86; %93; %89; %88 ve %94 olarak tespit edilmiştir. Yeni geliştirilen Modifiye Beş Kademeli Bardenpho Prosesi'nin uygulandığı ilk aşamada mikrobiyal tür analizleri degerçekleştirilmiş olup, kararlı hal için arıtımdan sorumlu bakteriler olarak Nitrosomonas, Nitrosospira, Accumulibacter, Dechloromonas, Firmicutes cinslerine ait türler ve diğer tanımlanmamış türler belirlenmiştir.İkinci aşamada iki Kademeli Kaskat Nütrient Giderme Prosesi çalışmalarına geçilmiş olup; bu aşamada giriş atıksuyu (10 m3/gün) ikiye bölünerek %50'si (~5 m3/gün) bio-P ünitesine, %50'si (~5 m3/gün) ise denitrifikasyon2 ünitesine beslenmiştir. Çalışma parametrelerinin değiştirilmediği bu aşamada giriş KOİ, TKN, NH4-N, NO2-N, NO3-N, TP, PO4-P ve AKM konsantrasyonları sırasıyla 555±60 mg/L; 72±7 mg/L; 44±7 mg/L; 0,03±0,02 mg/L; 0,06±0,04 mg/L; 8,1±0,4 mg/L; 4,0±0,5 mg/L ve 316±47 mg/Lözelliğinde evsel atıksu kullanılmıştır. Prosesin iki Kademeli Kaskat Nütrient Giderme Prosesi şeklinde işletilmesi sonucunda KOİ, TKN, NH4-N, TP, PO4-P ve AKM için elde edilen giderim verimleri sırasıyla %87; %84; %93; %90; %88 ve %95 olarakbelirlenmiştir. Çalışmanın bu aşamasında da mikrobiyal tür analizleri gerçekleştirilmiştir. Arıtımdan sorumlu bakteriler olarak Nitrosomonas, Nitrosospira, Accumulibacter, Dechloromonas ve diğer tanımlanmamış türler tespit edilmiştir.Her iki proses için elde edilen verimler ve işletme koşulları dikkate alındığında yeni geliştirilen Modifiye Beş Kademeli Bardenpho Prosesi'nin orta kuvvetli atıksular için daha uygun olacağı ortaya konmuştur. Diğer taraftan literatürde çoğunluklalaboratuvar ölçekli çalışmaların bulunması sebebiyle, çalışmanın literatüre önemli bir katkı sağlayacağı düşünülmüştür. Gradual increase in world?s population has lead to increase in wastewater generationrates, which, in turn, brings the necessity of development of treatment systems thatare more cost-efficient and more environmentally friendly.This study focuses on the use of a pilot-scale biological treatment process of totalvolume 8.6 m3 and capacity 10 m3.d-1 installed within the ISKI Ataköy AdvancedBiological Wastewater Treatment Plant. Two different processes, one being the newlydevelopedModified five-stage Bardenpho process and the other one being two-stagecascade-feed biological nutrient removal process, were evaluated in the aspect theirtreatment performances. Besides, microorganism speciation was done during theoperating period for each process.In the first stage of the study, the treatment of the domestic wastewater with COD =645±115 mg.L-1, TKN = 79±13 mg.L-1, NH4-N = 52±9 mg.L-1, NO2-N = 0.04±0.03 mg.L-1,NO3-N = 0.11±0.10 mg.L-1, TP = 7.9±0.8 mg.L-1, PO4-P = 3.4±0.7 mg.L-1, and SS =321±156 mg.L-1, by newly-developed Modified five-stage Bardenpho process with arecycle ratio of 80% was investigated. The average treatment efficiencies for COD,TKN, NH4-N, TP, PO4-P, and SS by the newly developed process during the whole studyperiod were 76%, 63%, 68%, 80%, 72%, and 80%, respectively. The results showed thatthe system has reached steady-state conditions after 8 weeks of operation. Understeady-state conditions, the treatment efficiencies were calculated as 87%, 86%, 93%,89%, 88%, and 94%, respectively. Microbial speciation was also done during the whole period, the results of which suggested that Nitrosomonas, Nitrosospira,Accumulibacter, Dechloromonas, Firmicutes, and some other uncultured genus wereresponsible for the treatment during the steady-state conditions.In the second stage, the process was converted into a Two-Stage Cascade-FeedBiological Nutrient Removal Process by feeding fifty percent of the inlet wastewater (5m3.d-1) to the bio-P unit, and the rest (5 m3.d-1) to the denitrification2 unit by keepingall other operational parameters constant. Average wastewater characterizationduring this stage of the study COD = 555±60 mg.L-1, TKN = 72±7 mg.L-1, NH4-N = 44±7mg.L-1, NO2-N = 0.03±0.02 mg.L-1, NO3-N = 0.06±0.04 mg.L-1, TP = 8.1±0.4 mg.L-1, PO4-P= 4.0±0.5 mg.L-1, and SS = 316±47 mg.L-1. The treatment efficiencies for COD, TKN, NH4-N, TP, PO4-P, and SS were calculated as 87%, 84%, 93%, 90%, 88%, and 95%,respectively. It was determined that the microorganisms responsible for the treatmentin this Two-Stage Cascade-Feed Biological Nutrient Removal Process wereNitrosomonas, Nitrosospira, Accumulibacter, Dechloromonas, and some otheruncultured genus.Comparing the treatment performances of and operational conditions for bothprocesses, newly-developed Modified five-stage Bardenpho Process would be a betterselection for medium-strength domestic wastewaters. On the other hand, this study isto contribute much to the current literature considering the fact that literature data iscomposed mostly of lab-scale studies. 145

Published

2012

16. Treatment of poultry slaughterhouse wastewater using a membrane process, water reuse, and economic analysis

Author

Coskun, Tamer, primary, Debik, Eyup, additional, Kabuk, Harun Akif, additional, Manav Demir, Neslihan, additional, Basturk, Irfan, additional, Yildirim, Burcu, additional, Temizel, Duygu, additional, and Kucuk, Seyma, additional

Published

2015

17. MUNICIPAL WASTEWATER TREATMENT WITH A PILOT SCALE TWO-STAGE CASCADE BIOLOGICAL NUTRIENT REMOVAL PROCESS.

Author

MANAV DEMİR, Neslihan, DEBİK, Eyüp, and COŞKUN, Tamer

Subjects

*WASTEWATER treatment, *BIOLOGICAL nutrient removal, *SEDIMENTATION & deposition, *PILOT plants, *ANAEROBIC reactors

Abstract

In this study, a pilot-scale, two-stage cascade biological nutrient removal (TSC-BNR) process with a 10 m3.d-1 capacity was used in order to remove carbon and nutrient from municipal wastewater. The process was composed of screens, a primary sedimentation tank, a distribution tank, an anaerobic tank, anoxic1/aerobic1/anoxic2/aerobic2 tanks, and a final sedimentation tank. Real (Sewer system) wastewater was fed to the pilot plant and the inflow was fed to the anaerobic and anoxic2 tanks at the same rates to eliminate the need for external carbon source in the second stage anoxic tank. The mixed liquor suspended solids (MLSS) concentration was kept between 4500 and 5500 mg.L-1 during the study. The sludge retention time was 15 days and the hydraulic retention time was 16 hours. The average concentrations of chemical oxygen demand (COD), total nitrogen (TN), ammonium nitrogen (NH4+-N), total phosphorus (TP), phosphate phosphorus (PO43--P), suspended solids (SS), and volatile suspended solids (VSS) in the influent were 555 mg.L-1, 71.9 mg.L-1, 44.0 mg.L-1, 8.1 mg.L-1, 4.0 mg.L-1, 316 mg.L-1, and 230 mg.L-1, respectively, the average removal efficiencies were 86.7±10.4%, 80.3±11.0%, 92.5±10.1%, 89.5±6.8%, 87.5±8.8%, 94.8±3.2%, and 95.0±3.4%, respectively. The results indicated that TSC-BNR process can be confidently used for the removal of carbon and nutrients from medium-strength municipal wastewaters. [ABSTRACT FROM AUTHOR]

Published

2016

18. Treatment of poultry slaughterhouse wastewater using a membrane process, water reuse, and economic analysis.

Author

Coskun, Tamer, Debik, Eyup, Kabuk, Harun Akif, Manav Demir, Neslihan, Basturk, Irfan, Yildirim, Burcu, Temizel, Duygu, and Kucuk, Seyma

Subjects

SLAUGHTERING, POULTRY, WATER reuse, ECONOMIC research, CHEMICAL oxygen demand, REVERSE osmosis

Abstract

Poultry slaughterhouse wastewater, which represents one of the most important pollutants in Turkey, is generally treated with conventional biological processes in Turkey and around the world. In this study, poultry slaughterhouse wastewater was treated using laboratory-scale membrane processes, which were substituted for conventional processes. The performances of the membrane processes were investigated in terms of chemical oxygen demand (COD), conductivity, and membrane fluxes. Economic analyses were conducted for several membrane system alternatives. In addition, the alternatives were compared with each other and with conventional economic analysis of the data obtained in this study and data from several previous studies. The membranes used for the membrane processes were AG for reverse osmosis (RO), DK for nanofiltration (NF), and ER for ultrafiltration (UF). The highest COD removal efficiencies were 90% for NF and 97.4% for RO, and the conductivities decreased by 51.7% for NF and 96.6% for RO. When the (UF) was not used, the long-term membrane fluxes of the RO and (NF) sharply decreased, which increased the operation costs of these processes. Therefore, RO and NF without pre-treatment and with UF were not effective for this wastewater. According to the economic analysis results, the operational costs of the RO and NF after UF, the UF alone, and the conventional treatment process were 0.66, 0.70, 0.79, and 1.66 $/m3, respectively. Because the operational cost of the conventional treatment process was 2.5 times greater than RO after pre-treatment with UF, it was deduced that this membrane process combination was a suitable treatment alternative for treating poultry slaughterhouse wastewater. [ABSTRACT FROM PUBLISHER]

Published

2016

19. Farklı filtrasyon hızları ve demir-mangan konsantrasyonlarının filtre verimine etkisinin araştırılması

Author

Atçi, Elif Burcu, Demir, Selami, Manav Demir, Neslihan, and Çevre Mühendisliği Anabilim Dalı

Subjects

Environmental Engineering, Çevre Mühendisliği

Abstract

Bu çalışmada yeraltı sularından demir ve mangan gidermek maksadıyla laboratuvar ölçekli yavaş kum filtresi kullanılmıştır. Çalışmada farklı filtrasyon hızlarının ve farklı demir-mangan konsantrasyonlarının filtre verimine etkisi araştırılmıştır. Laboratuvar ölçekli yavaş kum filtresi sistemi, 40 cm x 60 cm x 50 cm boyutlarında iki adet paralel filtreden oluşmaktadır. Filtrenin işletilmesi süresince yük kayıplarını tespit etmek maksadıyla farklı derinliklerde manometreler kullanılmıştır. Ayrıca her işletme şartında etkin türlerin tespiti için mikrobiyal tür analizi yapılmış olup bu analiz için her işletme şartında farklı derinliklerde numuneler alınmıştır . Yavaş kum filtresinde uygulanan işletme şartları sırasıyla şu şekildedir: YKF1: 1 mg/L demir- mangan ve 0,1 m/sa, YKF2: 2 mg/L demir-mangan ve 0,1 m/sa, YKF3: 1mg/L demir mangan ve 0,2 m/sa, YKF4: 2 mg/L demir-mangan ve 0,2 m/sa YKF5: 1 mg/L demir-mangan ve 0,3 m/sa, YKF6: 2 mg/L demir-mangan ve 0,3 m/sa. İşletme süresince YKF1, YKF2, YKF3, YKF4, YKF5 ve YKF6 için belirlenen ortalama bulanıklık giderim verimleri sırasıyla %94,8±2,8, %95,9±2,6, %96,3±2,4, %97,9±1,3, %97,7±0,8 ve %98,2±0,8'dIr. İşletme süresince YKF1, YKF2, YKF3, YKF4, YKF5 ve YKF6 için tespit edilen ortalama demir giderim verimleri sırasıyla %90,4±4,8, %94,4±3,2, %92,3±6,1, %93,1±8,1 %93,4±4,4 ve %95,4±4,8'dir. İşletme süresince YKF1, YKF2, YKF3, YKF4, YKF5 ve YKF6 için belirlenen ortalama mangan giderim verimleri ise sırasıyla %90,3±5,8, %95,4±5,2, %92,7±5,7, %94,3±5,7 %94,9±6,1 ve %95,9±3,5'dir. İşletme süresince YKF1, YKF2, YKF3, YKF4, YKF5 ve YKF6 için tespit edilen ortalama toplam organik karbon giderim verimleri sırasıyla %52,3±3,6, %49,3±5,8, %55,3±8,3, %55,5±6,8 %52,0±4,8 ve %57,6±8,2'dir. Çalışmada her işletme şartı için etkin mikrobiyal türler; Gallionella sp., Leptothrix sp., Crenothrix sp. ve Hyphomicrobium sp. olarak bulunmuştur. In this study, a laboratory-scale slow sand filter was used to remove iron and manganese from ground waters. The effects of different filtration rates and different iron-manganese concentrations on the filtration efficiency were investigated. The laboratory-scale slow sand filter with 40x60x50 cm dimensions composed of two filter units in parallel. Headloss through the filters was measured by several manometers at various depths of the filter units. In addition, microbial species analysis was carried out to determine the active species and samples were taken at different depths in each operating conditions. Operating conditions in experimental study includes: SSF1: 1 mg/L Fe-Mn at 0.1 m/h, SSF2: 2 mg/L Fe-Mn at 0.1 m/h, SSF3: 1 mg/L Fe-Mn at 0.2 m/h, SSF4: 2 mg/L Fe-Mn at 0.2 m/h, SSF5: 1 mg/L Fe-Mn at 0.3 m/h, SSF6: 2 mg/L Fe-Mn at 0.3 m/h. Average turbidity removal efficiencies in SSF1, SSF2, SSF3, SSF4, SSF5, and SSF6 were 94.8±2.8%, 95.9±2.6%, 96.3±2.4%, 97.9±1.3%, 97.7±0.8% and 98.2±0.8%, respectively. On the other hand, iron removal efficiencies were 90.4±4.8%, 94.4±3.2%, 92.3±6.1%, 93.1±8.1%, 93.4±4.4% and 95.4±4.8%, while manganese removal efficiencies were 90.3±5.8%, 95.4±5.2%, 92.7±5.7%, 94.3±5.7%, 94.9±6.1% and 95.9±3.5%, respectively. Average total organic carbon removal efficiencies in SSF1, SSF2, SSF3, SSF4, SSF5, and SSF6 were 52.3±3.6%, 49.3±5.8%, 55.3±8.3%, 55.5±6.8%, 52.0±4.8% and 57.6±8.2%, respectively. Effective microbial species for each operating condition in the study; Gallionella sp., Leptothrix sp., Crenothrix sp. and Hypochondrium sp. was found. 121

Published

2017