Araştırma Makalesi
Yıl 2011,
Cilt: 15 Sayı: 2, 97 - 104, 01.12.2011
Öz
-
Kaynakça
- Bozoğlan, M., TKİ Kurumu bünyesindeki çevresel önlemler ve bu önlemlerin maliyet analizleri. Çevre ve Enerji Kongresi, 192, 491, (1997).
- Baba, A., Yatağan (Muğla) Termik Santrali atık depolama sahasının yer altı sularına etkisi. Jeoloji Mühendisliği, 25, 2, (2001).
- TKİKGM., Türkiye Kömür İşletmeleri Kurumu Genel Müdürlüğü, Kömür Sektör Raporu (Linyit),
- TUİK., Türkiye İstatistik Kurumu, www.tuik.gov.tr, (2010).
- Yeheyis, M. B., Shang, J. Q. and Yanful, E. K., Chemical and mineralogical transformations of coal fly ash after landfilling. 2009 World of Coal Ash (WOCA) Conference – May 4-7, 2009 in Lexington, KY, USA, (2009).
- Oueralt, I., Ouerol, X., López-Soler, A. and Plana, F., Use of coal fly ash for ceramics: a case study for a large Spanish power station. Fuel, Vol, 76, No. 8, pp. 787-791, (1997).
- Zhang, J., Dong, W., Li, Juan., Qiao, L., Zheng, J., Sheng, J., Utilization of coal fly ash in the glass–ceramic production. Journal of Hazardous Materials, 149, pp. 523–526, (2007).
- Kim, J.M., Kim, H.S., Processing and properties of a glass-ceramic from coal fly ash from a thermal power plant through an economic process. Journal of European Ceramic Society, 24, pp. 2825-2833, (2004).
- Erol, M. M., Küçükbayrak, S., Ersoy-Meriçboyu, A., Endüstriyel atıklardan cam, cam-seramik ve seramik üretimi. İTÜ Dergisi/d-Mühendislik, Cilt:6, Sayı:5-6, pp. 106-119, (2007).
- İpek, U., Arslan, E.I., Aslan, S., Arıtma çamurlarının kompostlaştırılması. Çevre Sorunları Sempozyumu, 14– 17 Mayıs, Kocaeli, s.1351-1358, (2008).
- TİD, Türkiye’nin İklim Değişikliği Ulusal Eylem Planının Geliştirilmesi Projesi, atık sektörü mevcut durum değerlendirmesi raporu. 110, (2010).
- Saeedi, M. and Amini, H.R., Stabilization of heavy metals in wastewater treatment sludge from power plants air heater washing. Waste Management & Research, 27, pp. 274–280, (2009).
- Moyo, S., Mujuru, M., McCrindle, R. I. and Mokgalaka-Matlala, N., Environmental implications of material leached from coal. Journal of Environmental Monitoring, DOI:10.1039/c1em10091b, (2011).
- Baba, A., Leaching characteristics of wastes from Kemerköy (Mugla-Turkey) Power Plant. Global Nest: the Int. J. Vol 2, No 1, pp. 51-57, (2000).
- Baba, A. ve Türkman, A., Investigation of geochemical and leaching characteristics of solid wastes from Yeniköy (Muğla-Turkey) Power Plant. Turk J. Engin. Environ. Sci., 25, pp. 321-328, (2001).
- Chang, E.E., Chiang, P.C., Lu, P.H., Ko, Y.W., Comparisons of metal leachability for various wastes by extraction and leaching methods. Chemosphere 45, pp.91-99, (2001).
- Singh, G., Environmental assessment of fly ash from some thermal power stations for reclamation of mined out areas. Fly Ash Utilization Programme (FAUP), TIFAC, DST, New Delhi – 110016, pp. IV 9.1-IV 9.10, (2005).
- Hsieh, C.H., Lo, S.L., Hu, C.Y., Shih, K., Kuan, W.H., Chen, C.L., Thermal detoxification of hazardous metal sludge by applied electromagnetic energy. Chemosphere 71 pp. 1693–1700, (2008).
- USEPA., United States Environmental Projection Agency, ‘Method 1311 Toxicity Characteristic Leaching Procedure’, (1992).
Yıl 2011,
Cilt: 15 Sayı: 2, 97 - 104, 01.12.2011
Öz
Fly ash and slag that result from combustion of coal in thermal power plants are important environmental problems; because they contain heavy metals. Sewage sludge that is an ultimate product of wastewater treatment contains pollutants removed from wastewater and these pollutants limits its beneficial usage. The aim of this study is to determine the leachability of some heavy metals from fly ash and slag of power plant and wastewater treatment sludge by Toxicity Characteristic Leaching Procedure (TCLP) and American Society of Testing and Materials (ASTM) methods. According to TCLP and ASTM results found that the heavy metal concentrations leached to solutions after leaching of the wastes were higher than the limits given by regulation. It was determined that important pollution can be seen as a result of the leaching of these wastes.
Kaynakça
- Bozoğlan, M., TKİ Kurumu bünyesindeki çevresel önlemler ve bu önlemlerin maliyet analizleri. Çevre ve Enerji Kongresi, 192, 491, (1997).
- Baba, A., Yatağan (Muğla) Termik Santrali atık depolama sahasının yer altı sularına etkisi. Jeoloji Mühendisliği, 25, 2, (2001).
- TKİKGM., Türkiye Kömür İşletmeleri Kurumu Genel Müdürlüğü, Kömür Sektör Raporu (Linyit),
- TUİK., Türkiye İstatistik Kurumu, www.tuik.gov.tr, (2010).
- Yeheyis, M. B., Shang, J. Q. and Yanful, E. K., Chemical and mineralogical transformations of coal fly ash after landfilling. 2009 World of Coal Ash (WOCA) Conference – May 4-7, 2009 in Lexington, KY, USA, (2009).
- Oueralt, I., Ouerol, X., López-Soler, A. and Plana, F., Use of coal fly ash for ceramics: a case study for a large Spanish power station. Fuel, Vol, 76, No. 8, pp. 787-791, (1997).
- Zhang, J., Dong, W., Li, Juan., Qiao, L., Zheng, J., Sheng, J., Utilization of coal fly ash in the glass–ceramic production. Journal of Hazardous Materials, 149, pp. 523–526, (2007).
- Kim, J.M., Kim, H.S., Processing and properties of a glass-ceramic from coal fly ash from a thermal power plant through an economic process. Journal of European Ceramic Society, 24, pp. 2825-2833, (2004).
- Erol, M. M., Küçükbayrak, S., Ersoy-Meriçboyu, A., Endüstriyel atıklardan cam, cam-seramik ve seramik üretimi. İTÜ Dergisi/d-Mühendislik, Cilt:6, Sayı:5-6, pp. 106-119, (2007).
- İpek, U., Arslan, E.I., Aslan, S., Arıtma çamurlarının kompostlaştırılması. Çevre Sorunları Sempozyumu, 14– 17 Mayıs, Kocaeli, s.1351-1358, (2008).
- TİD, Türkiye’nin İklim Değişikliği Ulusal Eylem Planının Geliştirilmesi Projesi, atık sektörü mevcut durum değerlendirmesi raporu. 110, (2010).
- Saeedi, M. and Amini, H.R., Stabilization of heavy metals in wastewater treatment sludge from power plants air heater washing. Waste Management & Research, 27, pp. 274–280, (2009).
- Moyo, S., Mujuru, M., McCrindle, R. I. and Mokgalaka-Matlala, N., Environmental implications of material leached from coal. Journal of Environmental Monitoring, DOI:10.1039/c1em10091b, (2011).
- Baba, A., Leaching characteristics of wastes from Kemerköy (Mugla-Turkey) Power Plant. Global Nest: the Int. J. Vol 2, No 1, pp. 51-57, (2000).
- Baba, A. ve Türkman, A., Investigation of geochemical and leaching characteristics of solid wastes from Yeniköy (Muğla-Turkey) Power Plant. Turk J. Engin. Environ. Sci., 25, pp. 321-328, (2001).
- Chang, E.E., Chiang, P.C., Lu, P.H., Ko, Y.W., Comparisons of metal leachability for various wastes by extraction and leaching methods. Chemosphere 45, pp.91-99, (2001).
- Singh, G., Environmental assessment of fly ash from some thermal power stations for reclamation of mined out areas. Fly Ash Utilization Programme (FAUP), TIFAC, DST, New Delhi – 110016, pp. IV 9.1-IV 9.10, (2005).
- Hsieh, C.H., Lo, S.L., Hu, C.Y., Shih, K., Kuan, W.H., Chen, C.L., Thermal detoxification of hazardous metal sludge by applied electromagnetic energy. Chemosphere 71 pp. 1693–1700, (2008).
- USEPA., United States Environmental Projection Agency, ‘Method 1311 Toxicity Characteristic Leaching Procedure’, (1992).
Toplam 19 adet kaynakça vardır.
Ayrıntılar
| Birincil Dil | Türkçe |
|---|---|
| Konular | Mühendislik |
| Bölüm | Araştırma Makalesi |
| Yazarlar | |
| Yayımlanma Tarihi | 1 Aralık 2011 |
| Gönderilme Tarihi | 14 Mart 2014 |
| Yayımlandığı Sayı | Yıl 2011 Cilt: 15 Sayı: 2 |
Kaynak Göster
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