ПЕРСПЕКТИВИ ВИКОРИСТАННЯ ВІДХОДІВ В ЛІВАНІ
DOI:
https://doi.org/10.48076/2413-9890.2019-100-08Ключові слова:
відходи, рисова лушпиння, бетон, міцність при стисненніАнотація
Для Лівану актуальним є використання різних промислових відходів для заміни дрібного заповнювача і цементу в бетоні, що підтверджено відповідними експериментальними дослідженнямиMetrics
Посилання
Катрин Сильги : история мусора. histoire des homes et de leurs ordures du moyen age a nos jours https://www.labirint.ru/books/290100/
https://share.america.gov/ru/кризис-отходов-в-ли- ване-острота-пробл
Solid Waste Management in Lebanon: Challenges and Recommendations Ismail I. Abbas1, Jinane K. Chaaban, Abdel-Rahman Al-Rabaa, Ali A. Shaar. Journal of Envi- ronment and Waste Management. 2017. Vol. 4(2), pp. 053-063.
https://realist.online/article/livanskij-musornyj-krizis- ugrozhaet-sredizemnomoryu
Hilal N., Fadlallah R., Jamal D., El-Jardali F. Approaching the Waste Crisis in Lebanon : Consequences and Insights into Solutions. 2015. K2P.
Socrat Ghadban, Maya Shames, Haifa Abou Mayaleh. Trash Crisis and Solid Waste Management in Lebanon- Analyzing Hotels’ Commitment and Guests’ Preferences. Journal of Tourism Research Hospitality. 2017. № 6 (3). Рp.100–169.
May A. Massoud, N. Makarem, W. Ramadan & R. Nakkash. Environmental management practices in the Lebanese pharmaceutical industries: implementation strategies and challenges. Environ Monit Assess. 2015.
№ 187. Р. 107.
Abi-Ghanem C., Nakhlé K., Khalaf G., Cossa D. Mercury distribution and methylmercury mobility in the sedi- ments of three sites on the Lebanese coast, eastern Mediterranean. Arch Environ Contam Toxicol. 2011. № 60(3). Рр. 394–405.
M. El Moujabber, B. Bou Samra, T. Darwish, T. Atallah. Comparison of Different Indicators for Groundwater Contamination by Seawater Intrusion on the Lebanese Coast. Water Resources Management. 2006. Volume 20. Issue 2. Рp. 161–180.
Chbib C., Net S., Hamze M., Dumoulin D., Ouddane B., Baroudi M.
Assessment of pesticide pollution in groundwater Akkar, northern Lebanon. Environ Sci Pollut Res Int. 2018. № 25 (15). Рр.14302–14312.
Rami Z. Morsi, Rawan Safa, Serge F. Baroud, Cherine N. Fawaz, Jad I. Farha, Fadi El-Jardali, Monique Chaaya. The protracted waste crisis and physical health of workers in Beirut : a comparative cross-sectional study. Environ- mental Health. 2017. № 12. Рр.16–39.
Salpie Djoundourian. Environmental movement in Lebanon. Environment Development and Sustainability. 2009. № 11(2). Рр. 427–438.
SWEEPNET. Country report on the solid waste manage- ment in Lebanon. 2014.
Alleman J.E., Berman N.A. Constructive sludge manage- ment. Journal of Environmental Engineering. 1984. № 110 (2). Рр. 301–311.
Tay J.H. Bricks Manufactured from Sludge. Journal of En- vironmental Engineering. 1987. № 113(2). Рр. 278–285.
Tay J.H., Show K.Y., Hong S.Y. Potential reuse of waste-
water sludge for innovative applications in construction industry. Bulletin of the College of Engineering, N.T.U. 2002. № 86. Рр. 103–112.
Khanbilvardi R., Afshari S. Sludge ash as fine aggregate for concrete mix. Journal of Environmental Engineering. 1995. № 121(9). Рр. 633–638.
Tay J.H. Potential use of sludge ash as construction ma- terial. Elsevier Science Publishers. B.V.1986. № 13. Рр. 53–58.
Naik T.R., Friberg T.S., Chun Y.C. Use of pulp and paper mill residual solids in production of cellucrete. Cem. Concr. Res. 2004. № 34(7). Рр. 1229–1234.
Marcis C., Minichelli D., Bruckner S., Bachiorrini A. and Maschio S. Production of monolithic ceramics from in- cinerated municipal sewage sludge, paper mill sludge and steelworks slag. IndCeram. № 25(2). Рр. 89–95.
Chindaprarsirt P., Buapa N. and Cao H. Mixed cement containing fly ash for masonry and plastering work. Constr Build Mater. 2005. № 19(8). Рр. 612–618.
Liaw C.T., Chang, H.L., Hsu W.C. and Huang C.R. A novel method to reuse paper sludge and cogeneration ashes from paper mill. J. Hazard. Mater 1998. № 58. Рр. 93–103.
Smith R.G. and Kamwanja G.A. The use of rice husk for making a cementitious material, proc. Joint Symposium on the Use of Vegetable Plants and their Fibers as Build- ing Material. International Journal of Innovative Re- search in Science, Engineering and Technology. 2014. Vol. 3. Issue 1.
Zhang M.H., Lastra R. and MalhotraV.M. Ricehusk ash paste and concrete: Some aspects of hydration and the microstructure of the interfacial zone between the ag- gregate and paste. Cement and Concrete Research. 1996. № 26(6). Рр. 963–977.
Sakr K. Effects of silica fume and rice husk ash on the properties of heavy weight concrete. Journal of materi- als in civil engineering. 1996. № 18(3). Рр. 367–376.
SataV, Jaturapitakkul C., Kiattikomol K. Influence of poz- zolana from various by-product materials on mechani- cal properties of high-strength concrete. Construction and Building Materials. 2007. № 21(7). Рр. 1589–1598.
Nicole P.H., Monteiro P.M. and Carasek H. Effect of silica fume and rice husk ash on alkali-silica reaction. Materials Journal. 2000. № 97(4). Рр. 486–492.
Ernstbrunner L. Rejects from paper manufacture utilized in the cement works. Das Papier. 1997. № 51(6). Рр. 284– 286.
ACI committee report by Hogan and Meusel. 1981.
Corinaldesi, Maria Letizia Ruello and Gabriele Fava. Paper Mill Sludge Ash as supplementary Cementitious Material. Second International Conference on Sustain- able Construction Materials and Technologies. June 2010. The University of Wisconsin Milwaukee Centre for By-products.
Alireza Naji Givi, Suraya Abdul Rashid, Farah Nora Aziz, Mohamad Amran Mohd Salleh. Contribution of rice husk ash to the properties of mortar and concrete : а Re- view. Journal of American Science. 2010. № 6(3). Рр. 157–165.
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